Gastric cancer(GC)is a prevalent and devastating disease with a poor prognosis.The lack of biomarkers for early detection and effective targeted therapeutics for GC patients represents two major challenges.Through iso...Gastric cancer(GC)is a prevalent and devastating disease with a poor prognosis.The lack of biomarkers for early detection and effective targeted therapeutics for GC patients represents two major challenges.Through isobaric tags for relative and absolute quantitation(iTRAQ)coupled with liquid chromatography-tandem mass spectrometry(LC-MS/MS)phosphoproteomic analysis of 14 GC and gastric epithelial cell lines,we discovered the discoidin domain receptor tyrosine kinase 1(DDR1)as a top potential drug target out of 40 tyrosine kinases detected along with over 1000 phosphoproteins profiled.The DDR1 protein and mRNA levels were upregulated in GC cells concurrent with DDR1 gene amplification.Immunohistochemistry staining of more than 200 clinical samples revealed that DDR1 was overexpressed in approximately 41%and 48%of the intestinal and diffuse types of GC cases,respectively,compared with only 3.5%in normal tissues.Higher DDR1 expression was associated with poor prognosis.In cellular models,DDR1 overexpression led to accelerated proliferation,invasion,and malignant transformation,putatively via inhibition of the Hippo pathway and consequent activation of YAP-TEAD target gene expression.Notably,DDR1-overexpressing GC cells exhibited high vulnerability to selective DDR1 inhibitors.The present study provides preclinical support for the application of DDR1-selective inhibitors in DDR1-overexpressing GC.展开更多
Skeletal muscles are essential for locomotion,posture,and metabolic regulation.To understand physiological processes,exercise adaptation,and muscle-related disorders,it is critical to understand the molecular pathways...Skeletal muscles are essential for locomotion,posture,and metabolic regulation.To understand physiological processes,exercise adaptation,and muscle-related disorders,it is critical to understand the molecular pathways that underlie skeletal muscle function.The process of muscle contra ction,orchestrated by a complex interplay of molecular events,is at the core of skeletal muscle function.Muscle contraction is initiated by an action potential and neuromuscular transmission requiring a neuromuscular junction.Within muscle fibers,calcium ions play a critical role in mediating the interaction between actin and myosin filaments that generate force.Regulation of calcium release from the sarcoplasmic reticulum plays a key role in excitation-contraction coupling.The development and growth of skeletal muscle are regulated by a network of molecular pathways collectively known as myogenesis.Myogenic regulators coordinate the diffe rentiation of myoblasts into mature muscle fibers.Signaling pathways regulate muscle protein synthesis and hypertrophy in response to mechanical stimuli and nutrient availability.Seve ral muscle-related diseases,including congenital myasthenic disorders,sarcopenia,muscular dystrophies,and metabolic myopathies,are underpinned by dys regulated molecular pathways in skeletal muscle.Therapeutic interventions aimed at preserving muscle mass and function,enhancing regeneration,and improving metabolic health hold promise by targeting specific molecular pathways.Other molecular signaling pathways in skeletal muscle include the canonical Wnt signaling pathway,a critical regulator of myogenesis,muscle regeneration,and metabolic function,and the Hippo signaling pathway.In recent years,more details have been uncovered about the role of these two pathways during myogenesis and in developing and adult skeletal muscle fibers,and at the neuromuscular junction.In fact,research in the last few years now suggests that these two signaling pathways are interconnected and that they jointly control physiological and pathophysiological processes in muscle fibers.In this review,we will summarize and discuss the data on these two pathways,focusing on their concerted action next to their contribution to skeletal muscle biology.However,an in-depth discussion of the noncanonical Wnt pathway,the fibro/a dipogenic precursors,or the mechanosensory aspects of these pathways is not the focus of this review.展开更多
Hippo signaling is a highly conserved pathway central to diverse cellular processes.Dysregulation of this pathway not only leads to developmental abnormalities but is also closely related to the occurrence and progres...Hippo signaling is a highly conserved pathway central to diverse cellular processes.Dysregulation of this pathway not only leads to developmental abnormalities but is also closely related to the occurrence and progression of various cancers.Recent studies have uncovered that,in addition to the classical signaling cascade regulation,biomolecular condensates formed via phase separation play a key role in the spatiotemporal regulation of Hippo signaling.In this review,we provide a summary of the latest research progress on the regulation of the Hippo signaling pathway by phase separation,with a particular focus on transcriptional activation mediated by Yes-associated protein(YAP)/transcriptional coactivator with post-synaptic density-95,disks-large,and zonula occludens-1(PDZ)-binding domain(TAZ)condensates.Furthermore,we discuss the utility of chemical crosslinking combined with mass spectrometry to analyze the TAZ condensate interactome and examine the role of the protein fused in sarcoma(FUS)in modulating the biophysical properties of TAZ condensates,which in turn influence their transcriptional activity and pro-tumorigenic functions.These insights not only advance our understanding of Hippo signaling but also offer new perspectives for therapeutic interventions targeting diseases linked to dysregulated YAP/TAZ activity.展开更多
Acute kidney injury(AKI) is a significant clinical complication with a substantial impact on morbidity and mortality, for which therapeutic options remain limited. The Hippo signaling pathway is an evolutionarily cons...Acute kidney injury(AKI) is a significant clinical complication with a substantial impact on morbidity and mortality, for which therapeutic options remain limited. The Hippo signaling pathway is an evolutionarily conserved pathway implicated in cell proliferation, dedifferentiation, and apoptosis via phosphorylation and inactivation of its downstream effectorsYes-associatedprotein(YAP)/transcriptional co-activator with PDZ-binding motif(TAZ). Recent studies have revealed that the Hippo pathway plays a pivotal role in the pathogenesis and repair of AKI. The Hippo pathway can mediate renal dysfunction through modulation of mitochondrial apoptosis under AKI conditions. Transient activation of YAP/TAZ in the acute phase of AKI may benefit renal recovery and regeneration, whereas persistent activation of YAP/TAZ in severe AKI may lead to maladaptive repair and transition to chronic kidney disease. This review aims to summarize recent findings on the associations between the Hippo pathway and AKI and to identify new therapeutic targets and strategies for AKI.展开更多
Loss of apico-basal polarity is one of the crucial factors that drives epithelial tumor progression, scribbleldiscs largellethal giant larvae (scrib/dlg/lgl), a group of apico-basal polarity genes, were initially id...Loss of apico-basal polarity is one of the crucial factors that drives epithelial tumor progression, scribbleldiscs largellethal giant larvae (scrib/dlg/lgl), a group of apico-basal polarity genes, were initially identified as members of "neoplastic" tumor-suppressors in flies. The components of the Hippo signaling pathway, which is crucial for organ size control and cancer development, were also identified through Drosophila genetic screens as members of "hyperplastic" tumor-suppressors. Accumulating evidence in recent studies implies that these two tumor-suppressor signaling pathways are not mutually exclusive but rather cooperatively act to give rise to highly malignant tumors. The interaction of these tumor-suppressor pathways could include deregulations of actin cytoskeleton, cell-cell contact, and apical-domain size of展开更多
How organ size is determined is a fundamental question in life sciences.Recent studies have highlighted the importance of the Hippo pathway in regulating organ size.This pathway controls cell proliferation and cell de...How organ size is determined is a fundamental question in life sciences.Recent studies have highlighted the importance of the Hippo pathway in regulating organ size.This pathway controls cell proliferation and cell death to maintain the proper number of cells.The activity of the Hippo pathway is tightly fine-tuned through various post-translational modifications,such as phosphorylation and ubiquitination.Here,we discover that miR-927 is a novel regulator of wing size.Overexpression of miR-927 decreases wing size,which can be rescued by co-expressing miR-927-sponge.Next,we show that miR-927 stimulates apoptosis and suppresses the expression of Drosophila inhibitor of apoptosis protein 1,a well-known target gene of the Hippo pathway.Genetic epistatic analyses position miR-927 upstream of Yorkie(Yki)to modulate the Hippo pathway.In addition,there is a matching miR-927 seed site in the yki 3′untranslated region(3′-UTR),and we demonstrate that yki 3′-UTR is the direct target of miR-927.Ultimately,our study reveals that the targeting of yki by miR-927 to regulate the Hippo pathway is conserved in Helicoverpa armigera.Administration of miR-927 via star polycation(SPc)nanocarrier effectively inhibits wing development in H.armigera.Taken together,our findings uncover a novel mechanism by which Yki is silenced at the post-transcriptional level by miR-927,and provide a new perspective on pest management.展开更多
Stem cells and progenitor cells are the cells of origin for multi-cellular organisms and organs.They play key roles during development and their dysregulation gives rise to human diseases such as cancer.The recent de-...Stem cells and progenitor cells are the cells of origin for multi-cellular organisms and organs.They play key roles during development and their dysregulation gives rise to human diseases such as cancer.The recent de-velopment of induced pluripotent stem cell(iPSC)technology which converts somatic cells to stem-like cells holds great promise for regenerative medicine.Nevertheless,the understanding of proliferation,dif-ferentiation,and self-renewal of stem cells and or-gan-specific progenitor cells is far from clear.Recently,the Hippo pathway was demonstrated to play important roles in these processes.The Hippo pathway is a newly established signaling pathway with critical functions in limiting organ size and suppressing tumorigenesis.This pathway was first found to inhibit cell proliferation and promote apoptosis,therefore regulating cell num-ber and organ size in both Drosophila and mammals.However,in several organs,disturbance of the pathway leads to specific expansion of the progenitor cell com-partment and manipulation of the pathway in embryonic stem cells strongly affects their self-renewal and dif-ferentiation.In this review,we summarize current ob-servations on roles of the Hippo pathway in different types of stem cells and discuss how these findings changed our view on the Hippo pathway in organ de-velopment and tumorigenesis.展开更多
Insect wings are developed from the wing disc during metamorphosis.Bombyx mori,a model lepidopteran insect,loses flight ability after long-term domestication from the wild silkworm,Bombyx mandarina.The mw mutant(ul 1 ...Insect wings are developed from the wing disc during metamorphosis.Bombyx mori,a model lepidopteran insect,loses flight ability after long-term domestication from the wild silkworm,Bombyx mandarina.The mw mutant(ul 1 strain)shows minute wings compared to wild type(e.g.,p50 strain)wings.RNA sequencing analysis previously revealed differential Hippo-pathway-related gene expression between the ull and p50strains.The Hippo pathway is an evolutionarily conserved signaling cascade that controls organ size during development in animals.In this study,the function of BmSd which has been characterized as one of the Hippo-pathway-related genes was analyzed for silkworm wing development.We found that mats,warts,and hippo expression levels were higher in u11 compared to p50 wing discs.BmSd(scalloped)expression,which encodes a prominent transcriptional partner to Yorkie(Yki),gradually decreased during the wandering stage in ull,but exhibited the opposite expression pattern in p50.When BmSd was knocked down by small interfering RNA during the wandering stage in the p50 strain,57.9%of the individuals showed minute wings.Additionally,ex,kibras and wingless expression levels decreased in the BmSd knockdown mutant.Further,BmSd deletion mediated by clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated protein 9 induced 50%of individuals with minute wings,a phenotype similar to the mw mutant.This result demonstrates that BmSd plays pivotal roles in silkworm wing development.Our results show that the Hippo signaling pathway participates and plays crucial roles in the regulation of silkworm wing development,and our findings provide a basis for further research on B.mori wing development.展开更多
Ferroptosis is a novel form of iron-dependent cell death characterized by lipid per-oxidation.While the importance and disease relevance of ferroptosis is gaining recognition,much remains unknown about various genetic...Ferroptosis is a novel form of iron-dependent cell death characterized by lipid per-oxidation.While the importance and disease relevance of ferroptosis is gaining recognition,much remains unknown about various genetic and non-genetic determinants of ferroptosis.Hippo signaling pathway is an evolutionarily conserved pathway that responds to various envi-ronmental cues and controls organ size,cell proliferation,death,and self-renewal capacity.In cancer biology,Hippo pathway is a potent tumor suppressing mechanism and its dysregulation contributes to apoptosis evasion,cancer development,metastasis,and treatment resistance.Hippo dysregulation leads to aberrant activation of YAP and TAZ,the two major transcription co-activators of TEADs,that induce the expression of genes triggering tumor-promoting pheno-types,including enhanced cell proliferation,self-renewal and apoptosis inhibition.The Hippo pathway is regulated by the cell-cell contact and cellular density/confluence.Recently,fer-roptosis has also been found being regulated by the cellular contact and density.The YAP/TAZ activation under low density,while confers apoptosis resistance,renders cancer cells sensitivity to ferroptosis.These findings establish YAP/TAZ and Hippo pathways as novel deter-minants of ferroptosis.Therefore,inducing ferroptosis may have therapeutic potential for YAP/TAZ-activated chemo-resistant and metastatic tumor cells.Reciprocally,various YAP/TAZ-targeting treatments under clinical development may confer ferroptosis resistance,limiting the therapeutic efficacy.展开更多
The promise of regeneration therapy for restoration of damaged myocardium after cardiac ischemic injury relies on targeted delivery of proliferative molecules into cardiomyocytes whose healing benefits are still limit...The promise of regeneration therapy for restoration of damaged myocardium after cardiac ischemic injury relies on targeted delivery of proliferative molecules into cardiomyocytes whose healing benefits are still limited owing to severe immune microenvironment due to local high concentration of proinflammatory cytokines.Optimal therapeutic strategies are therefore in urgent need to both modulate local immunity and deliver proliferative molecules.Here,we addressed this unmet need by developing neutrophil-mimic nanoparticles NM@miR,fabricated by coating hybrid neutrophil membranes with artificial lipids onto mesoporous silica nanoparticles(MSNs)loaded with microRNA-10b.The hybrid membrane could endow nanoparticles with strong capacity to migrate into infammatory sites and neutralize proinfammatory cytokines and increase the delivery efficiency of microRNA-1Ob into adult mammalian cardiomyocytes(CMs)by fusing with cell membranes and leading to the release of MSNs-miR into cytosol.Upon NM@miR administration,this nanoparticle could home to the injured myocardium,restore the local immunity,and efficiently deliver microRNA-1Ob to cardiomyocytes,which could reduce the activation of Hippo-YAP pathway mediated by excessive cytokines and exert the best proliferative effect of miR-1Ob.This combination therapy could finally improve cardiac function and mitigate ventricular remodeling.Consequently,this work offers a combination strategy of immunity modulation and proliferative molecule delivery to boost cardiac regeneration after injury.展开更多
The evolutionarily conserved Hippo pathway coordinates cell proliferation,differentiation and apoptosis to regulate organ growth and tumorigenesis.Hippo signaling activity is tightly controlled by various upstream sig...The evolutionarily conserved Hippo pathway coordinates cell proliferation,differentiation and apoptosis to regulate organ growth and tumorigenesis.Hippo signaling activity is tightly controlled by various upstream signals including growth factors and cell polarity,but the full extent to which the pathway is regulated during development remains to be resolved.Here,we report the identification of Shaggy,the homolog of mammalian Gsk3β,as a novel regulator of the Hippo pathway in Drosophila.Our results show that Shaggy promotes the expression of Hippo target genes in a manner that is dependent on its kinase activity.Loss of Shaggy leads to Yorkie inhibition and downregulation of Hippo pathway target genes.Mechanistically,Shaggy acts upstream of the Hippo pathway and negatively regulates the abundance of the FERM domain containing adaptor protein Expanded.Our results reveal that Shaggy is functionally required for Crumbs/Slmb-mediated downregulation of Expanded in vivo,providing a potential molecular link between cellular architecture and the Hippo signaling pathway.展开更多
Hepatocellular carcinoma(HCC)is one of the common most malignant tumors.This study aimed to determine the in vitro and in vivo anticancer activity of cordycepin and elucidate its mechanism of action.The results of in ...Hepatocellular carcinoma(HCC)is one of the common most malignant tumors.This study aimed to determine the in vitro and in vivo anticancer activity of cordycepin and elucidate its mechanism of action.The results of in vitro and in vivo studies revealed that cordycepin inhibited proliferation and migration in HepG-2 cells and inhibited the growth of HepG-2 xenograft-bearing nude mice by inducing apoptosis.Transcriptome sequencing analysis revealed a total of 403 differential genes,which revealed that cordycepin may play an anti-HCC role by regulating Hippo signaling pathway.The regulatory effects of cordycepin on the Hippo signaling pathway was further investigated using a YAP1 inhibitor.The results demonstrated that cordycepin upregulated the expression of MST1 and LAST1,and subsequently inhibited YAP1,which activated the Hippo signaling pathway.This in turn downregulated the expression of GBP3 and ETV5,and subsequently inhibited cell proliferation and migration.Additionally,YAP1 regulated the expression of Bax and Bcl-2,regulated the mitochondrial apoptotic pathway,and induced apoptosis by upregulating the expression of the caspase-3 protein.In summary,this study reveals that cordycepin exerts its anti-hepatocarcinoma effect through regulating Hippo signaling pathway,and GBP3 and ETV5 may be potential therapeutic targets for hepatocarcinoma.展开更多
OBJECTIVE To investigate the effect of scutellarin on the apoptosis of human colorectal cancer cells via the Hippo signaling pathway in vitro.METHODS MTT colorimetric method was used to detect the influence of scutell...OBJECTIVE To investigate the effect of scutellarin on the apoptosis of human colorectal cancer cells via the Hippo signaling pathway in vitro.METHODS MTT colorimetric method was used to detect the influence of scutellarin on the survival rate of HCT116 cells.And the effect of scutellarin at various concentrations on cell morphology was observed by microscopy.Cell scratch experiment was used to detect the influence of scutellarin on the migration of HCT116 cells.Hoechst33342/PI double staining method was used to detect the effect of scutellarin on the apoptosis of HCT116 cells.Western blotting method was used to assess the action of scutellarin on the expressions of Hippo signaling pathway-related proteins Mst1,Lats1,YAP1,p-YAP(Ser127),TAZ,and its downstream effector proteins c-Myc and cyclin D1,as well as apoptosis-related proteins Bcl-2 and Bax in HCT116 cells.RESULTS Scutellarin significantly affected the morphology of HCT116 cells and reduced the survival rate of HCT116 cells.Hoechst33342/PI double staining showed that scutellarin effectively induced the apoptosis of HCT116 cells.Western blotting analysis showed that the expression levels of Hippo signaling pathway-related proteins Mst1,Lats1,YAP1,TAZ and its downstream effector proteins c-Myc,cyclin D1 were down-regulated in a concentration-dependent manner by scutellarin,and the expression of p-YAP(ser127)was up-regulated.Moreover,scutellarin substantially lessened the expression level of apoptosis-related protein Bcl-2,and promoted the protein level of Bax.CONCLUSION Scutellarin may inhibit the proliferation and migration of HCT116 cells,while induce its apoptosis,potentially by activation of Hippo signaling pathway.展开更多
Objective:This review aimed to summarize the role of the Hippo signaling pathway in renal cell carcinoma (RCC), a urologic malignancy with subtle initial symptoms and high mortality rates due to metastatic RCC. The Hi...Objective:This review aimed to summarize the role of the Hippo signaling pathway in renal cell carcinoma (RCC), a urologic malignancy with subtle initial symptoms and high mortality rates due to metastatic RCC. The Hippo signaling pathway, which regulates tissue and organ sizes, plays a crucial role in RCC progression and metastasis. Understanding the involvement of the Hippo signaling pathway in RCC provides valuable insights for the development of targeted therapies and improved patient outcomes.Methods:In this review, we explored the impact of the Hippo signaling pathway on RCC. Through an analysis of existing literature, we examined its role in RCC progression and metastasis. Additionally, we discussed potential therapeutic strategies targeting the Hippo pathway for inhibiting RCC cell growth and invasion. We also highlighted the importance of investigating interactions between the Hippo pathway and other signaling pathways such as Wnt, transforming growth factor-beta, and PI3K/AKT, which may uncover additional therapeutic targets.Results:The Hippo signaling pathway has shown promise as a target for inhibiting RCC cell growth and invasion. Studies have demonstrated its dysregulation in RCC, with altered expression of key components such as yes-associated protein/transcriptional coactivator with PDZ-binding motif (YAP/TAZ). Targeting the Hippo pathway has been associated with suppressed tumor growth and metastasis in preclinical models of RCC. Furthermore, investigating crosstalk between the Hippo pathway and other signaling pathways has revealed potential synergistic effects that could be exploited for therapeutic interventions.Conclusion:Understanding the role of the Hippo signaling pathway in RCC is of paramount importance. Elucidating its functions and molecular interactions contributes to RCC diagnosis, treatment, and the discovery of novel mechanisms. This knowledge informs the development of innovative therapeutic strategies and opens new avenues for research in RCC. Further investigations are warranted to fully comprehend the complex interplay between the Hippo pathway and other signaling pathways, ultimately leading to improved outcomes for RCC patients.展开更多
Objective:To explore the mechanism of Huatan Sanjie Fang(HTSJ)in regulating goiter in Graves'disease(GD)mice by detecting key factors of the Hippo signaling pathway.Methods:A mouse model of GD was established by i...Objective:To explore the mechanism of Huatan Sanjie Fang(HTSJ)in regulating goiter in Graves'disease(GD)mice by detecting key factors of the Hippo signaling pathway.Methods:A mouse model of GD was established by injecting Ad-TSHR289 adenovirus into the bilateral quadriceps femoris of female mice.Successful mouse models were then randomly divided into a model group,methimazole(MMI)group,and HTSJ group,and fed with deionized water,MMI(4.5 mg/kg per day),and HTSJ(35.10 g/kg per day),respectively,for 10 weeks.Histopathological changes of the thyroid gland were subsequently observed by hematoxylin-eosin staining.Radioimmunoassay was used to detect serum total thyroxine(T4)and thyrotrophin-receptor antibody(TRAb)levels.The relative expression of mRNA of Mst1,YAP,and TAZ were detected by quantitative real-time polymerase chain reaction,while the protein expression of Mst1,YAP,TAZ,pMst1,and pYAP were detected by western blot.Results:After 10 weeks of drug intervention,goiter and other pathological changes in the HTSJ group significantly improved compared with the model group,and the levels of serum T4 and TRAb significantly decreased(P=.002,P<.001,respectively).Decreased mRNA expression of Mst1,YAP,and TAZ,the key factors of the Hippo signaling transduction pathway,was also observed(P=.002,P=.022,P<.001,respectively).In contrast,protein expression of Mst1(P=.046),pMst1(P=.026),and p YAP(P=.004)increased,while protein expression of YAP and TAZ decreased(P=.041,P<.001,respectively).Conclusion:HTSJ can effectively improve goiter in GD mice through the Hippo signaling pathway.展开更多
OBJECTIVE:To investigate the potential mechanism of electroacupuncture(EA)in alleviating premature ovarian insufficiency(POI)and to provide a theoretical basis for EA treatment of POI.METHODS:For this purpose,a POI mi...OBJECTIVE:To investigate the potential mechanism of electroacupuncture(EA)in alleviating premature ovarian insufficiency(POI)and to provide a theoretical basis for EA treatment of POI.METHODS:For this purpose,a POI mice model was developed by injecting 12 mg/kg busulfan and 120 mg/kg cyclophosphamide intraperitoneally to induce POI.It was then proceeded by EA intervention at Guanyuan(CV4)acupoint on the second day following modeling.Similarly,apoptosis in ovarian granulosa cells was detected by terminal deoxynucleotidyl transferase d UTP nick end labeling staining,while enzyme-linked immunosorbent assay was employed for measuring serum folliclestimulating hormone(FSH),luteinizing hormone(LH),estrogen(E_(2)),and anti-müllerian hormone(AMH)levels.Moreover,transmission electron microscopy(TEM)was employed for examining mitochondrial morphology,while autophagy and hippo-yes-associated protein/transcriptional co-activator with postsynaptic density protein,drosophila disc large tumor suppressor,and zonula occludens-1 protein binding motif(YAP/TAZ)pathway related protein levels in ovarian tissue were detected via Western blotting.RESULTS:Analysis of serum levels of various hormones indicated that serum FSH and LH were reduced in EA compared to the POI group,while E_(2) and AMH levels were found to be elevated in EA compared to the POI group.The EA was found to inhibit apoptosis in granulosa cells in POI model mice,in addition to improved mitochondrial damage and significantly improved mitophagy.Pathway analysis revealed that EA was involved in activating the hippo-YAP/TAZ pathway,followed by reversing EA effects on granulosa cell apoptosis and mitophagy with the use of verteporfin,an autophagy and YAP-T-cell factor/enhancer of split and activator of transcription domain family member interaction inhibitor.CONCLUSIONS:EA at the Guanyuan(CV4)acupoint protected the granulosa cell by inhibiting cell apoptosis and promoting mitophagy,which was mediated by the Hippo-YAP/TAZ pathway.展开更多
Liver fibrosis remains a major global health challenge with limited therapeutic options.In their recent study,Wang et al report that levodopa,a dopamine precursor widely used in Parkinson’s disease,significantly atte...Liver fibrosis remains a major global health challenge with limited therapeutic options.In their recent study,Wang et al report that levodopa,a dopamine precursor widely used in Parkinson’s disease,significantly attenuates carbon tetrachloride-induced liver fibrosis in rats by enhancing dopamine receptor D1 expression and activating the Hippo signaling pathway,leading to phosphorylation and inactivation of yes-associated protein 1.This discovery links Gprotein-coupled receptor signaling to Hippo pathway regulation in hepatic fibrosis.The work highlights the dopamine receptor D1-Hippo/yes-associated protein 1 axis as a promising antifibrotic mechanism and introduces levodopa as a potential repurposing candidate for chronic liver disease.With its established safety and affordability,levodopa offers a rapidly translatable strategy that warrants validation in human tissues and diverse fibrosis models.Here,we place these findings in the broader context of G-protein-coupled receptor regulation of hepatic stellate cell activation,discuss translational opportunities for levodopa in liver fibrosis,and propose future directions to validate this pathway across disease models and clinical settings.展开更多
BACKGROUND Yes-associated protein 1(YAP1),a downstream transcriptional coactivator regulated by the Hippo signaling pathway,has been shown to be involved in liver fibrosis.YAP activity is modulated by G-protein couple...BACKGROUND Yes-associated protein 1(YAP1),a downstream transcriptional coactivator regulated by the Hippo signaling pathway,has been shown to be involved in liver fibrosis.YAP activity is modulated by G-protein coupled receptors,including Gαs-coupled protein dopamine receptor D1(DRD1).Levodopa,a dopamine precursor,activates DRD1 on cell surface,triggering its downstream signaling pathway.AIM To investigate the therapeutic effect of levodopa and the downstream mechanism on carbon tetrachloride(CCl_(4))-induced liver fibrosis,including liver DRD1 expression.METHODS SD rats were intraperitoneally injected with 40%CCl_(4)for 8 weeks to induce liver fibrosis,followed by treatment with varying doses of levodopa for 2 weeks.Serum aspartate aminotransferase(AST)and alanine aminotransferase(ALT)levels were measured,and liver pathology was assessed using hematoxylin and eosin and Masson's staining.Alpha-smooth muscle actin(α-SMA)content,along with the expressions of DRD1,YAP,and phosphorylated protein,was analyzed by Western blot,immunohistochemistry,and reverse transcription-quantitative real-time polymerase chain reaction.RESULTS Compared with the controls,levodopa-treated rats showed a decrease in the proportion of collagen in the liver and a recovery from liver fibrosis(P=0.0007).Western blot and immunohistochemistry indicated that DRD1 was upregulated in the fibrotic liver of rats treated with levodopa,showing an increase in DRD1 Level(P<0.0001).In addition,the upregulation of DRD1 activated the Hippo signaling pathway,manifested as increased YAP phosphorylation(P<0.05).CONCLUSION This was the first study to demonstrate that levodopa attenuates CCl_(4)-induced liver fibrosis by inhibiting the Hippo/YAP signaling pathways.展开更多
During development,regulation of organ size requires a balance between cell proliferation,growth and cell death.Dysregulation of these fundamental processes can cause a variety of diseases.Excessive cell proliferation...During development,regulation of organ size requires a balance between cell proliferation,growth and cell death.Dysregulation of these fundamental processes can cause a variety of diseases.Excessive cell proliferation results in cancer whereas excessive cell death results in neurodegenerative disorders.Many signaling pathways known-to-date have a role in growth regulation.Among them,evolutionarily conserved Hippo signaling pathway is unique as it controls both cell proliferation and cell death by a variety of mechanisms during organ sculpture and development.Neurodegeneration,a complex process of progressive death of neuronal population,results in fatal disorders with no available cure to date.During normal development,cell death is required for sculpting of an organ.However,aberrant cell death in neuronal cell population can result in neurodegenerative disorders.Hippo pathway has gathered major attention for its role in growth regulation and cancer,however,other functions like its role in neurodegeneration are also emerging rapidly.This review highlights the role of Hippo signaling in cell death and neurodegenerative diseases and provide the information on the chemical inhibitors employed to block Hippo pathway.Understanding Hippo mediated cell death mechanisms will aid in development of reliable and effective therapeutic strategies in future.展开更多
Salsolinol(1-methyl-6,7-dihydroxy-1,2,3,4-tetrahydroisoquinoline,Sal)is a catechol isoquinoline that causes neurotoxicity and shares structural similarity with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine,an environme...Salsolinol(1-methyl-6,7-dihydroxy-1,2,3,4-tetrahydroisoquinoline,Sal)is a catechol isoquinoline that causes neurotoxicity and shares structural similarity with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine,an environmental toxin that causes Parkinson's disease.However,the mechanism by which Sal mediates dopaminergic neuronal death remains unclear.In this study,we found that Sal significantly enhanced the global level of N~6-methyladenosine(m~6A)RNA methylation in PC12 cells,mainly by inducing the downregulation of the expression of m~6A demethylases fat mass and obesity-associated protein(FTO)and alk B homolog 5(ALKBH5).RNA sequencing analysis showed that Sal downregulated the Hippo signaling pathway.The m~6A reader YTH domain-containing family protein 2(YTHDF2)promoted the degradation of m~6A-containing Yes-associated protein 1(YAP1)mRNA,which is a downstream key effector in the Hippo signaling pathway.Additionally,downregulation of YAP1 promoted autophagy,indicating that the mutual regulation between YAP1 and autophagy can lead to neurotoxicity.These findings reveal the role of Sal on m~6A RNA methylation and suggest that Sal may act as an RNA methylation inducer mediating dopaminergic neuronal death through YAP1 and autophagy.Our results provide greater insights into the neurotoxic effects of catechol isoquinolines compared with other studies and may be a reference for assessing the involvement of RNA methylation in the pathogenesis of Parkinson's disease.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.32170738)the National Medical Research Council of Singapore(Grant No.NMRC/CBRG/0013/2012).
文摘Gastric cancer(GC)is a prevalent and devastating disease with a poor prognosis.The lack of biomarkers for early detection and effective targeted therapeutics for GC patients represents two major challenges.Through isobaric tags for relative and absolute quantitation(iTRAQ)coupled with liquid chromatography-tandem mass spectrometry(LC-MS/MS)phosphoproteomic analysis of 14 GC and gastric epithelial cell lines,we discovered the discoidin domain receptor tyrosine kinase 1(DDR1)as a top potential drug target out of 40 tyrosine kinases detected along with over 1000 phosphoproteins profiled.The DDR1 protein and mRNA levels were upregulated in GC cells concurrent with DDR1 gene amplification.Immunohistochemistry staining of more than 200 clinical samples revealed that DDR1 was overexpressed in approximately 41%and 48%of the intestinal and diffuse types of GC cases,respectively,compared with only 3.5%in normal tissues.Higher DDR1 expression was associated with poor prognosis.In cellular models,DDR1 overexpression led to accelerated proliferation,invasion,and malignant transformation,putatively via inhibition of the Hippo pathway and consequent activation of YAP-TEAD target gene expression.Notably,DDR1-overexpressing GC cells exhibited high vulnerability to selective DDR1 inhibitors.The present study provides preclinical support for the application of DDR1-selective inhibitors in DDR1-overexpressing GC.
基金supported by the German Research Council(Deutsche Forschungsgemeinschaft,HA3309/3-1/2,HA3309/6-1,HA3309/7-1)。
文摘Skeletal muscles are essential for locomotion,posture,and metabolic regulation.To understand physiological processes,exercise adaptation,and muscle-related disorders,it is critical to understand the molecular pathways that underlie skeletal muscle function.The process of muscle contra ction,orchestrated by a complex interplay of molecular events,is at the core of skeletal muscle function.Muscle contraction is initiated by an action potential and neuromuscular transmission requiring a neuromuscular junction.Within muscle fibers,calcium ions play a critical role in mediating the interaction between actin and myosin filaments that generate force.Regulation of calcium release from the sarcoplasmic reticulum plays a key role in excitation-contraction coupling.The development and growth of skeletal muscle are regulated by a network of molecular pathways collectively known as myogenesis.Myogenic regulators coordinate the diffe rentiation of myoblasts into mature muscle fibers.Signaling pathways regulate muscle protein synthesis and hypertrophy in response to mechanical stimuli and nutrient availability.Seve ral muscle-related diseases,including congenital myasthenic disorders,sarcopenia,muscular dystrophies,and metabolic myopathies,are underpinned by dys regulated molecular pathways in skeletal muscle.Therapeutic interventions aimed at preserving muscle mass and function,enhancing regeneration,and improving metabolic health hold promise by targeting specific molecular pathways.Other molecular signaling pathways in skeletal muscle include the canonical Wnt signaling pathway,a critical regulator of myogenesis,muscle regeneration,and metabolic function,and the Hippo signaling pathway.In recent years,more details have been uncovered about the role of these two pathways during myogenesis and in developing and adult skeletal muscle fibers,and at the neuromuscular junction.In fact,research in the last few years now suggests that these two signaling pathways are interconnected and that they jointly control physiological and pathophysiological processes in muscle fibers.In this review,we will summarize and discuss the data on these two pathways,focusing on their concerted action next to their contribution to skeletal muscle biology.However,an in-depth discussion of the noncanonical Wnt pathway,the fibro/a dipogenic precursors,or the mechanosensory aspects of these pathways is not the focus of this review.
基金supported by the National Natural Science Foundation of China(Nos.32570646,32370591 and 323B2012)the Zhejiang Provincial Natural Science Foundation of China(Nos.LRG25C060001 and LR21C060002)the Fundamental Research Funds for the Central Universities(No.226-2025-00028),China.
文摘Hippo signaling is a highly conserved pathway central to diverse cellular processes.Dysregulation of this pathway not only leads to developmental abnormalities but is also closely related to the occurrence and progression of various cancers.Recent studies have uncovered that,in addition to the classical signaling cascade regulation,biomolecular condensates formed via phase separation play a key role in the spatiotemporal regulation of Hippo signaling.In this review,we provide a summary of the latest research progress on the regulation of the Hippo signaling pathway by phase separation,with a particular focus on transcriptional activation mediated by Yes-associated protein(YAP)/transcriptional coactivator with post-synaptic density-95,disks-large,and zonula occludens-1(PDZ)-binding domain(TAZ)condensates.Furthermore,we discuss the utility of chemical crosslinking combined with mass spectrometry to analyze the TAZ condensate interactome and examine the role of the protein fused in sarcoma(FUS)in modulating the biophysical properties of TAZ condensates,which in turn influence their transcriptional activity and pro-tumorigenic functions.These insights not only advance our understanding of Hippo signaling but also offer new perspectives for therapeutic interventions targeting diseases linked to dysregulated YAP/TAZ activity.
基金supported by the National Natural Science Foundation of China (82070718,81770712)Shanghai Science and Technology Innovation Natural Foundation(20ZR1444700)。
文摘Acute kidney injury(AKI) is a significant clinical complication with a substantial impact on morbidity and mortality, for which therapeutic options remain limited. The Hippo signaling pathway is an evolutionarily conserved pathway implicated in cell proliferation, dedifferentiation, and apoptosis via phosphorylation and inactivation of its downstream effectorsYes-associatedprotein(YAP)/transcriptional co-activator with PDZ-binding motif(TAZ). Recent studies have revealed that the Hippo pathway plays a pivotal role in the pathogenesis and repair of AKI. The Hippo pathway can mediate renal dysfunction through modulation of mitochondrial apoptosis under AKI conditions. Transient activation of YAP/TAZ in the acute phase of AKI may benefit renal recovery and regeneration, whereas persistent activation of YAP/TAZ in severe AKI may lead to maladaptive repair and transition to chronic kidney disease. This review aims to summarize recent findings on the associations between the Hippo pathway and AKI and to identify new therapeutic targets and strategies for AKI.
文摘Loss of apico-basal polarity is one of the crucial factors that drives epithelial tumor progression, scribbleldiscs largellethal giant larvae (scrib/dlg/lgl), a group of apico-basal polarity genes, were initially identified as members of "neoplastic" tumor-suppressors in flies. The components of the Hippo signaling pathway, which is crucial for organ size control and cancer development, were also identified through Drosophila genetic screens as members of "hyperplastic" tumor-suppressors. Accumulating evidence in recent studies implies that these two tumor-suppressor signaling pathways are not mutually exclusive but rather cooperatively act to give rise to highly malignant tumors. The interaction of these tumor-suppressor pathways could include deregulations of actin cytoskeleton, cell-cell contact, and apical-domain size of
基金supported by grants from the National Natural Science Foundation of China(32350710192,32270522,32272945,and 32300396).
文摘How organ size is determined is a fundamental question in life sciences.Recent studies have highlighted the importance of the Hippo pathway in regulating organ size.This pathway controls cell proliferation and cell death to maintain the proper number of cells.The activity of the Hippo pathway is tightly fine-tuned through various post-translational modifications,such as phosphorylation and ubiquitination.Here,we discover that miR-927 is a novel regulator of wing size.Overexpression of miR-927 decreases wing size,which can be rescued by co-expressing miR-927-sponge.Next,we show that miR-927 stimulates apoptosis and suppresses the expression of Drosophila inhibitor of apoptosis protein 1,a well-known target gene of the Hippo pathway.Genetic epistatic analyses position miR-927 upstream of Yorkie(Yki)to modulate the Hippo pathway.In addition,there is a matching miR-927 seed site in the yki 3′untranslated region(3′-UTR),and we demonstrate that yki 3′-UTR is the direct target of miR-927.Ultimately,our study reveals that the targeting of yki by miR-927 to regulate the Hippo pathway is conserved in Helicoverpa armigera.Administration of miR-927 via star polycation(SPc)nanocarrier effectively inhibits wing development in H.armigera.Taken together,our findings uncover a novel mechanism by which Yki is silenced at the post-transcriptional level by miR-927,and provide a new perspective on pest management.
基金This work was supported by grants from the Na-tional Natural Science Foundation of China
文摘Stem cells and progenitor cells are the cells of origin for multi-cellular organisms and organs.They play key roles during development and their dysregulation gives rise to human diseases such as cancer.The recent de-velopment of induced pluripotent stem cell(iPSC)technology which converts somatic cells to stem-like cells holds great promise for regenerative medicine.Nevertheless,the understanding of proliferation,dif-ferentiation,and self-renewal of stem cells and or-gan-specific progenitor cells is far from clear.Recently,the Hippo pathway was demonstrated to play important roles in these processes.The Hippo pathway is a newly established signaling pathway with critical functions in limiting organ size and suppressing tumorigenesis.This pathway was first found to inhibit cell proliferation and promote apoptosis,therefore regulating cell num-ber and organ size in both Drosophila and mammals.However,in several organs,disturbance of the pathway leads to specific expansion of the progenitor cell com-partment and manipulation of the pathway in embryonic stem cells strongly affects their self-renewal and dif-ferentiation.In this review,we summarize current ob-servations on roles of the Hippo pathway in different types of stem cells and discuss how these findings changed our view on the Hippo pathway in organ de-velopment and tumorigenesis.
基金This project was supported by the National Natural Science Foundation of China(grant No.31572320)the Postgraduate Research&Practice Innovation Program of Jiangsu Province(KYCX181881).
文摘Insect wings are developed from the wing disc during metamorphosis.Bombyx mori,a model lepidopteran insect,loses flight ability after long-term domestication from the wild silkworm,Bombyx mandarina.The mw mutant(ul 1 strain)shows minute wings compared to wild type(e.g.,p50 strain)wings.RNA sequencing analysis previously revealed differential Hippo-pathway-related gene expression between the ull and p50strains.The Hippo pathway is an evolutionarily conserved signaling cascade that controls organ size during development in animals.In this study,the function of BmSd which has been characterized as one of the Hippo-pathway-related genes was analyzed for silkworm wing development.We found that mats,warts,and hippo expression levels were higher in u11 compared to p50 wing discs.BmSd(scalloped)expression,which encodes a prominent transcriptional partner to Yorkie(Yki),gradually decreased during the wandering stage in ull,but exhibited the opposite expression pattern in p50.When BmSd was knocked down by small interfering RNA during the wandering stage in the p50 strain,57.9%of the individuals showed minute wings.Additionally,ex,kibras and wingless expression levels decreased in the BmSd knockdown mutant.Further,BmSd deletion mediated by clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated protein 9 induced 50%of individuals with minute wings,a phenotype similar to the mw mutant.This result demonstrates that BmSd plays pivotal roles in silkworm wing development.Our results show that the Hippo signaling pathway participates and plays crucial roles in the regulation of silkworm wing development,and our findings provide a basis for further research on B.mori wing development.
基金support from the members of the Chilab.We acknowledge the financial support in part by DOD(grant numbers W81XWH-17-1-0143,W81XWH-15-1-0486,W81XWH-19-1-0842)NIH(grant numbers GM124062,1R01NS111588-01A1).
文摘Ferroptosis is a novel form of iron-dependent cell death characterized by lipid per-oxidation.While the importance and disease relevance of ferroptosis is gaining recognition,much remains unknown about various genetic and non-genetic determinants of ferroptosis.Hippo signaling pathway is an evolutionarily conserved pathway that responds to various envi-ronmental cues and controls organ size,cell proliferation,death,and self-renewal capacity.In cancer biology,Hippo pathway is a potent tumor suppressing mechanism and its dysregulation contributes to apoptosis evasion,cancer development,metastasis,and treatment resistance.Hippo dysregulation leads to aberrant activation of YAP and TAZ,the two major transcription co-activators of TEADs,that induce the expression of genes triggering tumor-promoting pheno-types,including enhanced cell proliferation,self-renewal and apoptosis inhibition.The Hippo pathway is regulated by the cell-cell contact and cellular density/confluence.Recently,fer-roptosis has also been found being regulated by the cellular contact and density.The YAP/TAZ activation under low density,while confers apoptosis resistance,renders cancer cells sensitivity to ferroptosis.These findings establish YAP/TAZ and Hippo pathways as novel deter-minants of ferroptosis.Therefore,inducing ferroptosis may have therapeutic potential for YAP/TAZ-activated chemo-resistant and metastatic tumor cells.Reciprocally,various YAP/TAZ-targeting treatments under clinical development may confer ferroptosis resistance,limiting the therapeutic efficacy.
基金financially supported by State Key Clinical Specialty Construction Project(YW2021-002,China)the National Natural Science Foundation of China(Nos.82070281,81870269,and 81600199).
文摘The promise of regeneration therapy for restoration of damaged myocardium after cardiac ischemic injury relies on targeted delivery of proliferative molecules into cardiomyocytes whose healing benefits are still limited owing to severe immune microenvironment due to local high concentration of proinflammatory cytokines.Optimal therapeutic strategies are therefore in urgent need to both modulate local immunity and deliver proliferative molecules.Here,we addressed this unmet need by developing neutrophil-mimic nanoparticles NM@miR,fabricated by coating hybrid neutrophil membranes with artificial lipids onto mesoporous silica nanoparticles(MSNs)loaded with microRNA-10b.The hybrid membrane could endow nanoparticles with strong capacity to migrate into infammatory sites and neutralize proinfammatory cytokines and increase the delivery efficiency of microRNA-1Ob into adult mammalian cardiomyocytes(CMs)by fusing with cell membranes and leading to the release of MSNs-miR into cytosol.Upon NM@miR administration,this nanoparticle could home to the injured myocardium,restore the local immunity,and efficiently deliver microRNA-1Ob to cardiomyocytes,which could reduce the activation of Hippo-YAP pathway mediated by excessive cytokines and exert the best proliferative effect of miR-1Ob.This combination therapy could finally improve cardiac function and mitigate ventricular remodeling.Consequently,this work offers a combination strategy of immunity modulation and proliferative molecule delivery to boost cardiac regeneration after injury.
基金the National Key R&D Program of China(2021YFA0805800,2020YFA0803202,2018YFC1003203,2021YFC2700403)the National Natural Science Foundation of China(31970538,32000574,31871452)+5 种基金the Guangzhou Medical University Discipline Construction Funds(Basic Medicine)(JCXKJS2022A02)the 111 Project(D18010)the Local Innovative and Research Teams Project of Guangdong Perl River Talents Program(2017BT01S155)the Special Innovation Projects of Universities in Guangdong Province(2018KTSCX182)the Medical Scientific Research Foundation of Guangdong Province(A2019292)the Natural Science Foundation of Guangdong Province(2017A030310403)。
文摘The evolutionarily conserved Hippo pathway coordinates cell proliferation,differentiation and apoptosis to regulate organ growth and tumorigenesis.Hippo signaling activity is tightly controlled by various upstream signals including growth factors and cell polarity,but the full extent to which the pathway is regulated during development remains to be resolved.Here,we report the identification of Shaggy,the homolog of mammalian Gsk3β,as a novel regulator of the Hippo pathway in Drosophila.Our results show that Shaggy promotes the expression of Hippo target genes in a manner that is dependent on its kinase activity.Loss of Shaggy leads to Yorkie inhibition and downregulation of Hippo pathway target genes.Mechanistically,Shaggy acts upstream of the Hippo pathway and negatively regulates the abundance of the FERM domain containing adaptor protein Expanded.Our results reveal that Shaggy is functionally required for Crumbs/Slmb-mediated downregulation of Expanded in vivo,providing a potential molecular link between cellular architecture and the Hippo signaling pathway.
基金supported by the National Natural Science Foundation of China(81503187)。
文摘Hepatocellular carcinoma(HCC)is one of the common most malignant tumors.This study aimed to determine the in vitro and in vivo anticancer activity of cordycepin and elucidate its mechanism of action.The results of in vitro and in vivo studies revealed that cordycepin inhibited proliferation and migration in HepG-2 cells and inhibited the growth of HepG-2 xenograft-bearing nude mice by inducing apoptosis.Transcriptome sequencing analysis revealed a total of 403 differential genes,which revealed that cordycepin may play an anti-HCC role by regulating Hippo signaling pathway.The regulatory effects of cordycepin on the Hippo signaling pathway was further investigated using a YAP1 inhibitor.The results demonstrated that cordycepin upregulated the expression of MST1 and LAST1,and subsequently inhibited YAP1,which activated the Hippo signaling pathway.This in turn downregulated the expression of GBP3 and ETV5,and subsequently inhibited cell proliferation and migration.Additionally,YAP1 regulated the expression of Bax and Bcl-2,regulated the mitochondrial apoptotic pathway,and induced apoptosis by upregulating the expression of the caspase-3 protein.In summary,this study reveals that cordycepin exerts its anti-hepatocarcinoma effect through regulating Hippo signaling pathway,and GBP3 and ETV5 may be potential therapeutic targets for hepatocarcinoma.
基金National Natural Science Foundation of China(81573813,81173598)Sichuan Provincial Admin⁃istration of Traditional Chinese Medicine of China(2021MS447)+1 种基金Excellent Talent Program of Chengdu University of Tra⁃ditional Chinese Medicine of China(YXRC2019002,ZRYY1917)and Open Research Fund of the State Key Laboratory of Southwestern Chinese Medicine Resources of China(2020XSGG006)。
文摘OBJECTIVE To investigate the effect of scutellarin on the apoptosis of human colorectal cancer cells via the Hippo signaling pathway in vitro.METHODS MTT colorimetric method was used to detect the influence of scutellarin on the survival rate of HCT116 cells.And the effect of scutellarin at various concentrations on cell morphology was observed by microscopy.Cell scratch experiment was used to detect the influence of scutellarin on the migration of HCT116 cells.Hoechst33342/PI double staining method was used to detect the effect of scutellarin on the apoptosis of HCT116 cells.Western blotting method was used to assess the action of scutellarin on the expressions of Hippo signaling pathway-related proteins Mst1,Lats1,YAP1,p-YAP(Ser127),TAZ,and its downstream effector proteins c-Myc and cyclin D1,as well as apoptosis-related proteins Bcl-2 and Bax in HCT116 cells.RESULTS Scutellarin significantly affected the morphology of HCT116 cells and reduced the survival rate of HCT116 cells.Hoechst33342/PI double staining showed that scutellarin effectively induced the apoptosis of HCT116 cells.Western blotting analysis showed that the expression levels of Hippo signaling pathway-related proteins Mst1,Lats1,YAP1,TAZ and its downstream effector proteins c-Myc,cyclin D1 were down-regulated in a concentration-dependent manner by scutellarin,and the expression of p-YAP(ser127)was up-regulated.Moreover,scutellarin substantially lessened the expression level of apoptosis-related protein Bcl-2,and promoted the protein level of Bax.CONCLUSION Scutellarin may inhibit the proliferation and migration of HCT116 cells,while induce its apoptosis,potentially by activation of Hippo signaling pathway.
文摘Objective:This review aimed to summarize the role of the Hippo signaling pathway in renal cell carcinoma (RCC), a urologic malignancy with subtle initial symptoms and high mortality rates due to metastatic RCC. The Hippo signaling pathway, which regulates tissue and organ sizes, plays a crucial role in RCC progression and metastasis. Understanding the involvement of the Hippo signaling pathway in RCC provides valuable insights for the development of targeted therapies and improved patient outcomes.Methods:In this review, we explored the impact of the Hippo signaling pathway on RCC. Through an analysis of existing literature, we examined its role in RCC progression and metastasis. Additionally, we discussed potential therapeutic strategies targeting the Hippo pathway for inhibiting RCC cell growth and invasion. We also highlighted the importance of investigating interactions between the Hippo pathway and other signaling pathways such as Wnt, transforming growth factor-beta, and PI3K/AKT, which may uncover additional therapeutic targets.Results:The Hippo signaling pathway has shown promise as a target for inhibiting RCC cell growth and invasion. Studies have demonstrated its dysregulation in RCC, with altered expression of key components such as yes-associated protein/transcriptional coactivator with PDZ-binding motif (YAP/TAZ). Targeting the Hippo pathway has been associated with suppressed tumor growth and metastasis in preclinical models of RCC. Furthermore, investigating crosstalk between the Hippo pathway and other signaling pathways has revealed potential synergistic effects that could be exploited for therapeutic interventions.Conclusion:Understanding the role of the Hippo signaling pathway in RCC is of paramount importance. Elucidating its functions and molecular interactions contributes to RCC diagnosis, treatment, and the discovery of novel mechanisms. This knowledge informs the development of innovative therapeutic strategies and opens new avenues for research in RCC. Further investigations are warranted to fully comprehend the complex interplay between the Hippo pathway and other signaling pathways, ultimately leading to improved outcomes for RCC patients.
基金supported by the National Natural Science Fund(82004337)the Beijing University of Chinese Medicine new teacher launch fund(2020-JYB-XJSJJ-002)。
文摘Objective:To explore the mechanism of Huatan Sanjie Fang(HTSJ)in regulating goiter in Graves'disease(GD)mice by detecting key factors of the Hippo signaling pathway.Methods:A mouse model of GD was established by injecting Ad-TSHR289 adenovirus into the bilateral quadriceps femoris of female mice.Successful mouse models were then randomly divided into a model group,methimazole(MMI)group,and HTSJ group,and fed with deionized water,MMI(4.5 mg/kg per day),and HTSJ(35.10 g/kg per day),respectively,for 10 weeks.Histopathological changes of the thyroid gland were subsequently observed by hematoxylin-eosin staining.Radioimmunoassay was used to detect serum total thyroxine(T4)and thyrotrophin-receptor antibody(TRAb)levels.The relative expression of mRNA of Mst1,YAP,and TAZ were detected by quantitative real-time polymerase chain reaction,while the protein expression of Mst1,YAP,TAZ,pMst1,and pYAP were detected by western blot.Results:After 10 weeks of drug intervention,goiter and other pathological changes in the HTSJ group significantly improved compared with the model group,and the levels of serum T4 and TRAb significantly decreased(P=.002,P<.001,respectively).Decreased mRNA expression of Mst1,YAP,and TAZ,the key factors of the Hippo signaling transduction pathway,was also observed(P=.002,P=.022,P<.001,respectively).In contrast,protein expression of Mst1(P=.046),pMst1(P=.026),and p YAP(P=.004)increased,while protein expression of YAP and TAZ decreased(P=.041,P<.001,respectively).Conclusion:HTSJ can effectively improve goiter in GD mice through the Hippo signaling pathway.
基金Shenzhen Science and Innovation Commission:Investigating the Mechanism of Action of Acupuncture in Regulating the Gut Microbiome to Inhibit Apoptosis of Ovarian Granulosa Cells in Premature Ovarian Insufficiency Mice based on the Rictor/Torepamycin Target Protein c2 Pathway(No.JCYJ20210324130001004)Sanming Project of Medicine in Shenzhen:the First Affiliated Hospital of Guangzhou University of Traditional Chinese Medicine,Luo Songping National Famous Chinese Medicine Practitioner Female Reproductive Disorders Prevention and Treatment Team(SZZYSM202311010)。
文摘OBJECTIVE:To investigate the potential mechanism of electroacupuncture(EA)in alleviating premature ovarian insufficiency(POI)and to provide a theoretical basis for EA treatment of POI.METHODS:For this purpose,a POI mice model was developed by injecting 12 mg/kg busulfan and 120 mg/kg cyclophosphamide intraperitoneally to induce POI.It was then proceeded by EA intervention at Guanyuan(CV4)acupoint on the second day following modeling.Similarly,apoptosis in ovarian granulosa cells was detected by terminal deoxynucleotidyl transferase d UTP nick end labeling staining,while enzyme-linked immunosorbent assay was employed for measuring serum folliclestimulating hormone(FSH),luteinizing hormone(LH),estrogen(E_(2)),and anti-müllerian hormone(AMH)levels.Moreover,transmission electron microscopy(TEM)was employed for examining mitochondrial morphology,while autophagy and hippo-yes-associated protein/transcriptional co-activator with postsynaptic density protein,drosophila disc large tumor suppressor,and zonula occludens-1 protein binding motif(YAP/TAZ)pathway related protein levels in ovarian tissue were detected via Western blotting.RESULTS:Analysis of serum levels of various hormones indicated that serum FSH and LH were reduced in EA compared to the POI group,while E_(2) and AMH levels were found to be elevated in EA compared to the POI group.The EA was found to inhibit apoptosis in granulosa cells in POI model mice,in addition to improved mitochondrial damage and significantly improved mitophagy.Pathway analysis revealed that EA was involved in activating the hippo-YAP/TAZ pathway,followed by reversing EA effects on granulosa cell apoptosis and mitophagy with the use of verteporfin,an autophagy and YAP-T-cell factor/enhancer of split and activator of transcription domain family member interaction inhibitor.CONCLUSIONS:EA at the Guanyuan(CV4)acupoint protected the granulosa cell by inhibiting cell apoptosis and promoting mitophagy,which was mediated by the Hippo-YAP/TAZ pathway.
基金Supported by Open Project Fund of Henan Provincial Research Center for Precision Diagnosis and Treatment of Pulmonary Diseases Based on Multi-omics,No.DZXGCZXKF04.
文摘Liver fibrosis remains a major global health challenge with limited therapeutic options.In their recent study,Wang et al report that levodopa,a dopamine precursor widely used in Parkinson’s disease,significantly attenuates carbon tetrachloride-induced liver fibrosis in rats by enhancing dopamine receptor D1 expression and activating the Hippo signaling pathway,leading to phosphorylation and inactivation of yes-associated protein 1.This discovery links Gprotein-coupled receptor signaling to Hippo pathway regulation in hepatic fibrosis.The work highlights the dopamine receptor D1-Hippo/yes-associated protein 1 axis as a promising antifibrotic mechanism and introduces levodopa as a potential repurposing candidate for chronic liver disease.With its established safety and affordability,levodopa offers a rapidly translatable strategy that warrants validation in human tissues and diverse fibrosis models.Here,we place these findings in the broader context of G-protein-coupled receptor regulation of hepatic stellate cell activation,discuss translational opportunities for levodopa in liver fibrosis,and propose future directions to validate this pathway across disease models and clinical settings.
文摘BACKGROUND Yes-associated protein 1(YAP1),a downstream transcriptional coactivator regulated by the Hippo signaling pathway,has been shown to be involved in liver fibrosis.YAP activity is modulated by G-protein coupled receptors,including Gαs-coupled protein dopamine receptor D1(DRD1).Levodopa,a dopamine precursor,activates DRD1 on cell surface,triggering its downstream signaling pathway.AIM To investigate the therapeutic effect of levodopa and the downstream mechanism on carbon tetrachloride(CCl_(4))-induced liver fibrosis,including liver DRD1 expression.METHODS SD rats were intraperitoneally injected with 40%CCl_(4)for 8 weeks to induce liver fibrosis,followed by treatment with varying doses of levodopa for 2 weeks.Serum aspartate aminotransferase(AST)and alanine aminotransferase(ALT)levels were measured,and liver pathology was assessed using hematoxylin and eosin and Masson's staining.Alpha-smooth muscle actin(α-SMA)content,along with the expressions of DRD1,YAP,and phosphorylated protein,was analyzed by Western blot,immunohistochemistry,and reverse transcription-quantitative real-time polymerase chain reaction.RESULTS Compared with the controls,levodopa-treated rats showed a decrease in the proportion of collagen in the liver and a recovery from liver fibrosis(P=0.0007).Western blot and immunohistochemistry indicated that DRD1 was upregulated in the fibrotic liver of rats treated with levodopa,showing an increase in DRD1 Level(P<0.0001).In addition,the upregulation of DRD1 activated the Hippo signaling pathway,manifested as increased YAP phosphorylation(P<0.05).CONCLUSION This was the first study to demonstrate that levodopa attenuates CCl_(4)-induced liver fibrosis by inhibiting the Hippo/YAP signaling pathways.
基金The authors are supported by the University of Dayton Graduate program of BiologyThis work was supported by NIH1R15GM124654-01 from the National Institutes of Health,Schuellein Chair Endowment Fund,and start-up support from the University of Dayton(to Amit S).
文摘During development,regulation of organ size requires a balance between cell proliferation,growth and cell death.Dysregulation of these fundamental processes can cause a variety of diseases.Excessive cell proliferation results in cancer whereas excessive cell death results in neurodegenerative disorders.Many signaling pathways known-to-date have a role in growth regulation.Among them,evolutionarily conserved Hippo signaling pathway is unique as it controls both cell proliferation and cell death by a variety of mechanisms during organ sculpture and development.Neurodegeneration,a complex process of progressive death of neuronal population,results in fatal disorders with no available cure to date.During normal development,cell death is required for sculpting of an organ.However,aberrant cell death in neuronal cell population can result in neurodegenerative disorders.Hippo pathway has gathered major attention for its role in growth regulation and cancer,however,other functions like its role in neurodegeneration are also emerging rapidly.This review highlights the role of Hippo signaling in cell death and neurodegenerative diseases and provide the information on the chemical inhibitors employed to block Hippo pathway.Understanding Hippo mediated cell death mechanisms will aid in development of reliable and effective therapeutic strategies in future.
基金supported by the National Natural Science Foundation of China,Nos.82271283(to XC),91854115(to JW),31970044(to JW)the Natural Science Foundation of Beijing,No.7202001(to XC)the Scientific Research Project of Beijing Educational Committee,No.KM202010005022(to XC)。
文摘Salsolinol(1-methyl-6,7-dihydroxy-1,2,3,4-tetrahydroisoquinoline,Sal)is a catechol isoquinoline that causes neurotoxicity and shares structural similarity with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine,an environmental toxin that causes Parkinson's disease.However,the mechanism by which Sal mediates dopaminergic neuronal death remains unclear.In this study,we found that Sal significantly enhanced the global level of N~6-methyladenosine(m~6A)RNA methylation in PC12 cells,mainly by inducing the downregulation of the expression of m~6A demethylases fat mass and obesity-associated protein(FTO)and alk B homolog 5(ALKBH5).RNA sequencing analysis showed that Sal downregulated the Hippo signaling pathway.The m~6A reader YTH domain-containing family protein 2(YTHDF2)promoted the degradation of m~6A-containing Yes-associated protein 1(YAP1)mRNA,which is a downstream key effector in the Hippo signaling pathway.Additionally,downregulation of YAP1 promoted autophagy,indicating that the mutual regulation between YAP1 and autophagy can lead to neurotoxicity.These findings reveal the role of Sal on m~6A RNA methylation and suggest that Sal may act as an RNA methylation inducer mediating dopaminergic neuronal death through YAP1 and autophagy.Our results provide greater insights into the neurotoxic effects of catechol isoquinolines compared with other studies and may be a reference for assessing the involvement of RNA methylation in the pathogenesis of Parkinson's disease.
