We developed an imaging technique combining two-photon computed super-resolution microscopy and suction-based stabilization to achieve the resolution of the single-cell level and organelles in vivo.To accomplish this,...We developed an imaging technique combining two-photon computed super-resolution microscopy and suction-based stabilization to achieve the resolution of the single-cell level and organelles in vivo.To accomplish this,a conventional two-photon microscope was equipped with a 3D-printed holders,which stabilize the tissue surface within the focal plane of immersion objectives.Further computational image stabilization and noise reduction were applied,followed by superresolution radial fluctuations(SRRF)analysis,doubling image resolution,and enhancing signal-to-noise ratios for in vivo subcellular process investigation.Stabilization of<1μm was obtained by suction,and<25 nm were achieved by subsequent algorithmic image stabilization.A Mito-Dendra2 mouse model,expressing green fluorescent protein(GFP)in mitochondria,demonstrated the potential of long-term intravital subcellular imaging.In vivo mitochondrial fission and fusion,mitochondrial status migration,and the effects of alcohol consumption(modeled as an alcoholic liver disease)and berberine treatment on hepatocyte mitochondrial dynamics are directly observed intravitally.Suction-based stabilization in two-photon intravital imaging,coupled with computational super-resolution holds promise for advancing in vivo subcellular imaging studies.展开更多
Using potted seedlings of Chlorophytum comosum var. variegatum as the experimental materials, the effect of 2.0 mmol/L methyl orange ( Treatment T1 ), 1.0 mmol/L methyl violet ( Treatment T2 ) and 1.0 mmol/L neutr...Using potted seedlings of Chlorophytum comosum var. variegatum as the experimental materials, the effect of 2.0 mmol/L methyl orange ( Treatment T1 ), 1.0 mmol/L methyl violet ( Treatment T2 ) and 1.0 mmol/L neutral red ( Treatment T3 ) on the biomass, root-shoot ratio, leaf color indices, plant carbon and nitrogen nutrition were studied. The results showed that the biomass of Treatment T3 was significantly greater than that of treatments T1 and CK. The root-shoot ratio decreased significantly in treatments T1, T2 and T3 , and the decrease in T3 was most obvious. In all the three treatments with coloring agent, a ^* , b ^* and L ^* values were increased gradually, C value were decreased, H0 and CIRG were increased, and the leaves were pink. In addition, the contents of chlorophyll a, chlorophyll b, chlorophyll a + b and carotenoid were significantly decreased. The contents of soluble sugar and starch were also decreased, and the decrease in Treatment T2 was most significant. The contents of soluble protein and total nitrogen were increased, and the increase was most dramatic in Treatment T3. The carbon to nitrogen ratio was decreased. The results proved that staining can improve the ornamental value of indoor plants, despite its effects on plant carbon and nitrogen nutrition of C. comosum vat. variegatum, dyeing.展开更多
The use of optical microscopy and labeling methods in intravital imaging allows for direct tracking of cell behavior and dynamic changes at the molecular level in the physiological or pathological microenvironment of ...The use of optical microscopy and labeling methods in intravital imaging allows for direct tracking of cell behavior and dynamic changes at the molecular level in the physiological or pathological microenvironment of living animals,revealing the spatiotemporal information of individual cells in the immune response.The liver is an immunological organ that contains unique innate and adaptive immune cells,including Kupffer cells(KCs)and different types of T cells,and is involved in coordinating multiple immune responses in the body.Using intravital imaging to visualize the movement behaviors and functions of immune cells during the reaction processes of the liver under physiological and pathological conditions has shed new light on the understanding of liver immunity,which is of great significance for the diagnosis and treatment of liver diseases.This review introduces various window models and labeling methods for the liver in intravital optical imaging and describes how it provides movement behavior and functional information about different types of immune cells,such as KCs and T cells,in the liver.Additionally,we highlight recent advances in intravital optical imaging of liver diseases,such as nonalcoholic fatty liver disease,infections,and tumors.This review aims to be a useful resource for comprehending the developments and achievements in intravital imaging of the liver and uncovering spatiotemporal information of immune response in a living microenvironment.展开更多
Three-photon(3P)fluorescence imaging(FLI)utilizing excitation wavelengths within the near-infrared-Ⅲ (NIR-Ⅲ,1600-1870 nm)window has emerged as a transformative modality for intravital imaging,owing to its combined a...Three-photon(3P)fluorescence imaging(FLI)utilizing excitation wavelengths within the near-infrared-Ⅲ (NIR-Ⅲ,1600-1870 nm)window has emerged as a transformative modality for intravital imaging,owing to its combined advantages of excellent spatiotemporal resolution and remarkable tissue penetration.High-performance fluorescent probes are the cornerstone of highquality NIR-Ⅲ3P FLI.However,the construction of such probes is often hindered by inherent trade-offs in molecular design principles,posing significant challenges for their performance optimization and practical application.Here,we propose a straightforward and effective strategy based onπ-bridge manipulation to reconcile those competing molecular design parameters and substantially enhance 3P fluorescence properties.Leveraging this approach,a robust AIE-active small molecule,named TSSID,was developed,which exhibits bright NIR-I(700-950 nm)emission under 1665 nm NIR-Ⅲ3P excitation when formulated into nanoparticles(NPs).Remarkably,upon retro-orbital injection into mice following craniotomy,TSSID NPs achieved the best performance in deep-brain angiography among all reported organic 3P materials in terms of vascular imaging depth,signalto-background ratio,spatial resolution,and hemodynamic imaging depth.Additionally,TSSID NPs demonstrated outstanding biocompatibility through systematic biosafety evaluations.This study provides an excellent imaging agent and useful molecular design philosophy,facilitating the development of advanced organic 3P FLI probes.展开更多
The vasculature,as the essential biological network for oxygen and nutrients delivery and the dynamic regulatory center for physiological processes,is fundamentally important for maintaining human health and life qual...The vasculature,as the essential biological network for oxygen and nutrients delivery and the dynamic regulatory center for physiological processes,is fundamentally important for maintaining human health and life quality.Accurate visualization of vascular structures,as well as real-time monitoring of hemodynamic parameters and molecular profiles associated with vascular function,are therefore crucial for early diagnosis and preventive interventions of vascular diseases.Fluorescence imaging technology,particularly in the second near-infrared window(NIR-II;1000–1700 nm),offers distinct advantages for these demanding imaging requirements not only due to its high sensitivity,excellent spatial resolution,and real-time monitoring capability but also thanks to the superior signal-to-background ratio and large tissue penetration depth of NIR-II fluorescence.Among diverse NIR-II fluorescent probes,aggregation-induced emission luminogens(AIEgens)stand out for their intrinsic organic nature and,more importantly,for their unique aggregation-enhanced emission properties,which clearly differentiates them from traditional fluorophores and enable high-resolution imaging.Currently,a series of high-performance NIR-II AIEgens featuring relatively high fluorescence brightness and long emission wavelengths with emission tails even extending into the NIR-IIa(1300–1400 nm)and NIR-IIb(1500–1700 nm)subwindows have been reported and demonstrated encouraging results in intravital fluorescence angiography.This minireview summarizes recent advances in NIR-II AIEgens for various vascular imaging applications,categorized by anatomical locations,including cerebral,abdominal,hindlimb,ear,axillary,renal,and tumor angiography.The molecular design strategies and nanoengineering approaches to achieve longer emission wavelengths,higher fluorescence brightness,and improved bioavailability are highlighted.Finally,the remaining challenges and future directions are discussed from the aspects of materials engineering,application scenarios expansion,and clinical translation.展开更多
AIM: To determine the effect of tetrahydrocurcumin (THC) on tumor angiogenesis compared with curcumin (CUR) by using both in vitro and in vivo models of human hepatocellular carcinoma cell line (HepG2). METHODS: The 3...AIM: To determine the effect of tetrahydrocurcumin (THC) on tumor angiogenesis compared with curcumin (CUR) by using both in vitro and in vivo models of human hepatocellular carcinoma cell line (HepG2). METHODS: The 3-(4,5-dimethylthiazol-2-yl)-2, 5-diphenyl-tetrazolium bromide (MTT) assay was used for testing the anti-proliferating activities of CUR and THC. In male BALB/c nude mice, 2 × 106 human HepG2 cells were inoculated onto a dorsal skin-fold chamber. One day after HepG2 inoculation, the experimental groups were fed oral daily with CUR or THC (300 mg/kg or 3000 mg/kg). On d 7, 14 and 21, the tumor microvasculature was observed using fluorescence videomicroscopy and capillary vascularity (CV) was measured. RESULTS: Pathological angiogenic features including microvascular dilatation, tortuosity, and hyper-permeability were observed. CUR and THC could attenuate these pathologic features. In HepG2-groups, the CV were significantly increased on d 7 (52.43%), 14 (69.17%), and 21 (74.08%), as compared to controls (33.04%,P < 0.001). Treatment with CUR and THC resulted in significant decrease in the CV (P < 0.005 and P < 0.001, respectively). In particular, the anti-angiogenic effects of CUR and THC were dose-dependent manner. However, the beneficial effect of THC treatment than CUR was observed, in particular, from the 21 d CV (44.96% and 52.86%, P < 0.05). CONCLUSION: THC expressed its anti-angiogenesis without any cytotoxic activities to HepG2 cells even at the highest doses. It is suggested that anti-angiogenic properties of CUR and THC represent a common potential mechanism for their anti-cancer actions.展开更多
AIM: To investigate microvascular injury quantitatively in the small bowel with respect to cardiopulmonary bypass (CPB) and related mechanisms. METHODS: In 10 male SD rats, normothermic CPB was established and con...AIM: To investigate microvascular injury quantitatively in the small bowel with respect to cardiopulmonary bypass (CPB) and related mechanisms. METHODS: In 10 male SD rats, normothermic CPB was established and continued with a flow rate of 100-150 mL/kg per minute for 60 min, while another 10 sham-operated animals served as controls. An approximate 10-cm loop of the terminal ileum was exteriorized for observation by means of intravital fluorescence microscopy. The small bowel microcirculatory network including arterioles, capillaries, and collecting venules was observed prior to CPB, CPB 30 min, CPB 60 min, post-CPB 60 min and post-CPB 120 rain. The intestinal capillary perfusion, microvascular permeability and leukocyte adherence were also measured. RESULTS: The systemic hemodynamics remained stable throughout the experiment in both groups. In CPB animals, significant arteriolar vasoconstriction, blood velocity reduction and functional capillary density diminution were found. As concomitances, exaggerated albumin extravasation and increased leukocyte accumulation were also noted. These changes were more pronounced and there were no signs of restitution at the end of the observation period. CONCLUSION: CPB induces significant microcirculatory injury of the small bowel in rats. The major underlying mechanisms are blood flow redistribution and generalized inflammatory response associated with CPB.展开更多
AIM: To investigate the effect of mild steatotic liver on ischemia-reperfusion injury by focusing on Kupffer cells (KCs) and platelets. METHODS: Wistar rats were divided into a normal liver group (N group) and a mild ...AIM: To investigate the effect of mild steatotic liver on ischemia-reperfusion injury by focusing on Kupffer cells (KCs) and platelets. METHODS: Wistar rats were divided into a normal liver group (N group) and a mild steatotic liver group (S group) induced by feeding a choline-deficient diet for 2 wk. Both groups were subjected to 20 min of warm ischemia followed by 120 min of reperfusion. The number of labeled KCs and platelets in sinusoids and the blood perfusion in sinusoids were observed by intravital microscopy (IVM), which was performed at 30, 60 and 120 min after reperfusion. To evaluate serum alanine aminotransferase as a marker of liver deterioration, blood samples were taken at the same time as IVM.RESULTS: In the S group, the number of platelets adhering to KCs decreased significantly compared with the N group (120 after reperfusion; 2.9±1.1 cells/acinus vs 4.8±1.2 cells/acinus, P<0.01). The number of KCs in sinusoids was significantly less in the S group than in the N group throughout the observation periods (before ischemia, 19.6±3.3 cells/acinus vs 28.2±4.1 cells/acinus, P<0.01 and 120 min after reperfusion, 29.0±4.3 cells/acinus vs 40.2±3.3 cells/acinus, P<0.01). The blood perfusion of sinusoids 120 min after reperfusion was maintained in the S group more than in the N group. Furthermore, elevation of serum alanine aminotransferase was lower in the S group than in the N group 120 min after reperfusion (99.7±19.8 IU/L vs 166.3±61.1 IU/L, P=0.041), and histological impairment of hepatocyte structure was prevented in the S group. CONCLUSION: Ischemia-reperfusion injury in mild steatotic liver was attenuated compared with normal liver due to the decreased number of KCs and the reduction of the KC-platelet interaction.展开更多
Integrin molecules are transmembraneαβheterodimers involved in cell adhesion,trafficking,and signaling.Upon activation,integrins undergo dynamic conformational changes that regulate their affinity to ligands.The phy...Integrin molecules are transmembraneαβheterodimers involved in cell adhesion,trafficking,and signaling.Upon activation,integrins undergo dynamic conformational changes that regulate their affinity to ligands.The physiological functions and activation mechanisms of integrins have been heavily discussed in previous studies and reviews,but the fluorescence imaging techniques-which are powerful tools for biological studies-have not.Here we review the fluorescence labeling methods,imaging techniques,as well as Förster resonance energy transfer assays used to study integrin expression,localization,activation,and functions.展开更多
While emerging data suggest nucleotide oligomerization domain receptor 1(NOD1),a cytoplasmic pattern recognition receptor,may play an important and complementary role in the immune response to bacterial infection,its ...While emerging data suggest nucleotide oligomerization domain receptor 1(NOD1),a cytoplasmic pattern recognition receptor,may play an important and complementary role in the immune response to bacterial infection,its role in cancer metastasis is entirely unknown.Hence,we sought to determine the effects of NOD1 on metastasis.NOD1 expression in paired human primary colon cancer,human and murine colon cancer cells were determined using immunohistochemistry and immunoblotting(WB).Clinical significance of NOD1 was assessed using TCGA survival data.A series of in vitro and in vivo functional assays,including adhesion,migration,and metastasis,was conducted to assess the effect of NOD1.C12-iE-DAP,a highly selective NOD1 ligand derived from gram-negative bacteria,was used to activate NOD1.ML130,a specific NOD1 inhibitor,was used to block C12-iE-DAP stimulation.Stable knockdown(KD)of NOD1 in human colon cancer cells(HT29)was constructed with shRNA lentiviral transduction and the functional assays were thus repeated.Lastly,the predominant signaling pathway of NOD1-activation was identified using WB and functional assays in the presence of specific kinase inhibitors.Our data demonstrate that NOD1 is highly expressed in human colorectal cancer(CRC)and human and murine CRC cell lines.Clinically,we demonstrate that this increased NOD1 expression negatively impacts survival in patients with CRC.Subsequently,we identify NOD1 activation by C12-iE-DAP augments CRC cell adhesion,migration and metastasis.These effects are predominantly mediated via the p38 mitogen activated protein kinase(MAPK)pathway.This is the first study implicating NOD1 in cancer metastasis,and thus identifying this receptor as a putative therapeutic target.展开更多
Mammalian target of rapamycin(mTOR),a serine/threonine kinase orchestrating cellular metabolism,is a crucial immune system regulator.However,it remains unclear how mTOR regulates dendritic cell(DC) function in vivo,es...Mammalian target of rapamycin(mTOR),a serine/threonine kinase orchestrating cellular metabolism,is a crucial immune system regulator.However,it remains unclear how mTOR regulates dendritic cell(DC) function in vivo,especially DC-T cell encounters,a critical step for initiating adaptive immune responses.We dynamically visualized DC-T contacts in mouse lymph node using confocal microscopy and established an encounter model to characterize the effect of mTOR inhibition on DC-T cell encounters using DC morphology.Quantitative data showed mTOR inhibition via rapamycin altered DC shape,with an increased form factor(30.17%) and decreased cellular surface area(20.36%) and perimeter(22.43%),which were associated with Cdc42 protein downregulation(52.71%).Additionally,DCs adopted a similar morphological change with Cdc42 inhibition via ZCL278 as that observed with mTOR inhibition.These morphologically altered DCs displayed low encounter rates with T cells.Time-lapse imaging data of T cell motility supported the simulated result of the encounter model,where antigen-specific T cells appeared to reduce arrest in the lymph nodes of rapamycin-pretreated mice relative to the untreated group.Therefore,mTOR inhibition altered DC morphology in vivo and decreased the DC-T cell encounter rate,as well as Cdc42 inhibition.By establishing an encounter model,our study provides an intuitive approach for the early prediction of DC function through morphological quantification of form factor and area.展开更多
CD8+ T cells play a critical role in hepatitis B virus (HBV) pathogenesis. During acute, self-limited infections, these cells are instrumental to viral clearance; in chronic settings, they sustain repetitive cycles...CD8+ T cells play a critical role in hepatitis B virus (HBV) pathogenesis. During acute, self-limited infections, these cells are instrumental to viral clearance; in chronic settings, they sustain repetitive cycles of hepatocellular necrosis that promote hepatocellular carcinoma development. Both CD8+ T-cell defensive and destructive functions are mediated by antigen-experienced effector cells and depend on the ability of these cells to migrate to the liver, recognize hepatocellular antigens and perform effector functions. Understanding the signals that modulate the spatiotemporal dynamics of CD8+ T cells in the liver, particularly in the context of antigen recognition, is therefore critical to gaining insight into the pathogenesis of acute and chronic HBV infection. Here, we highlight recent data on how effector CD8+ T cells traffic within the liver, and we discuss the potential for novel imaging techniques to shed light on this important aspect of HBV pathogenesis.展开更多
基金supported by the Ministry of Science,ICT and Future Planning(MSIP)through the National Research Foundation of Korea(NRF)(RS-2024-00450201)supported by a grant from the Korea Health Technology R&D Project through the Korea Health Industry Development Institute(KHIDI),funded by the Ministry of Health and Welfare,Republic of Korea(HI22C1374).
文摘We developed an imaging technique combining two-photon computed super-resolution microscopy and suction-based stabilization to achieve the resolution of the single-cell level and organelles in vivo.To accomplish this,a conventional two-photon microscope was equipped with a 3D-printed holders,which stabilize the tissue surface within the focal plane of immersion objectives.Further computational image stabilization and noise reduction were applied,followed by superresolution radial fluctuations(SRRF)analysis,doubling image resolution,and enhancing signal-to-noise ratios for in vivo subcellular process investigation.Stabilization of<1μm was obtained by suction,and<25 nm were achieved by subsequent algorithmic image stabilization.A Mito-Dendra2 mouse model,expressing green fluorescent protein(GFP)in mitochondria,demonstrated the potential of long-term intravital subcellular imaging.In vivo mitochondrial fission and fusion,mitochondrial status migration,and the effects of alcohol consumption(modeled as an alcoholic liver disease)and berberine treatment on hepatocyte mitochondrial dynamics are directly observed intravitally.Suction-based stabilization in two-photon intravital imaging,coupled with computational super-resolution holds promise for advancing in vivo subcellular imaging studies.
文摘Using potted seedlings of Chlorophytum comosum var. variegatum as the experimental materials, the effect of 2.0 mmol/L methyl orange ( Treatment T1 ), 1.0 mmol/L methyl violet ( Treatment T2 ) and 1.0 mmol/L neutral red ( Treatment T3 ) on the biomass, root-shoot ratio, leaf color indices, plant carbon and nitrogen nutrition were studied. The results showed that the biomass of Treatment T3 was significantly greater than that of treatments T1 and CK. The root-shoot ratio decreased significantly in treatments T1, T2 and T3 , and the decrease in T3 was most obvious. In all the three treatments with coloring agent, a ^* , b ^* and L ^* values were increased gradually, C value were decreased, H0 and CIRG were increased, and the leaves were pink. In addition, the contents of chlorophyll a, chlorophyll b, chlorophyll a + b and carotenoid were significantly decreased. The contents of soluble sugar and starch were also decreased, and the decrease in Treatment T2 was most significant. The contents of soluble protein and total nitrogen were increased, and the increase was most dramatic in Treatment T3. The carbon to nitrogen ratio was decreased. The results proved that staining can improve the ornamental value of indoor plants, despite its effects on plant carbon and nitrogen nutrition of C. comosum vat. variegatum, dyeing.
基金National Key Research and Development Program of China,Grant/Award Number:2017YFA0700403Hainan University Scientific Research Foundation,Grant/Award Number:(KYQD(ZR)20078)。
文摘The use of optical microscopy and labeling methods in intravital imaging allows for direct tracking of cell behavior and dynamic changes at the molecular level in the physiological or pathological microenvironment of living animals,revealing the spatiotemporal information of individual cells in the immune response.The liver is an immunological organ that contains unique innate and adaptive immune cells,including Kupffer cells(KCs)and different types of T cells,and is involved in coordinating multiple immune responses in the body.Using intravital imaging to visualize the movement behaviors and functions of immune cells during the reaction processes of the liver under physiological and pathological conditions has shed new light on the understanding of liver immunity,which is of great significance for the diagnosis and treatment of liver diseases.This review introduces various window models and labeling methods for the liver in intravital optical imaging and describes how it provides movement behavior and functional information about different types of immune cells,such as KCs and T cells,in the liver.Additionally,we highlight recent advances in intravital optical imaging of liver diseases,such as nonalcoholic fatty liver disease,infections,and tumors.This review aims to be a useful resource for comprehending the developments and achievements in intravital imaging of the liver and uncovering spatiotemporal information of immune response in a living microenvironment.
基金the financial support from the National Natural Science Foundation of China(22275124,22475134,62475160,T2421003,62075135)Shenzhen University 2035 Program for Excellent Research(868-000003011036)Start-up Grant from Shenzhen University(868-000001032113,868-000001032219).
文摘Three-photon(3P)fluorescence imaging(FLI)utilizing excitation wavelengths within the near-infrared-Ⅲ (NIR-Ⅲ,1600-1870 nm)window has emerged as a transformative modality for intravital imaging,owing to its combined advantages of excellent spatiotemporal resolution and remarkable tissue penetration.High-performance fluorescent probes are the cornerstone of highquality NIR-Ⅲ3P FLI.However,the construction of such probes is often hindered by inherent trade-offs in molecular design principles,posing significant challenges for their performance optimization and practical application.Here,we propose a straightforward and effective strategy based onπ-bridge manipulation to reconcile those competing molecular design parameters and substantially enhance 3P fluorescence properties.Leveraging this approach,a robust AIE-active small molecule,named TSSID,was developed,which exhibits bright NIR-I(700-950 nm)emission under 1665 nm NIR-Ⅲ3P excitation when formulated into nanoparticles(NPs).Remarkably,upon retro-orbital injection into mice following craniotomy,TSSID NPs achieved the best performance in deep-brain angiography among all reported organic 3P materials in terms of vascular imaging depth,signalto-background ratio,spatial resolution,and hemodynamic imaging depth.Additionally,TSSID NPs demonstrated outstanding biocompatibility through systematic biosafety evaluations.This study provides an excellent imaging agent and useful molecular design philosophy,facilitating the development of advanced organic 3P FLI probes.
基金supported by the National Natural Science Foundation of China(22275124,22475134)Guangdong Basic and Applied Basic Research Foundation(2025A1515010662)+1 种基金Shenzhen University 2035 Program for Excellent Research(868-000003011036)Scientific Foundation for Youth Scholars of Shenzhen University(868-000001032113,868–000001032219).
文摘The vasculature,as the essential biological network for oxygen and nutrients delivery and the dynamic regulatory center for physiological processes,is fundamentally important for maintaining human health and life quality.Accurate visualization of vascular structures,as well as real-time monitoring of hemodynamic parameters and molecular profiles associated with vascular function,are therefore crucial for early diagnosis and preventive interventions of vascular diseases.Fluorescence imaging technology,particularly in the second near-infrared window(NIR-II;1000–1700 nm),offers distinct advantages for these demanding imaging requirements not only due to its high sensitivity,excellent spatial resolution,and real-time monitoring capability but also thanks to the superior signal-to-background ratio and large tissue penetration depth of NIR-II fluorescence.Among diverse NIR-II fluorescent probes,aggregation-induced emission luminogens(AIEgens)stand out for their intrinsic organic nature and,more importantly,for their unique aggregation-enhanced emission properties,which clearly differentiates them from traditional fluorophores and enable high-resolution imaging.Currently,a series of high-performance NIR-II AIEgens featuring relatively high fluorescence brightness and long emission wavelengths with emission tails even extending into the NIR-IIa(1300–1400 nm)and NIR-IIb(1500–1700 nm)subwindows have been reported and demonstrated encouraging results in intravital fluorescence angiography.This minireview summarizes recent advances in NIR-II AIEgens for various vascular imaging applications,categorized by anatomical locations,including cerebral,abdominal,hindlimb,ear,axillary,renal,and tumor angiography.The molecular design strategies and nanoengineering approaches to achieve longer emission wavelengths,higher fluorescence brightness,and improved bioavailability are highlighted.Finally,the remaining challenges and future directions are discussed from the aspects of materials engineering,application scenarios expansion,and clinical translation.
基金The Thailand Research Fund, No. MRG4980032partially supported by The National Center for Genetic Engineering and Biotechnology, Thailand
文摘AIM: To determine the effect of tetrahydrocurcumin (THC) on tumor angiogenesis compared with curcumin (CUR) by using both in vitro and in vivo models of human hepatocellular carcinoma cell line (HepG2). METHODS: The 3-(4,5-dimethylthiazol-2-yl)-2, 5-diphenyl-tetrazolium bromide (MTT) assay was used for testing the anti-proliferating activities of CUR and THC. In male BALB/c nude mice, 2 × 106 human HepG2 cells were inoculated onto a dorsal skin-fold chamber. One day after HepG2 inoculation, the experimental groups were fed oral daily with CUR or THC (300 mg/kg or 3000 mg/kg). On d 7, 14 and 21, the tumor microvasculature was observed using fluorescence videomicroscopy and capillary vascularity (CV) was measured. RESULTS: Pathological angiogenic features including microvascular dilatation, tortuosity, and hyper-permeability were observed. CUR and THC could attenuate these pathologic features. In HepG2-groups, the CV were significantly increased on d 7 (52.43%), 14 (69.17%), and 21 (74.08%), as compared to controls (33.04%,P < 0.001). Treatment with CUR and THC resulted in significant decrease in the CV (P < 0.005 and P < 0.001, respectively). In particular, the anti-angiogenic effects of CUR and THC were dose-dependent manner. However, the beneficial effect of THC treatment than CUR was observed, in particular, from the 21 d CV (44.96% and 52.86%, P < 0.05). CONCLUSION: THC expressed its anti-angiogenesis without any cytotoxic activities to HepG2 cells even at the highest doses. It is suggested that anti-angiogenic properties of CUR and THC represent a common potential mechanism for their anti-cancer actions.
文摘AIM: To investigate microvascular injury quantitatively in the small bowel with respect to cardiopulmonary bypass (CPB) and related mechanisms. METHODS: In 10 male SD rats, normothermic CPB was established and continued with a flow rate of 100-150 mL/kg per minute for 60 min, while another 10 sham-operated animals served as controls. An approximate 10-cm loop of the terminal ileum was exteriorized for observation by means of intravital fluorescence microscopy. The small bowel microcirculatory network including arterioles, capillaries, and collecting venules was observed prior to CPB, CPB 30 min, CPB 60 min, post-CPB 60 min and post-CPB 120 rain. The intestinal capillary perfusion, microvascular permeability and leukocyte adherence were also measured. RESULTS: The systemic hemodynamics remained stable throughout the experiment in both groups. In CPB animals, significant arteriolar vasoconstriction, blood velocity reduction and functional capillary density diminution were found. As concomitances, exaggerated albumin extravasation and increased leukocyte accumulation were also noted. These changes were more pronounced and there were no signs of restitution at the end of the observation period. CONCLUSION: CPB induces significant microcirculatory injury of the small bowel in rats. The major underlying mechanisms are blood flow redistribution and generalized inflammatory response associated with CPB.
基金Supported by The Ministry of Education, Culture, Sports, Science, and Technology of Japan, KAKENHI, No. 22591499
文摘AIM: To investigate the effect of mild steatotic liver on ischemia-reperfusion injury by focusing on Kupffer cells (KCs) and platelets. METHODS: Wistar rats were divided into a normal liver group (N group) and a mild steatotic liver group (S group) induced by feeding a choline-deficient diet for 2 wk. Both groups were subjected to 20 min of warm ischemia followed by 120 min of reperfusion. The number of labeled KCs and platelets in sinusoids and the blood perfusion in sinusoids were observed by intravital microscopy (IVM), which was performed at 30, 60 and 120 min after reperfusion. To evaluate serum alanine aminotransferase as a marker of liver deterioration, blood samples were taken at the same time as IVM.RESULTS: In the S group, the number of platelets adhering to KCs decreased significantly compared with the N group (120 after reperfusion; 2.9±1.1 cells/acinus vs 4.8±1.2 cells/acinus, P<0.01). The number of KCs in sinusoids was significantly less in the S group than in the N group throughout the observation periods (before ischemia, 19.6±3.3 cells/acinus vs 28.2±4.1 cells/acinus, P<0.01 and 120 min after reperfusion, 29.0±4.3 cells/acinus vs 40.2±3.3 cells/acinus, P<0.01). The blood perfusion of sinusoids 120 min after reperfusion was maintained in the S group more than in the N group. Furthermore, elevation of serum alanine aminotransferase was lower in the S group than in the N group 120 min after reperfusion (99.7±19.8 IU/L vs 166.3±61.1 IU/L, P=0.041), and histological impairment of hepatocyte structure was prevented in the S group. CONCLUSION: Ischemia-reperfusion injury in mild steatotic liver was attenuated compared with normal liver due to the decreased number of KCs and the reduction of the KC-platelet interaction.
基金This work was supported by funding from the National Institutes of Health,USA(NIH,R01HL145454)a startup fund from UConn Health.
文摘Integrin molecules are transmembraneαβheterodimers involved in cell adhesion,trafficking,and signaling.Upon activation,integrins undergo dynamic conformational changes that regulate their affinity to ligands.The physiological functions and activation mechanisms of integrins have been heavily discussed in previous studies and reviews,but the fluorescence imaging techniques-which are powerful tools for biological studies-have not.Here we review the fluorescence labeling methods,imaging techniques,as well as Förster resonance energy transfer assays used to study integrin expression,localization,activation,and functions.
文摘While emerging data suggest nucleotide oligomerization domain receptor 1(NOD1),a cytoplasmic pattern recognition receptor,may play an important and complementary role in the immune response to bacterial infection,its role in cancer metastasis is entirely unknown.Hence,we sought to determine the effects of NOD1 on metastasis.NOD1 expression in paired human primary colon cancer,human and murine colon cancer cells were determined using immunohistochemistry and immunoblotting(WB).Clinical significance of NOD1 was assessed using TCGA survival data.A series of in vitro and in vivo functional assays,including adhesion,migration,and metastasis,was conducted to assess the effect of NOD1.C12-iE-DAP,a highly selective NOD1 ligand derived from gram-negative bacteria,was used to activate NOD1.ML130,a specific NOD1 inhibitor,was used to block C12-iE-DAP stimulation.Stable knockdown(KD)of NOD1 in human colon cancer cells(HT29)was constructed with shRNA lentiviral transduction and the functional assays were thus repeated.Lastly,the predominant signaling pathway of NOD1-activation was identified using WB and functional assays in the presence of specific kinase inhibitors.Our data demonstrate that NOD1 is highly expressed in human colorectal cancer(CRC)and human and murine CRC cell lines.Clinically,we demonstrate that this increased NOD1 expression negatively impacts survival in patients with CRC.Subsequently,we identify NOD1 activation by C12-iE-DAP augments CRC cell adhesion,migration and metastasis.These effects are predominantly mediated via the p38 mitogen activated protein kinase(MAPK)pathway.This is the first study implicating NOD1 in cancer metastasis,and thus identifying this receptor as a putative therapeutic target.
基金supported by the Science Fund for Creative Research Groups of the National Natural Science Foundation of China (61721092)the Major Research Plan of the National Natural Science Foundation of China (91542000, 91442201)+2 种基金National Science Fund for Distinguished Young Scholars (81625012)National Natural Science Foundation of China (81501593)the Director Fund of WNLO
文摘Mammalian target of rapamycin(mTOR),a serine/threonine kinase orchestrating cellular metabolism,is a crucial immune system regulator.However,it remains unclear how mTOR regulates dendritic cell(DC) function in vivo,especially DC-T cell encounters,a critical step for initiating adaptive immune responses.We dynamically visualized DC-T contacts in mouse lymph node using confocal microscopy and established an encounter model to characterize the effect of mTOR inhibition on DC-T cell encounters using DC morphology.Quantitative data showed mTOR inhibition via rapamycin altered DC shape,with an increased form factor(30.17%) and decreased cellular surface area(20.36%) and perimeter(22.43%),which were associated with Cdc42 protein downregulation(52.71%).Additionally,DCs adopted a similar morphological change with Cdc42 inhibition via ZCL278 as that observed with mTOR inhibition.These morphologically altered DCs displayed low encounter rates with T cells.Time-lapse imaging data of T cell motility supported the simulated result of the encounter model,where antigen-specific T cells appeared to reduce arrest in the lymph nodes of rapamycin-pretreated mice relative to the untreated group.Therefore,mTOR inhibition altered DC morphology in vivo and decreased the DC-T cell encounter rate,as well as Cdc42 inhibition.By establishing an encounter model,our study provides an intuitive approach for the early prediction of DC function through morphological quantification of form factor and area.
文摘CD8+ T cells play a critical role in hepatitis B virus (HBV) pathogenesis. During acute, self-limited infections, these cells are instrumental to viral clearance; in chronic settings, they sustain repetitive cycles of hepatocellular necrosis that promote hepatocellular carcinoma development. Both CD8+ T-cell defensive and destructive functions are mediated by antigen-experienced effector cells and depend on the ability of these cells to migrate to the liver, recognize hepatocellular antigens and perform effector functions. Understanding the signals that modulate the spatiotemporal dynamics of CD8+ T cells in the liver, particularly in the context of antigen recognition, is therefore critical to gaining insight into the pathogenesis of acute and chronic HBV infection. Here, we highlight recent data on how effector CD8+ T cells traffic within the liver, and we discuss the potential for novel imaging techniques to shed light on this important aspect of HBV pathogenesis.
