Increased matrix stiffness of nucleus pulposus(NP)tissue is a main feature of intervertebral disc degeneration(IVDD)and affects various functions of nucleus pulposus cells(NPCs).Glycolysis is the main energy source fo...Increased matrix stiffness of nucleus pulposus(NP)tissue is a main feature of intervertebral disc degeneration(IVDD)and affects various functions of nucleus pulposus cells(NPCs).Glycolysis is the main energy source for NPC survival,but the effects and underlying mechanisms of increased extracellular matrix(ECM)stiffness on NPC glycolysis remain unknown.In this study,hydrogels with different stiffness were established to mimic the mechanical environment of NPCs.Notably,increased matrix stiffness in degenerated NP tissues from IVDD patients was accompanied with impaired glycolysis,and NPCs cultured on rigid substrates exhibited a reduction in glycolysis.展开更多
Aging is a pivotal risk factor for intervertebral disc degeneration(IVDD)and chronic low back pain(LBP).The restoration of aging nucleus pulposus cells(NPCs)to a youthful epigenetic state is crucial for IVDD treatment...Aging is a pivotal risk factor for intervertebral disc degeneration(IVDD)and chronic low back pain(LBP).The restoration of aging nucleus pulposus cells(NPCs)to a youthful epigenetic state is crucial for IVDD treatment,but remains a formidable challenge.Here,we proposed a strategy to partially reprogram and reinstate youthful epigenetics of senescent NPCs by delivering a plasmid carrier that expressed pluripotency-associated genes(Oct4,Klf4 and Sox2)in Cavin2-modified exosomes(OKS@M-Exo)for treatment of IVDD and alleviating LBP.The functional OKS@M-Exo efficaciously alleviated senescence markers(p16^(INK4a),p21^(CIP1)and p53),reduced DNA damage and H4K20me3 expression,as well as restored proliferation ability and metabolic balance in senescent NPCs,as validated through in vitro experiments.In a rat model of IVDD,OKS@M-Exo maintained intervertebral disc height,nucleus pulposus hydration and tissue structure,effectively ameliorated IVDD via decreasing the senescence markers.Additionally,OKS@MExo reduced nociceptive behavior and downregulated nociception markers,indicating its efficiency in alleviating LBP.The transcriptome sequencing analysis also demonstrated that OKS@M-Exo could decrease the expression of age-related pathways and restore cell proliferation.Collectively,reprogramming by the OKS@M-Exo to restore youthful epigenetics of senescent NPCs may hold promise as a therapeutic platform to treat IVDD.展开更多
BACKGROUND Degenerative disc disease(DDD)is characterized by the loss of nucleus pulposus cells(NPCs).Inducing differentiation of bone marrow mesenchymal stem cells(MSCs)into NPCs has emerged as a novel therapeutic st...BACKGROUND Degenerative disc disease(DDD)is characterized by the loss of nucleus pulposus cells(NPCs).Inducing differentiation of bone marrow mesenchymal stem cells(MSCs)into NPCs has emerged as a novel therapeutic strategy for DDD.However,the efficiency of MSC differentiation and the underlying mechanisms remain to be fully elucidated.AIM To investigate the role and mechanism of miR-365 in promoting the differentiation of MSCs into NPCs for DDD treatment.METHODS In vitro,the effects of miR-365 on MSC proliferation,apoptosis,and differentiation were assessed by cell counting kit-8 assay,flow cytometry,and quantitative realtime polymerase chain reaction(qRT-PCR).In vivo,the expression levels of miR-365,HIF-1α,Sox9,Kdm6a,and HOXA9 in the spinal cord of rats with spinal cord injury were determined by qRT-PCR and Western blot.RESULTS In vitro,miR-365 significantly promoted MSC proliferation and inhibited MSC apoptosis.The expression levels of glycosaminoglycans,proteoglycan,and type 2 collagen were significantly increased with miR-365 ectopic expression.In vivo,the expression levels of miR-365,HIF-1α,Sox9,and Kdm6a were significantly increased,whereas HOXA9 was remarkably decreased.Mechanically,miR-365 inhibited HOXA9 expression by directly binding to its 3’untranslated region.HOXA9 could inhibit HIF-1αexpression by binding to the Hif-1αpromoter,thereby affecting the expression levels of Sox9 and Kdm6a.Moreover,HOXA9 knockdown significantly reversed the differentiation of MSCs into NPCs induced by miR-365.CONCLUSION miR-365 promotes HOXA9-mediated differentiation of MSCs into NPCs by interacting with HIF-1αand may serve as a potential target for DDD treatment.展开更多
Neovascularization and inflammatory cell invasion within the nucleus pulposus(NP)constitute pivotal pathological changes during the acceleration stage of intervertebral disc degeneration(IDD).Mesenchy-mal stem cells(M...Neovascularization and inflammatory cell invasion within the nucleus pulposus(NP)constitute pivotal pathological changes during the acceleration stage of intervertebral disc degeneration(IDD).Mesenchy-mal stem cells(MSCs),renowned for their remarkable capacity in intervertebral disc(IVD)regeneration,also exhibit the capability to secrete pro-angiogenic factors,expediting IDD progression under hypoxic conditions.Consequently,we developed a hydrogel comprised of methacrylated hyaluronic acid(HAMA),rat tail collagen I(COL),and MSCs,incorporating the vascular endothelial growth factor receptor(VEGFR)inhibitor cabozantinib(Cabo@HAMA-COL/MSCs hydrogel).This innovative construct aimed to facilitate NP regeneration while mitigating vascularization and inflammation.Our findings revealed that the hydrogel aptly mimicked the mechanical characteristics of NP tissue,exhibiting injectability,low cytotoxicity,and the preservation of the cellular phenotype of NP cells.Co-culturing of MSCs and human umbilical vein endothelial cells(HUVECs)promoted migration,tube formation,and sprouting of HUVECs,which will be inhibited by cabozantinib.In vivo experiments demonstrated that Cabo@HAMA-COL/MSCs hydrogel main-tained disc height,protected NP,and alleviated vascularization and inflammation in a puncture-induced rat caudal IDD model.Consequently,our results substantiate that Cabo@HAMA-COL/MSCs hydrogel can prevent IDD degeneration by ameliorating the vascularization-inflammation pathological microenviron-ment,offering a promising therapeutic strategy for IDD.展开更多
OBJECTIVE: To investigate the analgesic effect of Gua Sha and its underlying mechanism in rats with noncompressive lumbar disk herniation induced by autologous nucleus pulposus.METHODS: A rat model of noncompressive l...OBJECTIVE: To investigate the analgesic effect of Gua Sha and its underlying mechanism in rats with noncompressive lumbar disk herniation induced by autologous nucleus pulposus.METHODS: A rat model of noncompressive lumbar disk herniation was established and rats were randomly divided into model group, sham group, and Gua Sha group(24 in each group). Gua Sha was performed from the 5 th day after the surgery, once every other day, 3 times for a course of treatment,and totally 3 courses. The thermal withdrawal latency was evaluated using the intelligent hot plate one day before the surgery, and on days 4(the day before the treatment), 10(the end of the firstcourse), 16(the end of the second course) and 22(the end of the third course). On days 4, 10, 16 and22, six rats in each group were picked randomly and their blood samples were drawn to assess the expression of interleukin-1β(IL-1β), interleukin-6(IL-6) and tumor necrosis factor-alpha(TNF-α).RESULTS: Compared to rats in the sham group, the application of nucleus pulposus to right L5 dorsal root ganglion induced prolonged thermal hyperalgesia, and up-regulated the expression of IL-1β,IL-6 and TNF-α in serum(P < 0.01). The therapy of Gua Sha attenuated thermal hyperalgesia potently,inhibited the expression of IL-1β, IL-6 and TNF-α in a time-dependent manner(P < 0.01). There were no significant differences in the thermal withdrawal latency and the expression of inflammatory cytokines between the sham and Gua Sha groups at the end of the treatment(P > 0.01).CONCLUSION: The current study showed that Gua Sha might alleviate thermal hyperalgesia in rats with lumbar disc herniation induced by autologous nucleus pulposus via inhibiting the expression of proinflammatory cytokins.展开更多
To find a new source of seed cells for constructing tissue-engineered intervertebral disc, nucleus pulposus (NP) cells and mesenchymal stem cells (MSCs) were isolated from New Zealand white rabbits. The nucleus pu...To find a new source of seed cells for constructing tissue-engineered intervertebral disc, nucleus pulposus (NP) cells and mesenchymal stem cells (MSCs) were isolated from New Zealand white rabbits. The nucleus pulposus cells population was fluorescence-ladled and co-cultured with MSCs with or without direct contact. Morphological changes were observed every 12 h. Semi-quantitaive reverse transcriptase-polymerase chain reaction was performed to assess the expression levels of Sox-9, aggreacan and type Ⅱ collagen every 24 h after the co-culture. MSCs treated with direct contact rounded up and presented a ring-like appearance. The expression of marker genes was significantly increased when cells were co-cultured with direct contact for 24 h. No significant change was found after coculture without direct contact. Co-culture of NP cells and MSCs with direct contact is a reliable method for generating large amount of NP cells used for cell-based tissue engineering therapy.展开更多
Objective: To construct a recombinant adenovirus vector-carrying human growth and differentiation factor-5 (GDF-5) gene, investigate the biological effects of adenovirus-mediated GDF-5 (Ad-GDF-5) on extracellular...Objective: To construct a recombinant adenovirus vector-carrying human growth and differentiation factor-5 (GDF-5) gene, investigate the biological effects of adenovirus-mediated GDF-5 (Ad-GDF-5) on extracellular matrix (ECM) expression in human degenerative disc nucleus pulposus (NP) cells, and explore a candidate gene therapy method for intervertebral disc degeneration (IDD). Methods: Human NP cells of a degenerative disc were isolated, cultured, and infected with Ad-GDF-5 using the AdEasy-1 adenovirus vector system. On Days 3, 7, 14, and 21, the contents of the sulfated glycosaminoglycan (sGAG), deoxyribonucleic acid (DNA) and hydroxyproline (Hyp), synthesis of proteoglycan and collagen II, gene expression of collagen II and aggrecan, and NP cell proliferation were assessed. Results: The adenovirus was an effective vehicle for gene delivery with prolonged expression of GDF-5. Biochemical analysis revealed increased sGAG and Hyp contents in human NP cells infected by Ad-GDF-5 whereas there was no conspicuous change in basal medium (BM) or Ad-green fluorescent protein (GFP) groups. Only cells in the Ad-GDF-5 group promoted the production of ECM, as demonstrated by the secretion of proteoglycan and up-regulation of collagen II and aggrecan at both protein and mRNA levels. The NP cell proliferation was significantly promoted. Conclusions: The data suggest that Ad-GDF-5 gene therapy is a potential treatment for IDD, which restores the functions of degenerative intervertebral disc through enhancing the ECM production of human NP ceils.展开更多
Objective:To discuss the effect of Yaobitong capsule on histomorphology of dorsal root ganglion and on expression of p38 MARK phosphorylation in autologous nucleus pulposus transplantation model of rats.Methods:A tota...Objective:To discuss the effect of Yaobitong capsule on histomorphology of dorsal root ganglion and on expression of p38 MARK phosphorylation in autologous nucleus pulposus transplantation model of rats.Methods:A total of 60 SD rats were randomly divided into the blank group,model group and Yaobitong capsule group,with 20 rats in each group.The animal model of autologous nucleus pulposus transplantation around the lumbar nerve root was built.Three days after the modeling,rats were given the drugs for the first time,while rats in the model group were given the equivalent normal saline.After 30 d of continuous administration,samples were collected from rats.HE staining was performed on the dorsal root ganglion of L4 and L5 spinal cord of rats in each group and the expression of p38 MARK phosphorylation was measured.All data were treated with the statistical analysis.Results:The histological examination showed that the histomorphology of dorsal root ganglion in the Yaobitong capsule group was more significantly improved than the one in the model group,while the results of western blot showed that Yaobitong capsule could significandy inhibit the level of p38 MAPK phosphorylation of dorsal root ganglion cells.Conclusions:Yaobitong capsule can improve the symptoms and nerve radiculopathy of autologous nucleus pulposus transplantation of rats and its mechanism may be associated with its inhibiting effect on the level of p38 MAPK phosphorylation.展开更多
This study examined the biological characteristics of normal and degenerated rabbit nucleus pulposus (NP) cells in vitro in order to provide seed cells for intervertebral disc (IVD) tissue engineering. A total of ...This study examined the biological characteristics of normal and degenerated rabbit nucleus pulposus (NP) cells in vitro in order to provide seed cells for intervertebral disc (IVD) tissue engineering. A total of 8 adult New Zealand white rabbits underwent annulus puncture to establish models ofintervertebral disc degeneration (IDD). Four weeks later, normal and degenerated NP cells were obtained. Cell morphology was observed by light and electron microscopy. Cell viability was measured by MTT assay. Cell cycle and expression of extracellular matrix (ECM)-related genes (aggrecan and type II col- lagen) were determined by using flow cytometry and RT-PCR respectively. The growth curve of normal NP cells showed that the cells at passage 4 tended to slowly grow on the fifth day of culture. The density of normal NP cells at passages 5 to 7 was significantly less than that of the first-passage cells 2 or 3 days after seeding (P〈0.05). The degenerated NP cells at passage 3 showed slow growth at 4th day. After 5 passages, the degenerated NP cells assumed stagnant growth and the growth seemed to stop at passage 7. The MTT assay revealed that for both normal and degenerated NP cells, the absorbance (.4) value at passages 4-7 was obviously decreased as compared with that at passage 1 (P〈0.05). Cell cycle analysis showed that the proportion of normal NP cells at G1 phase was 65.4%-3.5%, significantly lower than that of degenerated NP cells at the same cell cycle phase With the value being 77.6%-4.8%. The degen- erated NP cells were predominantly arrested at Gt phase and failed to enter S phase. The expression of type II collagen and aggrecan was significantly decreased with passaging. It was concluded that normal NP cells possessed good viability and proliferative capacity by the third passage, and they could secrete large amounts of ECM within this period. The normal NP cells may serve as seed cells for IVD tissue engineering.展开更多
The effects of cutting-aspiration of nucleus pulposus on the momements of the cervical spine in flexion,extension and lateral bending with fresh cervical spine specimens were tested by means of contacting measement wi...The effects of cutting-aspiration of nucleus pulposus on the momements of the cervical spine in flexion,extension and lateral bending with fresh cervical spine specimens were tested by means of contacting measement with the dial indicators when loaded with the electronic universal testing machine.The results showed:(1) Cutting-aspiration of nucleus pulposus only removed part of the nucleus pulposus,which was consistent with the clinical observation;(2)The ranges or motion(ROMs) of the operative segment had not increased in direction of flexion,extension and lateral bending after cutting-aspiration of nucleus pulposus:(3)After nucleotomy,the ROMs corresponding upon the operative segment apparently increased in flexion and extension,but had no change in lateral bending;(4)Hemilaminectomy of cervical spine which was an operation or partial removal of the ligamentum flavum and the lamina only had little afrection on the cervical stability. The biomechanical data can not only demonstrate the reliability of percutaneous dlscectomy,but also present a new enlightement for the clinical therapy of cervical disc herniation with spinal canal stenosis.展开更多
Objective Disc calcification is strongly associated with disc degeneration;however,the underlying mechanisms driving its pathogenesis are poorly understood.This study aimed to provide a gene expression profile of nucl...Objective Disc calcification is strongly associated with disc degeneration;however,the underlying mechanisms driving its pathogenesis are poorly understood.This study aimed to provide a gene expression profile of nucleus pulposus cells(NPCs)from calcified discs,and clarify the potential mechanism in disc degeneration.Methods Primary NPCs were isolated from calcified and control discs(CAL-NPC and CON-NPC),respectively.The proliferation and extracellular matrix(ECM)metabolism capacities of the cells were evaluated using MTT and Western blotting,respectively.RNA sequencing was used to identify differentially expressed genes(DEGs)in the CAL-NPCs.The biological functions of the DEGs were analyzed using the Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)databases.The transcription factor database and Cytoscape software were used to construct the transcription factor-DEGs regulatory network.The role of the verified transcription factor in NPC proliferation and ECM metabolism was also investigated.Results The CAL-NPCs exhibited a lower proliferation rate and higher ECM degradation capacity than the CON-NPCs.In total,375 DEGs were identified in the CAL-NPCs.The GO and KEGG analyses showed that the DEGs were primarily involved in the regulation of ribonuclease activity and NF-kappa B and p53 signaling pathways.GATA-binding protein 3(GATA3)with the highest verified levels was selected for further studies.Overexpression of GATA3 in the CON-NPCs significantly inhibited their proliferation and promoted their ECM degradation function,while the knockdown of GATA3 in the CAL-NPCs resulted in the opposite phenotypes.Conclusion This study provided a comprehensive gene expression profile of the NPCs from the calcified discs and supported that GATA3 could be a potential target for reversing calcification-associated disc degeneration.展开更多
Transcription factor Brachyury,a protein containing 435 amino acids,has been widely investigated and reported in notochord differentiation and nucleus pulposus development.The crucial functions and underlying mechanis...Transcription factor Brachyury,a protein containing 435 amino acids,has been widely investigated and reported in notochord differentiation and nucleus pulposus development.The crucial functions and underlying mechanisms by Brachyury are discussed in this paper,which suggests Brachyury can be developed into a potential novel target for the therapy of intervertebral disc degeneration.展开更多
Objective: to analyze the effect of detail nursing in operation room for patients with intervertebral disc herniation who underwent foraminal nucleus pulposus excision. Methods: a total of 100 patients with disc herni...Objective: to analyze the effect of detail nursing in operation room for patients with intervertebral disc herniation who underwent foraminal nucleus pulposus excision. Methods: a total of 100 patients with disc herniation who underwent foraminal nucleus pulporesis extraction were enrolled in the department of our hospital from January 2019 to December 2020. They were randomly divided into groups. Patients in the control group were given routine nursing, and the observation group was given detail nursing in the operating room. Conclusion: the clinical effect of detail nursing of lumbar intervertebral disc herniation in operating room is exact, it can relieve the trauma, relieve the pain, reduce the complications and accelerate the recovery.展开更多
Sustained and intense inflammation is the pathological basis for intervertebral disc degeneration(IVDD).Effective antagonism or reduction of local inflammatory factors may help regulate the IVDD microenvironment and r...Sustained and intense inflammation is the pathological basis for intervertebral disc degeneration(IVDD).Effective antagonism or reduction of local inflammatory factors may help regulate the IVDD microenvironment and reshape the extracellular matrix of the disc.This study reports an immunomodulatory hydrogel microsphere system combining cell membrane-coated mimic technology and surface chemical modification methods by grafting neutrophil membrane-coated polylactic-glycolic acid copolymer nanoparticles loaded with transforming growth factor-beta 1(TGF-β1)(T-NNPs)onto the surface of methacrylic acid gelatin anhydride microspheres(GM)via amide bonds.The nanoparticle-microsphere complex(GM@T-NNPs)sustained the long-term release of T-NNPs with excellent cell-like functions,effectively bound to pro-inflammatory cytokines,and improved the release kinetics of TGF-β1,maintaining a 36 day-acting release.GM@T-NNPs significantly inhibited lipopolysaccharide-induced inflammation in nucleus pulposus cells in vitro,downregulated the expression of inflammatory factors and matrix metalloproteinase,and upregulated the expression of collagen-II and aggrecan.GM@T-NNPs effectively restored intervertebral disc height and significantly improved the structure and biomechanical function of the nucleus pulposus in a rat IVDD model.The integration of biomimetic technology and nano-drug delivery systems expands the application of biomimetic cell membrane-coated materials and provides a new treatment strategy for IVDD.展开更多
Nucleus Pulposus(NP)Replacement is a developing surgical methodology for the treatment of pathology related to degeneration of intervertebral discs(IVDs).This article provides necessary context regarding the patholo-g...Nucleus Pulposus(NP)Replacement is a developing surgical methodology for the treatment of pathology related to degeneration of intervertebral discs(IVDs).This article provides necessary context regarding the patholo-gies treated with this technology,the biomechanical structure and function of the IVD,and the procedures this technology aims to replace.Primarily,it provides an overview and discussion of commercial and experimental preformed and in situ curing prosthesis designs reported in the scientific literature and summarizes the results of biomechanical and clinical studies evaluating their efficacy.Contextual and updated information on the most recent research into NP replacement with novel hydrogel and tissue engineering(TE)strategies is described.Replacement of the NP allows for potential improvement in the treatment of degenerative spinal pathologies through minimally invasive surgical techniques.展开更多
Intervertebral disc degeneration(IDD)is a progressive and dynamic process in which the senescence-associated secretory phenotype(SASP)of nucleus pulposus cells(NPC)plays a significant role.While impaired chaperone-med...Intervertebral disc degeneration(IDD)is a progressive and dynamic process in which the senescence-associated secretory phenotype(SASP)of nucleus pulposus cells(NPC)plays a significant role.While impaired chaperone-mediated autophagy(CMA)has been associated with inflammation and cellular senescence,its specific involvement in the self-perpetuating feedback loop of NPC senescence remains poorly understood.Through LAMP2A knockout in NPC,we identified a significant upregulation of DYRK1A,a core mediator of premature senescence in Down syndrome.Subsequent validation established DYRK1A as the critical driver of premature senescence in CMA-deficient NPC.Combinatorial transcription factor analysis revealed that under IL1B stimulation or CMA inhibition,elevated DYRK1A promoted FOXC1 phosphorylation and nuclear translocation,initiating transcriptional activation of cell cycle arrest.Intriguingly,CMA impairment concurrently enhanced glutamine metabolic flux in senescent NPC,thereby augmenting their survival fitness.Transcriptomic profiling demonstrated that CMA reactivation in senescent NPC facilitated fate transition from senescence to apoptosis,mediated by decreased glutamine flux via GLUL degradation.Therefore,CMA exerts protective effects against IDD by maintaining equilibrium between premature senescence and senolysis.This study elucidates CMA’s regulatory role in SASP-mediated senescence amplification circuits,providing novel therapeutic insights for IDD and other age-related pathologies.展开更多
Background Intervertebral disc degeneration is the main cause of low back pain. The purpose of this study was to explore potential methods for reversing the degeneration of lumbar intervertebral discs by transplantati...Background Intervertebral disc degeneration is the main cause of low back pain. The purpose of this study was to explore potential methods for reversing the degeneration of lumbar intervertebral discs by transplantation of gene-modified nucleus pulposus cells into rabbit degenerative lumbar intervertebral discs after transfecting rabbit nucleus pulposus cells with adeno-associated virus 2 (AAV2)-mediated connective tissue growth factor (CTGF) and tissue inhibitor of metalloproteinases 1 (TIMP1) genes in vitro. Methods Computer tomography (CT)-guided percutaneous annulus fibrosus injury was performed to build degenerative lumbar intervertebral disc models in 60 New Zealand white rabbits, rAAV2-CTGF-IRES-TIMPI-transfected rabbit nucleus pulposus cells were transplanted into degenerative lumbar intervertebral discs (transplantation group), phosphate-buffered saline (PBS) was injected into degenerative lumbar intervertebral discs (degeneration control group) and normal lumbar intervertebral discs served as a blank control group. After 6, 10 and 14 weeks, the disc height index (DHI) and signal intensity in intervertebral discs were observed by X-ray and magnetic resonance imaging (MRI) analysis The expression of CTGF and TIMP1 in nucleus pulposus tissue was determined by Western blotting analysis, the synthesis efficiency of proteoglycan was determined by a 35S-sulfate incorporation assay, and the mRNA expression of type II collagen and proteoglycan was detected by RT-PCR. Results MRI confirmed that degenerative intervertebral discs appeared two weeks after percutaneous puncture. Transgenic nucleus pulposus cell transplantation could retard the rapid deterioration of the DHI. MRI indicated that degenerative intervertebral discs were relieved in the transplantation group compared with the degeneration control group. The expression of collagen II mRNA and proteoglycan mRNA was significantly higher in the transplantation group and the blank control group compared with the degeneration control group (P 〈0.05). Conclusions CT-guided percutaneous puncture can successfully build rabbit degenerative intervertebral disc models. Both CTGF and TIMPl-transfected cell transplantation helps to maintain disc height, and promotes the biosynthesis of tvDe II collaQen and proteoalvcan in intervertebral discs, reversinq the de(:ieneration of intervertebral discs.展开更多
Background Nucleus pulposus of intervertebral discs has proinflammatory characteristics that play a key role in neuropathic pain in lumbar herniated intervertebral disc. One of the most commonly used animal models (t...Background Nucleus pulposus of intervertebral discs has proinflammatory characteristics that play a key role in neuropathic pain in lumbar herniated intervertebral disc. One of the most commonly used animal models (the traditional model) of non-compressive lumbar herniated intervertebral disc is created by L4-L5 hemilaminectomy and the application of autologous nucleus pulposus to cover the left L4 and L5 nerve roots in rats. However, such procedures have the disadvantages of excessive trauma and low success rate. We proposed a modified model of non-compressive lumbar herniated intervertebral disc in which only the left L5 dorsal root ganglion is exposed and transplanted with autologous nucleus pulposus following incision of epineurium. We aimed to compare the modified model with the traditional one with regard to trauma and success rate. Methods Thirty Sprague-Dawley male rats were randomized into three groups: sham operation group (n=6), traditional group (n=12), and modified group (n=12). The amount of blood loss and operative time for each group were analyzed. The paw withdrawal threshold of the left hind limb to mechanical stimuli and paw withdrawal latency to heat stimuli were examined from the day before surgery to day 35 after surgery. Results Compared with the traditional group, the modified group had shorter operative time, smaller amount of blood loss, and higher success rate (91.7% versus 58.3%, P 〈0.05). There was no decrease in paw withdrawal latency in any group. The sham operation group had no decrease in postoperative paw withdrawal threshold, whereas the modified and traditional groups had significant reduction in paw withdrawal threshold after surgery (mechanical hyperalgesia). Conclusions Transplantation of nucleus pulposus onto the L5 dorsal root ganglion following incision of epineurium in rats established an improved animal model of non-compressive lumbar herniated intervertebral disc with less trauma and more stable pain ethology.展开更多
Stem cell-based transplantation is a promising therapeutic approach for intervertebral disc degeneration(IDD).Current limitations of stem cells include with their insufficient cell source,poor proliferation capacity,l...Stem cell-based transplantation is a promising therapeutic approach for intervertebral disc degeneration(IDD).Current limitations of stem cells include with their insufficient cell source,poor proliferation capacity,low nucleus pulposus(NP)-specific differentiation potential,and inability to avoid pyroptosis caused by the acidic IDD microenvironment after transplantation.To address these challenges,embryo-derived long-term expandable nucleus pulposus progenitor cells(NPPCs)and esterase-responsive ibuprofen nano-micelles(PEG-PIB)were prepared for synergistic transplantation.In this study,we propose a biomaterial pre-modification cell strategy;the PEG-PIB were endocytosed to pre-modify the NPPCs with adaptability in harsh IDD microenvironment through inhibiting pyroptosis.The results indicated that the PEG-PIB pre-modified NPPCs exhibited inhibition of pyroptosis in vitro;their further synergistic transplantation yielded effective functional recovery,histological regeneration,and inhibition of pyroptosis during IDD regeneration.Herein,we offer a novel biomaterial pre-modification cell strategy for synergistic transplantation with promising therapeutic effects in IDD regeneration.展开更多
Background Recent studies have indicated that human nucleus pulposus contain mesenchymal stem cells (NP-MSCs). However, the immunophenotypic variation of NP-MSCs in vitro was unclear. The present study was conducted...Background Recent studies have indicated that human nucleus pulposus contain mesenchymal stem cells (NP-MSCs). However, the immunophenotypic variation of NP-MSCs in vitro was unclear. The present study was conducted to address the immunophenotypic variation of mesenchymal stem cells in nucleus pulposus under continuous proliferation in vitro and show the difference between mesenchymal stem cells and nucleus pulposus cell. Methods Tissue samples were obtained from thoracolumbar burst fracture patients and degenerative disc disease patients who underwent discectomy and fusion procedures. Flow cytometric and laser scanning confocal microscope (LSCM) were used to detect the variation of mesenchymal stem cells in nucleus pulposus which were expressing CD105 and CD24 in condition with or without transforming growth factor [31 (TGF-131). Results More than 90% of the analyzed primary cells of mesenchymal stem cells in nucleus pulposus fulfilled the general immunophenotyping criteria for MSCs, such as CD44, CD105 and CD29, but the marker of mature NP cells characterized as CD24 was negative. In continuous cultures, the proportion of mesenchymal stem cells which were expressing CD44, CD105 and CD29 in nucleus pulposus gradually decreased. The mesenchymal stem cells in nucleus pulposus cells were positive for CD105 and CD29, with slight positivity for CD44. The CD24 expression gradually increased in proliferation. Bi- parametric flow cytometry and laser scanning confocal microscopy confirmed the presence of cells which were expressing CD105 and CD24 independently, and only a small part of cells expressed both CD105 and CD24 simultaneously. TGF-{31 could stimulate mesenchymal stem cells in nucleus pulposus to express CD24. Conclusions Non-degenerative and degenerative NP contains mesechymal stem cells. The variation of CD24 can be used as a marker to identify the NP-MSCs differentiation into NP-like cells.展开更多
基金supported by the National Nature Science Foundation of China(No.82002345 to J.D and 81902179 to L.S)the Gusu Talent Program(No.Qngg2022008 and GSWS2021027 to J.D)the Preliminary Research Project of the Second Affiliated Hospital of Soochow University(No.SDFEYBS1905 to J.D).
文摘Increased matrix stiffness of nucleus pulposus(NP)tissue is a main feature of intervertebral disc degeneration(IVDD)and affects various functions of nucleus pulposus cells(NPCs).Glycolysis is the main energy source for NPC survival,but the effects and underlying mechanisms of increased extracellular matrix(ECM)stiffness on NPC glycolysis remain unknown.In this study,hydrogels with different stiffness were established to mimic the mechanical environment of NPCs.Notably,increased matrix stiffness in degenerated NP tissues from IVDD patients was accompanied with impaired glycolysis,and NPCs cultured on rigid substrates exhibited a reduction in glycolysis.
基金supported by the Ministry of Science and Technology of China(2020YFA0908900)National Natural Science Foundation of China(21935011 and 82072490)+1 种基金Shenzhen Science and Technology Innovation Commission(KQTD20200820113012029 and KJZD20230923114612025)Guangdong Provincial Key Laboratory of Advanced Biomaterials(2022B1212010003).
文摘Aging is a pivotal risk factor for intervertebral disc degeneration(IVDD)and chronic low back pain(LBP).The restoration of aging nucleus pulposus cells(NPCs)to a youthful epigenetic state is crucial for IVDD treatment,but remains a formidable challenge.Here,we proposed a strategy to partially reprogram and reinstate youthful epigenetics of senescent NPCs by delivering a plasmid carrier that expressed pluripotency-associated genes(Oct4,Klf4 and Sox2)in Cavin2-modified exosomes(OKS@M-Exo)for treatment of IVDD and alleviating LBP.The functional OKS@M-Exo efficaciously alleviated senescence markers(p16^(INK4a),p21^(CIP1)and p53),reduced DNA damage and H4K20me3 expression,as well as restored proliferation ability and metabolic balance in senescent NPCs,as validated through in vitro experiments.In a rat model of IVDD,OKS@M-Exo maintained intervertebral disc height,nucleus pulposus hydration and tissue structure,effectively ameliorated IVDD via decreasing the senescence markers.Additionally,OKS@MExo reduced nociceptive behavior and downregulated nociception markers,indicating its efficiency in alleviating LBP.The transcriptome sequencing analysis also demonstrated that OKS@M-Exo could decrease the expression of age-related pathways and restore cell proliferation.Collectively,reprogramming by the OKS@M-Exo to restore youthful epigenetics of senescent NPCs may hold promise as a therapeutic platform to treat IVDD.
基金Supported by Academic Subject Boosting Plan in Shanghai Fourth People's Hospital Affiliated to Tongji University School of Medicine,No.SY-XKZT-2019-3002Academic Project from the Health Commission of Hongkou District,Shanghai,No.2202-25Clinical Key Specialty Construction Unit from The Health Commission of Hongkou District,Shanghai,No.HKLCZD2024B03.
文摘BACKGROUND Degenerative disc disease(DDD)is characterized by the loss of nucleus pulposus cells(NPCs).Inducing differentiation of bone marrow mesenchymal stem cells(MSCs)into NPCs has emerged as a novel therapeutic strategy for DDD.However,the efficiency of MSC differentiation and the underlying mechanisms remain to be fully elucidated.AIM To investigate the role and mechanism of miR-365 in promoting the differentiation of MSCs into NPCs for DDD treatment.METHODS In vitro,the effects of miR-365 on MSC proliferation,apoptosis,and differentiation were assessed by cell counting kit-8 assay,flow cytometry,and quantitative realtime polymerase chain reaction(qRT-PCR).In vivo,the expression levels of miR-365,HIF-1α,Sox9,Kdm6a,and HOXA9 in the spinal cord of rats with spinal cord injury were determined by qRT-PCR and Western blot.RESULTS In vitro,miR-365 significantly promoted MSC proliferation and inhibited MSC apoptosis.The expression levels of glycosaminoglycans,proteoglycan,and type 2 collagen were significantly increased with miR-365 ectopic expression.In vivo,the expression levels of miR-365,HIF-1α,Sox9,and Kdm6a were significantly increased,whereas HOXA9 was remarkably decreased.Mechanically,miR-365 inhibited HOXA9 expression by directly binding to its 3’untranslated region.HOXA9 could inhibit HIF-1αexpression by binding to the Hif-1αpromoter,thereby affecting the expression levels of Sox9 and Kdm6a.Moreover,HOXA9 knockdown significantly reversed the differentiation of MSCs into NPCs induced by miR-365.CONCLUSION miR-365 promotes HOXA9-mediated differentiation of MSCs into NPCs by interacting with HIF-1αand may serve as a potential target for DDD treatment.
基金supported in part by the National Natural Science Foundation of China(No.32101062)the Guangdong Basic and Applied Basic Re-search Foundation(No.2022A1515012607)+4 种基金the National Natural Science Foundation of China(No.82202741)the Chinese Postdoc-toral Science Foundation(No.2021M703710)the Guangdong Basic and Applied Basic Research Foundation(No.2021A1515111040)the Guangzhou Science and Technology Projects-Major R&D Program(No.2023B03J1386)the National Natural Science Foundation of China(General Program)(No.32071341).
文摘Neovascularization and inflammatory cell invasion within the nucleus pulposus(NP)constitute pivotal pathological changes during the acceleration stage of intervertebral disc degeneration(IDD).Mesenchy-mal stem cells(MSCs),renowned for their remarkable capacity in intervertebral disc(IVD)regeneration,also exhibit the capability to secrete pro-angiogenic factors,expediting IDD progression under hypoxic conditions.Consequently,we developed a hydrogel comprised of methacrylated hyaluronic acid(HAMA),rat tail collagen I(COL),and MSCs,incorporating the vascular endothelial growth factor receptor(VEGFR)inhibitor cabozantinib(Cabo@HAMA-COL/MSCs hydrogel).This innovative construct aimed to facilitate NP regeneration while mitigating vascularization and inflammation.Our findings revealed that the hydrogel aptly mimicked the mechanical characteristics of NP tissue,exhibiting injectability,low cytotoxicity,and the preservation of the cellular phenotype of NP cells.Co-culturing of MSCs and human umbilical vein endothelial cells(HUVECs)promoted migration,tube formation,and sprouting of HUVECs,which will be inhibited by cabozantinib.In vivo experiments demonstrated that Cabo@HAMA-COL/MSCs hydrogel main-tained disc height,protected NP,and alleviated vascularization and inflammation in a puncture-induced rat caudal IDD model.Consequently,our results substantiate that Cabo@HAMA-COL/MSCs hydrogel can prevent IDD degeneration by ameliorating the vascularization-inflammation pathological microenviron-ment,offering a promising therapeutic strategy for IDD.
基金Supported by National Natural Science Foundation of China:Differential proteomics-based research on the intervention effects,and mechanism of scraping therapy,treating lumbar disc herniation(No.81473791)Natural Science Foundation of Basic Research Program in Jiangsu Province:Proteomics research on the intervention effects,and mechanism of scraping therapy for lumbar disc herniation based on i TRAQ technology(No.BK20141464)
文摘OBJECTIVE: To investigate the analgesic effect of Gua Sha and its underlying mechanism in rats with noncompressive lumbar disk herniation induced by autologous nucleus pulposus.METHODS: A rat model of noncompressive lumbar disk herniation was established and rats were randomly divided into model group, sham group, and Gua Sha group(24 in each group). Gua Sha was performed from the 5 th day after the surgery, once every other day, 3 times for a course of treatment,and totally 3 courses. The thermal withdrawal latency was evaluated using the intelligent hot plate one day before the surgery, and on days 4(the day before the treatment), 10(the end of the firstcourse), 16(the end of the second course) and 22(the end of the third course). On days 4, 10, 16 and22, six rats in each group were picked randomly and their blood samples were drawn to assess the expression of interleukin-1β(IL-1β), interleukin-6(IL-6) and tumor necrosis factor-alpha(TNF-α).RESULTS: Compared to rats in the sham group, the application of nucleus pulposus to right L5 dorsal root ganglion induced prolonged thermal hyperalgesia, and up-regulated the expression of IL-1β,IL-6 and TNF-α in serum(P < 0.01). The therapy of Gua Sha attenuated thermal hyperalgesia potently,inhibited the expression of IL-1β, IL-6 and TNF-α in a time-dependent manner(P < 0.01). There were no significant differences in the thermal withdrawal latency and the expression of inflammatory cytokines between the sham and Gua Sha groups at the end of the treatment(P > 0.01).CONCLUSION: The current study showed that Gua Sha might alleviate thermal hyperalgesia in rats with lumbar disc herniation induced by autologous nucleus pulposus via inhibiting the expression of proinflammatory cytokins.
基金a grant from the National Natural Sciences Foundation of China (No. 30772206)
文摘To find a new source of seed cells for constructing tissue-engineered intervertebral disc, nucleus pulposus (NP) cells and mesenchymal stem cells (MSCs) were isolated from New Zealand white rabbits. The nucleus pulposus cells population was fluorescence-ladled and co-cultured with MSCs with or without direct contact. Morphological changes were observed every 12 h. Semi-quantitaive reverse transcriptase-polymerase chain reaction was performed to assess the expression levels of Sox-9, aggreacan and type Ⅱ collagen every 24 h after the co-culture. MSCs treated with direct contact rounded up and presented a ring-like appearance. The expression of marker genes was significantly increased when cells were co-cultured with direct contact for 24 h. No significant change was found after coculture without direct contact. Co-culture of NP cells and MSCs with direct contact is a reliable method for generating large amount of NP cells used for cell-based tissue engineering therapy.
基金Project supported by the National Natural Science Foundation of China(Nos.81171472 and 81201407)the Innovation Team Project of Sichuan Provincial Education Department(No.13TD0030)+1 种基金the Major Transformation Cultivation Project of Sichuan Provincial Education Department(No.15CZ0021)the Science and Technology Project of Nanchong City(No.14A0021),China
文摘Objective: To construct a recombinant adenovirus vector-carrying human growth and differentiation factor-5 (GDF-5) gene, investigate the biological effects of adenovirus-mediated GDF-5 (Ad-GDF-5) on extracellular matrix (ECM) expression in human degenerative disc nucleus pulposus (NP) cells, and explore a candidate gene therapy method for intervertebral disc degeneration (IDD). Methods: Human NP cells of a degenerative disc were isolated, cultured, and infected with Ad-GDF-5 using the AdEasy-1 adenovirus vector system. On Days 3, 7, 14, and 21, the contents of the sulfated glycosaminoglycan (sGAG), deoxyribonucleic acid (DNA) and hydroxyproline (Hyp), synthesis of proteoglycan and collagen II, gene expression of collagen II and aggrecan, and NP cell proliferation were assessed. Results: The adenovirus was an effective vehicle for gene delivery with prolonged expression of GDF-5. Biochemical analysis revealed increased sGAG and Hyp contents in human NP cells infected by Ad-GDF-5 whereas there was no conspicuous change in basal medium (BM) or Ad-green fluorescent protein (GFP) groups. Only cells in the Ad-GDF-5 group promoted the production of ECM, as demonstrated by the secretion of proteoglycan and up-regulation of collagen II and aggrecan at both protein and mRNA levels. The NP cell proliferation was significantly promoted. Conclusions: The data suggest that Ad-GDF-5 gene therapy is a potential treatment for IDD, which restores the functions of degenerative intervertebral disc through enhancing the ECM production of human NP ceils.
基金supported by Shandong Natural Science Fund(No.:Y2008C147)
文摘Objective:To discuss the effect of Yaobitong capsule on histomorphology of dorsal root ganglion and on expression of p38 MARK phosphorylation in autologous nucleus pulposus transplantation model of rats.Methods:A total of 60 SD rats were randomly divided into the blank group,model group and Yaobitong capsule group,with 20 rats in each group.The animal model of autologous nucleus pulposus transplantation around the lumbar nerve root was built.Three days after the modeling,rats were given the drugs for the first time,while rats in the model group were given the equivalent normal saline.After 30 d of continuous administration,samples were collected from rats.HE staining was performed on the dorsal root ganglion of L4 and L5 spinal cord of rats in each group and the expression of p38 MARK phosphorylation was measured.All data were treated with the statistical analysis.Results:The histological examination showed that the histomorphology of dorsal root ganglion in the Yaobitong capsule group was more significantly improved than the one in the model group,while the results of western blot showed that Yaobitong capsule could significandy inhibit the level of p38 MAPK phosphorylation of dorsal root ganglion cells.Conclusions:Yaobitong capsule can improve the symptoms and nerve radiculopathy of autologous nucleus pulposus transplantation of rats and its mechanism may be associated with its inhibiting effect on the level of p38 MAPK phosphorylation.
文摘This study examined the biological characteristics of normal and degenerated rabbit nucleus pulposus (NP) cells in vitro in order to provide seed cells for intervertebral disc (IVD) tissue engineering. A total of 8 adult New Zealand white rabbits underwent annulus puncture to establish models ofintervertebral disc degeneration (IDD). Four weeks later, normal and degenerated NP cells were obtained. Cell morphology was observed by light and electron microscopy. Cell viability was measured by MTT assay. Cell cycle and expression of extracellular matrix (ECM)-related genes (aggrecan and type II col- lagen) were determined by using flow cytometry and RT-PCR respectively. The growth curve of normal NP cells showed that the cells at passage 4 tended to slowly grow on the fifth day of culture. The density of normal NP cells at passages 5 to 7 was significantly less than that of the first-passage cells 2 or 3 days after seeding (P〈0.05). The degenerated NP cells at passage 3 showed slow growth at 4th day. After 5 passages, the degenerated NP cells assumed stagnant growth and the growth seemed to stop at passage 7. The MTT assay revealed that for both normal and degenerated NP cells, the absorbance (.4) value at passages 4-7 was obviously decreased as compared with that at passage 1 (P〈0.05). Cell cycle analysis showed that the proportion of normal NP cells at G1 phase was 65.4%-3.5%, significantly lower than that of degenerated NP cells at the same cell cycle phase With the value being 77.6%-4.8%. The degen- erated NP cells were predominantly arrested at Gt phase and failed to enter S phase. The expression of type II collagen and aggrecan was significantly decreased with passaging. It was concluded that normal NP cells possessed good viability and proliferative capacity by the third passage, and they could secrete large amounts of ECM within this period. The normal NP cells may serve as seed cells for IVD tissue engineering.
文摘The effects of cutting-aspiration of nucleus pulposus on the momements of the cervical spine in flexion,extension and lateral bending with fresh cervical spine specimens were tested by means of contacting measement with the dial indicators when loaded with the electronic universal testing machine.The results showed:(1) Cutting-aspiration of nucleus pulposus only removed part of the nucleus pulposus,which was consistent with the clinical observation;(2)The ranges or motion(ROMs) of the operative segment had not increased in direction of flexion,extension and lateral bending after cutting-aspiration of nucleus pulposus:(3)After nucleotomy,the ROMs corresponding upon the operative segment apparently increased in flexion and extension,but had no change in lateral bending;(4)Hemilaminectomy of cervical spine which was an operation or partial removal of the ligamentum flavum and the lamina only had little afrection on the cervical stability. The biomechanical data can not only demonstrate the reliability of percutaneous dlscectomy,but also present a new enlightement for the clinical therapy of cervical disc herniation with spinal canal stenosis.
基金funded by the Youth Research Fund of the Peking Union Medical College Hospital(No.pumch201911708).
文摘Objective Disc calcification is strongly associated with disc degeneration;however,the underlying mechanisms driving its pathogenesis are poorly understood.This study aimed to provide a gene expression profile of nucleus pulposus cells(NPCs)from calcified discs,and clarify the potential mechanism in disc degeneration.Methods Primary NPCs were isolated from calcified and control discs(CAL-NPC and CON-NPC),respectively.The proliferation and extracellular matrix(ECM)metabolism capacities of the cells were evaluated using MTT and Western blotting,respectively.RNA sequencing was used to identify differentially expressed genes(DEGs)in the CAL-NPCs.The biological functions of the DEGs were analyzed using the Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)databases.The transcription factor database and Cytoscape software were used to construct the transcription factor-DEGs regulatory network.The role of the verified transcription factor in NPC proliferation and ECM metabolism was also investigated.Results The CAL-NPCs exhibited a lower proliferation rate and higher ECM degradation capacity than the CON-NPCs.In total,375 DEGs were identified in the CAL-NPCs.The GO and KEGG analyses showed that the DEGs were primarily involved in the regulation of ribonuclease activity and NF-kappa B and p53 signaling pathways.GATA-binding protein 3(GATA3)with the highest verified levels was selected for further studies.Overexpression of GATA3 in the CON-NPCs significantly inhibited their proliferation and promoted their ECM degradation function,while the knockdown of GATA3 in the CAL-NPCs resulted in the opposite phenotypes.Conclusion This study provided a comprehensive gene expression profile of the NPCs from the calcified discs and supported that GATA3 could be a potential target for reversing calcification-associated disc degeneration.
基金This work was supported by the Gusu Health Talent Project of Suzhou(Grant No.GSWS2020056)“333”Talent Project of Jiangsu Province(Grant No.BRA2017057).
文摘Transcription factor Brachyury,a protein containing 435 amino acids,has been widely investigated and reported in notochord differentiation and nucleus pulposus development.The crucial functions and underlying mechanisms by Brachyury are discussed in this paper,which suggests Brachyury can be developed into a potential novel target for the therapy of intervertebral disc degeneration.
文摘Objective: to analyze the effect of detail nursing in operation room for patients with intervertebral disc herniation who underwent foraminal nucleus pulposus excision. Methods: a total of 100 patients with disc herniation who underwent foraminal nucleus pulporesis extraction were enrolled in the department of our hospital from January 2019 to December 2020. They were randomly divided into groups. Patients in the control group were given routine nursing, and the observation group was given detail nursing in the operating room. Conclusion: the clinical effect of detail nursing of lumbar intervertebral disc herniation in operating room is exact, it can relieve the trauma, relieve the pain, reduce the complications and accelerate the recovery.
基金supported by the National Natural Science Foundation of China (82072438,82272501,81972078,82120108017,82102589,82372484,82302683)Natural Science Foundation of Jiangsu Province (BK20211504)+4 种基金Social Development Project of Jiangsu Province (BE2021646)Jiangsu Province"333 Project"talent project (2069999)Suzhou Gusu Health Talent Program (GSWS2020001,GSWS2021009,GSWS2021007)Jiangsu Innovative and Enterpreneurial Talent Program (JSSCBS20211570)Medical Health Science and Technology Innovation Program of Suzhou (SKY2022119).
文摘Sustained and intense inflammation is the pathological basis for intervertebral disc degeneration(IVDD).Effective antagonism or reduction of local inflammatory factors may help regulate the IVDD microenvironment and reshape the extracellular matrix of the disc.This study reports an immunomodulatory hydrogel microsphere system combining cell membrane-coated mimic technology and surface chemical modification methods by grafting neutrophil membrane-coated polylactic-glycolic acid copolymer nanoparticles loaded with transforming growth factor-beta 1(TGF-β1)(T-NNPs)onto the surface of methacrylic acid gelatin anhydride microspheres(GM)via amide bonds.The nanoparticle-microsphere complex(GM@T-NNPs)sustained the long-term release of T-NNPs with excellent cell-like functions,effectively bound to pro-inflammatory cytokines,and improved the release kinetics of TGF-β1,maintaining a 36 day-acting release.GM@T-NNPs significantly inhibited lipopolysaccharide-induced inflammation in nucleus pulposus cells in vitro,downregulated the expression of inflammatory factors and matrix metalloproteinase,and upregulated the expression of collagen-II and aggrecan.GM@T-NNPs effectively restored intervertebral disc height and significantly improved the structure and biomechanical function of the nucleus pulposus in a rat IVDD model.The integration of biomimetic technology and nano-drug delivery systems expands the application of biomimetic cell membrane-coated materials and provides a new treatment strategy for IVDD.
文摘Nucleus Pulposus(NP)Replacement is a developing surgical methodology for the treatment of pathology related to degeneration of intervertebral discs(IVDs).This article provides necessary context regarding the patholo-gies treated with this technology,the biomechanical structure and function of the IVD,and the procedures this technology aims to replace.Primarily,it provides an overview and discussion of commercial and experimental preformed and in situ curing prosthesis designs reported in the scientific literature and summarizes the results of biomechanical and clinical studies evaluating their efficacy.Contextual and updated information on the most recent research into NP replacement with novel hydrogel and tissue engineering(TE)strategies is described.Replacement of the NP allows for potential improvement in the treatment of degenerative spinal pathologies through minimally invasive surgical techniques.
基金supported by the National Natural Science Foundation of China (NSFC) (No.82172497)
文摘Intervertebral disc degeneration(IDD)is a progressive and dynamic process in which the senescence-associated secretory phenotype(SASP)of nucleus pulposus cells(NPC)plays a significant role.While impaired chaperone-mediated autophagy(CMA)has been associated with inflammation and cellular senescence,its specific involvement in the self-perpetuating feedback loop of NPC senescence remains poorly understood.Through LAMP2A knockout in NPC,we identified a significant upregulation of DYRK1A,a core mediator of premature senescence in Down syndrome.Subsequent validation established DYRK1A as the critical driver of premature senescence in CMA-deficient NPC.Combinatorial transcription factor analysis revealed that under IL1B stimulation or CMA inhibition,elevated DYRK1A promoted FOXC1 phosphorylation and nuclear translocation,initiating transcriptional activation of cell cycle arrest.Intriguingly,CMA impairment concurrently enhanced glutamine metabolic flux in senescent NPC,thereby augmenting their survival fitness.Transcriptomic profiling demonstrated that CMA reactivation in senescent NPC facilitated fate transition from senescence to apoptosis,mediated by decreased glutamine flux via GLUL degradation.Therefore,CMA exerts protective effects against IDD by maintaining equilibrium between premature senescence and senolysis.This study elucidates CMA’s regulatory role in SASP-mediated senescence amplification circuits,providing novel therapeutic insights for IDD and other age-related pathologies.
基金This study was supported by a grant from the National Natural Science Foundation of China (No. 30471750).
文摘Background Intervertebral disc degeneration is the main cause of low back pain. The purpose of this study was to explore potential methods for reversing the degeneration of lumbar intervertebral discs by transplantation of gene-modified nucleus pulposus cells into rabbit degenerative lumbar intervertebral discs after transfecting rabbit nucleus pulposus cells with adeno-associated virus 2 (AAV2)-mediated connective tissue growth factor (CTGF) and tissue inhibitor of metalloproteinases 1 (TIMP1) genes in vitro. Methods Computer tomography (CT)-guided percutaneous annulus fibrosus injury was performed to build degenerative lumbar intervertebral disc models in 60 New Zealand white rabbits, rAAV2-CTGF-IRES-TIMPI-transfected rabbit nucleus pulposus cells were transplanted into degenerative lumbar intervertebral discs (transplantation group), phosphate-buffered saline (PBS) was injected into degenerative lumbar intervertebral discs (degeneration control group) and normal lumbar intervertebral discs served as a blank control group. After 6, 10 and 14 weeks, the disc height index (DHI) and signal intensity in intervertebral discs were observed by X-ray and magnetic resonance imaging (MRI) analysis The expression of CTGF and TIMP1 in nucleus pulposus tissue was determined by Western blotting analysis, the synthesis efficiency of proteoglycan was determined by a 35S-sulfate incorporation assay, and the mRNA expression of type II collagen and proteoglycan was detected by RT-PCR. Results MRI confirmed that degenerative intervertebral discs appeared two weeks after percutaneous puncture. Transgenic nucleus pulposus cell transplantation could retard the rapid deterioration of the DHI. MRI indicated that degenerative intervertebral discs were relieved in the transplantation group compared with the degeneration control group. The expression of collagen II mRNA and proteoglycan mRNA was significantly higher in the transplantation group and the blank control group compared with the degeneration control group (P 〈0.05). Conclusions CT-guided percutaneous puncture can successfully build rabbit degenerative intervertebral disc models. Both CTGF and TIMPl-transfected cell transplantation helps to maintain disc height, and promotes the biosynthesis of tvDe II collaQen and proteoalvcan in intervertebral discs, reversinq the de(:ieneration of intervertebral discs.
基金The study was supported by a grant from the National Natural Science Foundation of China-Guangdong Joint Funding (No. u0732001).
文摘Background Nucleus pulposus of intervertebral discs has proinflammatory characteristics that play a key role in neuropathic pain in lumbar herniated intervertebral disc. One of the most commonly used animal models (the traditional model) of non-compressive lumbar herniated intervertebral disc is created by L4-L5 hemilaminectomy and the application of autologous nucleus pulposus to cover the left L4 and L5 nerve roots in rats. However, such procedures have the disadvantages of excessive trauma and low success rate. We proposed a modified model of non-compressive lumbar herniated intervertebral disc in which only the left L5 dorsal root ganglion is exposed and transplanted with autologous nucleus pulposus following incision of epineurium. We aimed to compare the modified model with the traditional one with regard to trauma and success rate. Methods Thirty Sprague-Dawley male rats were randomized into three groups: sham operation group (n=6), traditional group (n=12), and modified group (n=12). The amount of blood loss and operative time for each group were analyzed. The paw withdrawal threshold of the left hind limb to mechanical stimuli and paw withdrawal latency to heat stimuli were examined from the day before surgery to day 35 after surgery. Results Compared with the traditional group, the modified group had shorter operative time, smaller amount of blood loss, and higher success rate (91.7% versus 58.3%, P 〈0.05). There was no decrease in paw withdrawal latency in any group. The sham operation group had no decrease in postoperative paw withdrawal threshold, whereas the modified and traditional groups had significant reduction in paw withdrawal threshold after surgery (mechanical hyperalgesia). Conclusions Transplantation of nucleus pulposus onto the L5 dorsal root ganglion following incision of epineurium in rats established an improved animal model of non-compressive lumbar herniated intervertebral disc with less trauma and more stable pain ethology.
基金Nature Science Foundation of Zhejiang Province(Y20H060063,LY19H060005,LQ18H060003,LZ22H090003)National Natural Science Foundation of China(NO.82072465,NO.81772379,NO.81972096,NO.82172457,NO.82002327)+1 种基金China Postdoctoral Science Foundation(2017M612011)Scientific Research Fund of Zhejiang Provincial Education Department(Y201941476).
文摘Stem cell-based transplantation is a promising therapeutic approach for intervertebral disc degeneration(IDD).Current limitations of stem cells include with their insufficient cell source,poor proliferation capacity,low nucleus pulposus(NP)-specific differentiation potential,and inability to avoid pyroptosis caused by the acidic IDD microenvironment after transplantation.To address these challenges,embryo-derived long-term expandable nucleus pulposus progenitor cells(NPPCs)and esterase-responsive ibuprofen nano-micelles(PEG-PIB)were prepared for synergistic transplantation.In this study,we propose a biomaterial pre-modification cell strategy;the PEG-PIB were endocytosed to pre-modify the NPPCs with adaptability in harsh IDD microenvironment through inhibiting pyroptosis.The results indicated that the PEG-PIB pre-modified NPPCs exhibited inhibition of pyroptosis in vitro;their further synergistic transplantation yielded effective functional recovery,histological regeneration,and inhibition of pyroptosis during IDD regeneration.Herein,we offer a novel biomaterial pre-modification cell strategy for synergistic transplantation with promising therapeutic effects in IDD regeneration.
文摘Background Recent studies have indicated that human nucleus pulposus contain mesenchymal stem cells (NP-MSCs). However, the immunophenotypic variation of NP-MSCs in vitro was unclear. The present study was conducted to address the immunophenotypic variation of mesenchymal stem cells in nucleus pulposus under continuous proliferation in vitro and show the difference between mesenchymal stem cells and nucleus pulposus cell. Methods Tissue samples were obtained from thoracolumbar burst fracture patients and degenerative disc disease patients who underwent discectomy and fusion procedures. Flow cytometric and laser scanning confocal microscope (LSCM) were used to detect the variation of mesenchymal stem cells in nucleus pulposus which were expressing CD105 and CD24 in condition with or without transforming growth factor [31 (TGF-131). Results More than 90% of the analyzed primary cells of mesenchymal stem cells in nucleus pulposus fulfilled the general immunophenotyping criteria for MSCs, such as CD44, CD105 and CD29, but the marker of mature NP cells characterized as CD24 was negative. In continuous cultures, the proportion of mesenchymal stem cells which were expressing CD44, CD105 and CD29 in nucleus pulposus gradually decreased. The mesenchymal stem cells in nucleus pulposus cells were positive for CD105 and CD29, with slight positivity for CD44. The CD24 expression gradually increased in proliferation. Bi- parametric flow cytometry and laser scanning confocal microscopy confirmed the presence of cells which were expressing CD105 and CD24 independently, and only a small part of cells expressed both CD105 and CD24 simultaneously. TGF-{31 could stimulate mesenchymal stem cells in nucleus pulposus to express CD24. Conclusions Non-degenerative and degenerative NP contains mesechymal stem cells. The variation of CD24 can be used as a marker to identify the NP-MSCs differentiation into NP-like cells.
