Hepatocellular carcinoma(HCC)is a highly heterogeneous malignancy and lacks effective treatment.Bulk-sequencing of different gene transcripts by comparing HCC tissues and adjacent normal tissues provides some clues fo...Hepatocellular carcinoma(HCC)is a highly heterogeneous malignancy and lacks effective treatment.Bulk-sequencing of different gene transcripts by comparing HCC tissues and adjacent normal tissues provides some clues for investigating the mechanisms or identifying potential targets for tumor progression.However,genes that are exclusively expressed in a subpopulation of HCC may not be enriched or detected through such a screening.In the current study,we performed a single cell-clone-based screening and identified galectin-14 as an essential molecule in the regulation of tumor growth.The aberrant expression of galectin-14 was significantly associated with a poor overall survival of liver cancer patients with database analysis.Knocking down galectin-14 inhibited the proliferation of tumor growth,whereas overexpressing galectin-14 promoted tumor growth in vivo.Non-targeted metabolomics analysis indicated that knocking down galectin-14 decreased glycometabolism;specifically that glycoside synthesis was significantly changed.Further study found that galectin-14 promoted the expression of cell surface heparan sulfate proteoglycans(HSPGs)that functioned as co-receptors,thereby increasing the responsiveness of HCC cells to growth factors,such as epidermal growth factor and transforming growth factor-alpha.In conclusion,the current study identifies a novel HCC-specific molecule galectin-14,which increases the expression of cell surface HSPGs and the uptake of growth factors to promote HCC cell proliferation.展开更多
Many mammalian herpes viruses utilize heparan sulfate (HS) moieties present on cell surface proteoglycans as receptors for cell entry, and this process also requires viral glycoprotein C (gC) homologues. However, ...Many mammalian herpes viruses utilize heparan sulfate (HS) moieties present on cell surface proteoglycans as receptors for cell entry, and this process also requires viral glycoprotein C (gC) homologues. However, our understanding of the role of gC in facilitating attachment of other alpha-herpes viruses such as the duck plague virus (DPV) remains preliminary. To study the role of gC during DPV infection, we used a gC-deleted mutant virus (DPV-AgC-EGFP). Examination of the viral copy number by real-time PCR, as well as time course studies of viral adsorption and proliferation revealed that gC was involved in the viral binding to the cell surface. The affinity of viral glycoproteins (gB-DPV, gC-DPV, and gE-DPV) to HS was assessed using a prokaryotic expression system and HJTrapTM HeparJn HP column chromatography. In addition, to confirm that gC played a role in the interaction between DPV and HS, viruses were treated with the HS analogue heparin and host cells were treated with its inhibitors heparinase prior to exposure to DPV-△gC-EGFP or wild-type strain Chinese virulent duck plague virus (DPV-CHv). The effects of heparin and heparinase on virus infectivity demonstrated that function of gC on Viral adsorption is independent of interactions between gC and heparin sulfate on cell surface. All in all, this study demonstrated that the gC of DPV can mediate viral adsorption in an HS-independent manner, which distinguish it from the gC of some other alpha-herpes viruses. Future studies will be required to identify the receptors involved in gC protein binding to cells. This work provides us a foundation for further studies of examining the roles of gC in the adsorption during duck plague virus infection.展开更多
Herpes simplex virus type-1 (HSV-1) is one of many pathogens that use the cell surface glycosaminoglycan heparan sulfate as a receptor. Heparan sulfate is highly expressed on the surface and extracellular matrix of vi...Herpes simplex virus type-1 (HSV-1) is one of many pathogens that use the cell surface glycosaminoglycan heparan sulfate as a receptor. Heparan sulfate is highly expressed on the surface and extracellular matrix of virtually all cell types making it an ideal receptor. Heparan sulfate interacts with HSV-1 envelope glycoproteins gB and gC during the initial attachment step during HSV-1 entry. In addition,a modified form of heparan sulfate,known as 3-O-sulfated heparan sulfate,interacts with HSV-1 gD to induce fusion between the viral envelope and host cell membrane. The 3-O-sulfation of heparan sulfate is a rare modification which occurs during the biosynthesis of heparan sulfate that is carried out by a family of enzymes known as 3-O-sulfotransferases. Due to its involvement in multiple steps of the infection process,heparan sulfate has been a prime target for the development of agents to inhibit HSV entry. Understanding how heparan sulfate functions during HSV-1 infection may not only be critical for inhibiting infection by this virus,but it may also be crucial in the fight against many other pathogens as well.展开更多
One reason for the poor therapeutic effects of stem cell transplantation in traumatic brain injury is that exogenous neural stem cells cannot effectively migrate to the local injury site,resulting in poor adhesion and...One reason for the poor therapeutic effects of stem cell transplantation in traumatic brain injury is that exogenous neural stem cells cannot effectively migrate to the local injury site,resulting in poor adhesion and proliferation of neural stem cells at the injured area.To enhance the targeted delivery of exogenous stem cells to the injury site,cell therapy combined with neural tissue engineering technology is expected to become a new strategy for treating traumatic brain injury.Collagen/heparan sulfate porous scaffolds,prepared using a freeze-drying method,have stable physical and chemical properties.These scaffolds also have good cell biocompatibility because of their high porosity,which is suitable for the proliferation and migration of neural stem cells.In the present study,collagen/heparan sulfate porous scaffolds loaded with neural stem cells were used to treat a rat model of traumatic brain injury,which was established using the controlled cortical impact method.At 2 months after the implantation of collagen/heparan sulfate porous scaffolds loaded with neural stem cells,there was significantly improved regeneration of neurons,nerve fibers,synapses,and myelin sheaths in the injured brain tissue.Furthermore,brain edema and cell apoptosis were significantly reduced,and rat motor and cognitive functions were markedly recovered.These findings suggest that the novel collagen/heparan sulfate porous scaffold loaded with neural stem cells can improve neurological function in a rat model of traumatic brain injury.This study was approved by the Institutional Ethics Committee of Characteristic Medical Center of Chinese People’s Armed Police Force,China(approval No.2017-0007.2)on February 10,2019.展开更多
Heparan sulfate (HS) is ubiquitously expressed on the surfaces and in the extracellular matrix of virtually all cell types, making it an ideal receptor for viral infection. Compared with wild‐type viruses, cell cul...Heparan sulfate (HS) is ubiquitously expressed on the surfaces and in the extracellular matrix of virtually all cell types, making it an ideal receptor for viral infection. Compared with wild‐type viruses, cell culture‐adapted laboratory strains exhibit more efficient binding to cellular HS receptors. HS‐binding viruses are typically cleared faster from the circulation and cause lower viremia than their non‐HS‐binding counterparts, suggesting that the HS‐binding phenotype is a tissue culture adaptation that lowers virus fitness in vivo. However, when inoculated intracranially, efficient cell attachment through HS binding can contribute to viral neurovirulence. The primary aim of this review is to discuss the roles of HS binding in viral pathogenicity, including peripheral virulence and neurovirulence. Understanding how heparan sulfate functions during virus infection in vivo may prove critical for elucidating the molecular mechanism of viral pathogenesis, and may contribute to the development of therapeutics targeting HS.展开更多
To explore the effects of ligustrazine on bone marrow heparan sulfates (HS) expression in bone marrow transplantation (BMT) mice, the syngeneic BMT mice were orally given 2 mg ligustrazine twice a day. On the 7th, 10t...To explore the effects of ligustrazine on bone marrow heparan sulfates (HS) expression in bone marrow transplantation (BMT) mice, the syngeneic BMT mice were orally given 2 mg ligustrazine twice a day. On the 7th, 10th, 14th, 18th day after BMT, peripheral blood cells and bone marrow nuclear cells (BMNC) were counted, and the expression levels of HS in bone marrow and on the stromal cell surfaces were detected by immunohistochemistry and flow cytometry assay respectively. In ligustrazine-treated group, the white blood cells (WBC) and BMNC on the 7th, 10th, 14th, 18th day and platelets (PLT) on the 7th, 10th day were all significantly more than those in control group (P<0.05). The bone marrow HS expression levels in ligustrazine-treated group were higher than those in control group (P<0.05) on the 7th, 10th, 14th, 18th day. However, the HS expression levels on the stromal cell surfaces showed no significant difference between the two groups on the 18th day (P>0.05). It was concluded that ligustrazine could up-regulate HS expression in bone marrow, which might be one of the mechanisms contributing to ligustrazine promoting hematopoietic reconstitution after BMT.展开更多
To explore the effects of platelet factor 4(PF4) on hematopoietic reconstitution and its mechanism in syngenic bone marrow transplantation (BMT). The syngenic B MT mice models were established. 20 and 26 h before irr...To explore the effects of platelet factor 4(PF4) on hematopoietic reconstitution and its mechanism in syngenic bone marrow transplantation (BMT). The syngenic B MT mice models were established. 20 and 26 h before irradiation, the mice were injected 20 μg/kg PF4 or PBS twice into abdominal cavity, then the donor bone marrow nuclear cells (BMNC) were transplanted. On the 7th day, spleen clone forming units (CFU S) were counted. On the 7th, 14th and 21st day after BMT, the BMNC and megakaryoryocytes in bone marrow tissue were counted and the percentage of hematopoietic tissue and expression level of heparan sulfate in bone marrow tissue were assessed. In PF4 treated groups, the CFU S counts on the 7th day were higher than those in BMT groups after BMT. The BMNC and megakaryoryocyte counts and the percentage of hematopoietic tissue and heparan sulfate expression level were higher than those in BMT group on the 7th, 14th and 21st day after BMT ( P <0.01 or P <0.05). PF4 could accelerate hematopoietic reconstitution of syngenic bone marrow transplantation. The promotion of the heparan sulfate expression in bone marrow may be one of mechanisms of PF4.展开更多
The pharmaceutical and anticoagulant agent heparin,a member of the glycosaminoglycan family of carbohydrates,has previously been identified as a potent inhibitor of a key Alzheimer’s disease drug target,the primary n...The pharmaceutical and anticoagulant agent heparin,a member of the glycosaminoglycan family of carbohydrates,has previously been identified as a potent inhibitor of a key Alzheimer’s disease drug target,the primary neuronalβ-secretase,β-site amyloid precursor protein cleaving enzyme 1(BACE1).The anticoagulant activity of heparin has,however,precluded the repurposing of this widely used pharmaceutical as an Alzheimer’s disease therapeutic.Here,a glycosaminoglycan extract,composed predominantly of 4-sulfated chondroitin sulfate,has been isolated from Sardina pilchardus,which possess the ability to inhibit BACE1(IC50[half maximal inhibitory concentration]=4.8μg/mL),while displaying highly attenuated anticoagulant activities(activated partial thromboplastin time EC50[median effective concentration]=403.8μg/mL,prothrombin time EC50=1.3 mg/mL).The marine-derived,chondroitin sulfate extract destabilizes BACE1,determined via differential scanning fluorimetry(ΔTm–5°C),to a similar extent as heparin,suggesting that BACE1 inhibition by glycosaminoglycans may occur through a common mode of action,which may assist in the screening of glycan-based BACE1 inhibitors for Alzheimer’s disease.展开更多
目的:观察泽泻萜类化合物对ApoE基因敲除小鼠实验性动脉粥样硬化肝脏基底膜硫酸乙酰肝素蛋白多糖的调节作用。方法:将8周龄C57/BL小鼠12只设为正常对照组,8周龄ApoE基因缺陷小鼠36只随机分为3组:模型组、中药组、舒降之阳性对照组。正...目的:观察泽泻萜类化合物对ApoE基因敲除小鼠实验性动脉粥样硬化肝脏基底膜硫酸乙酰肝素蛋白多糖的调节作用。方法:将8周龄C57/BL小鼠12只设为正常对照组,8周龄ApoE基因缺陷小鼠36只随机分为3组:模型组、中药组、舒降之阳性对照组。正常对照组、模型组予0.9%生理盐水灌胃,给药组正常人每kg体重的10倍量灌胃90天后,全自动生化仪测定血清血脂含量,用免疫印记法测定各组肝脏基底膜硫酸乙酰肝素蛋白多糖的表达,用Quantity One 6.0软件进行光密度分析。结果:中药组、阳性对照药组与模型组比较,总胆固醇、低密度脂蛋白水平均明显降低。中药组、阳性对照药组肝脏基底膜HSPG表达与模型组比较明显上调,但与正常对照组比较则明显下调。结论:泽泻萜类化合物对apoE-基因敲除高脂饲料喂养所致动脉粥样硬化小鼠具有降低血清总胆固醇、低密度脂蛋白的作用,对该模型小鼠的肝脏基底膜HSPG表达有调节作用。展开更多
Mucopolysaccharidoses typeⅢB is a rare genetic disorder caused by mutations in the gene that encodes for N-acetyl-alpha-glucosaminidase.This results in the aggregation of heparan sulfate polysaccharides within cell l...Mucopolysaccharidoses typeⅢB is a rare genetic disorder caused by mutations in the gene that encodes for N-acetyl-alpha-glucosaminidase.This results in the aggregation of heparan sulfate polysaccharides within cell lysosomes that leads to progressive and severe debilitating neurological dysfunction.Current treatment options are expensive,limited,and presently there are no approved cures for mucopolysaccharidoses typeⅢB.Adeno-associated virus gene therapy has significantly advanced the field forward,allowing researchers to successfully design,enhance,and improve potential cures.Our group recently published an effective treatment using a codon-optimized triple mutant adeno-associated virus 8 vector that restores N-acetyl-alpha-glucosaminidase levels,auditory function,and lifespan in the murine model for mucopolysaccharidoses typeⅢB to that seen in healthy mice.Here,we review the current state of the field in relation to the capsid landscape,adeno-associated virus gene therapy and its successes and challenges in the clinic,and how novel adenoassociated virus capsid designs have evolved research in the mucopolysaccharidoses typeⅢB field.展开更多
基金The current study was supported by the National Natural Science Foundation of China(Grant Nos 81972284 and 82273239)the Natural Science Foundation of the Jiangsu Higher Education Institutions of China(Grant No.22KJB310001)Nanjing Medical University Science and Technology Development Foundation(Grant Nos.NMUB-20220050 and NMUB20210006).
文摘Hepatocellular carcinoma(HCC)is a highly heterogeneous malignancy and lacks effective treatment.Bulk-sequencing of different gene transcripts by comparing HCC tissues and adjacent normal tissues provides some clues for investigating the mechanisms or identifying potential targets for tumor progression.However,genes that are exclusively expressed in a subpopulation of HCC may not be enriched or detected through such a screening.In the current study,we performed a single cell-clone-based screening and identified galectin-14 as an essential molecule in the regulation of tumor growth.The aberrant expression of galectin-14 was significantly associated with a poor overall survival of liver cancer patients with database analysis.Knocking down galectin-14 inhibited the proliferation of tumor growth,whereas overexpressing galectin-14 promoted tumor growth in vivo.Non-targeted metabolomics analysis indicated that knocking down galectin-14 decreased glycometabolism;specifically that glycoside synthesis was significantly changed.Further study found that galectin-14 promoted the expression of cell surface heparan sulfate proteoglycans(HSPGs)that functioned as co-receptors,thereby increasing the responsiveness of HCC cells to growth factors,such as epidermal growth factor and transforming growth factor-alpha.In conclusion,the current study identifies a novel HCC-specific molecule galectin-14,which increases the expression of cell surface HSPGs and the uptake of growth factors to promote HCC cell proliferation.
基金supported by the grants from the National Natural Science Foundation of China(31072157)the National Key Technologies R&D Program of China during the 12th Five-Year Plan period(2015BAD12B05)+1 种基金the Foundation of China Agricultural Research System(CARS-43-8)the Major Project of Education Department in Sichuan,China(16ZA0027)
文摘Many mammalian herpes viruses utilize heparan sulfate (HS) moieties present on cell surface proteoglycans as receptors for cell entry, and this process also requires viral glycoprotein C (gC) homologues. However, our understanding of the role of gC in facilitating attachment of other alpha-herpes viruses such as the duck plague virus (DPV) remains preliminary. To study the role of gC during DPV infection, we used a gC-deleted mutant virus (DPV-AgC-EGFP). Examination of the viral copy number by real-time PCR, as well as time course studies of viral adsorption and proliferation revealed that gC was involved in the viral binding to the cell surface. The affinity of viral glycoproteins (gB-DPV, gC-DPV, and gE-DPV) to HS was assessed using a prokaryotic expression system and HJTrapTM HeparJn HP column chromatography. In addition, to confirm that gC played a role in the interaction between DPV and HS, viruses were treated with the HS analogue heparin and host cells were treated with its inhibitors heparinase prior to exposure to DPV-△gC-EGFP or wild-type strain Chinese virulent duck plague virus (DPV-CHv). The effects of heparin and heparinase on virus infectivity demonstrated that function of gC on Viral adsorption is independent of interactions between gC and heparin sulfate on cell surface. All in all, this study demonstrated that the gC of DPV can mediate viral adsorption in an HS-independent manner, which distinguish it from the gC of some other alpha-herpes viruses. Future studies will be required to identify the receptors involved in gC protein binding to cells. This work provides us a foundation for further studies of examining the roles of gC in the adsorption during duck plague virus infection.
文摘Herpes simplex virus type-1 (HSV-1) is one of many pathogens that use the cell surface glycosaminoglycan heparan sulfate as a receptor. Heparan sulfate is highly expressed on the surface and extracellular matrix of virtually all cell types making it an ideal receptor. Heparan sulfate interacts with HSV-1 envelope glycoproteins gB and gC during the initial attachment step during HSV-1 entry. In addition,a modified form of heparan sulfate,known as 3-O-sulfated heparan sulfate,interacts with HSV-1 gD to induce fusion between the viral envelope and host cell membrane. The 3-O-sulfation of heparan sulfate is a rare modification which occurs during the biosynthesis of heparan sulfate that is carried out by a family of enzymes known as 3-O-sulfotransferases. Due to its involvement in multiple steps of the infection process,heparan sulfate has been a prime target for the development of agents to inhibit HSV entry. Understanding how heparan sulfate functions during HSV-1 infection may not only be critical for inhibiting infection by this virus,but it may also be crucial in the fight against many other pathogens as well.
基金supported by the National Natural Science Foundation of China,Nos.11672332,11932013(both to XYC)the National Key Research and Development Plan of China,No.2016YFC1101500(to HTS)the Key Science and Technology Support Foundation of Tianjin of China,No.17YFZCSY00620(to HTS).
文摘One reason for the poor therapeutic effects of stem cell transplantation in traumatic brain injury is that exogenous neural stem cells cannot effectively migrate to the local injury site,resulting in poor adhesion and proliferation of neural stem cells at the injured area.To enhance the targeted delivery of exogenous stem cells to the injury site,cell therapy combined with neural tissue engineering technology is expected to become a new strategy for treating traumatic brain injury.Collagen/heparan sulfate porous scaffolds,prepared using a freeze-drying method,have stable physical and chemical properties.These scaffolds also have good cell biocompatibility because of their high porosity,which is suitable for the proliferation and migration of neural stem cells.In the present study,collagen/heparan sulfate porous scaffolds loaded with neural stem cells were used to treat a rat model of traumatic brain injury,which was established using the controlled cortical impact method.At 2 months after the implantation of collagen/heparan sulfate porous scaffolds loaded with neural stem cells,there was significantly improved regeneration of neurons,nerve fibers,synapses,and myelin sheaths in the injured brain tissue.Furthermore,brain edema and cell apoptosis were significantly reduced,and rat motor and cognitive functions were markedly recovered.These findings suggest that the novel collagen/heparan sulfate porous scaffold loaded with neural stem cells can improve neurological function in a rat model of traumatic brain injury.This study was approved by the Institutional Ethics Committee of Characteristic Medical Center of Chinese People’s Armed Police Force,China(approval No.2017-0007.2)on February 10,2019.
基金supported by grants from the National Natural Science Foundation of China (No. 30970160)the Major Science and Technology Project for Infectious Disease (No. 2008ZX10004‐001+1 种基金 2009ZX10004‐705)the Development Grant of the State Key Laboratory for Infectious Disease Prevention and Control (2008SKLID105)
文摘Heparan sulfate (HS) is ubiquitously expressed on the surfaces and in the extracellular matrix of virtually all cell types, making it an ideal receptor for viral infection. Compared with wild‐type viruses, cell culture‐adapted laboratory strains exhibit more efficient binding to cellular HS receptors. HS‐binding viruses are typically cleared faster from the circulation and cause lower viremia than their non‐HS‐binding counterparts, suggesting that the HS‐binding phenotype is a tissue culture adaptation that lowers virus fitness in vivo. However, when inoculated intracranially, efficient cell attachment through HS binding can contribute to viral neurovirulence. The primary aim of this review is to discuss the roles of HS binding in viral pathogenicity, including peripheral virulence and neurovirulence. Understanding how heparan sulfate functions during virus infection in vivo may prove critical for elucidating the molecular mechanism of viral pathogenesis, and may contribute to the development of therapeutics targeting HS.
基金This project was supported by a grant from National Natu-ral Sciences Foundation of China( No. 3 9870 92 6)
文摘To explore the effects of ligustrazine on bone marrow heparan sulfates (HS) expression in bone marrow transplantation (BMT) mice, the syngeneic BMT mice were orally given 2 mg ligustrazine twice a day. On the 7th, 10th, 14th, 18th day after BMT, peripheral blood cells and bone marrow nuclear cells (BMNC) were counted, and the expression levels of HS in bone marrow and on the stromal cell surfaces were detected by immunohistochemistry and flow cytometry assay respectively. In ligustrazine-treated group, the white blood cells (WBC) and BMNC on the 7th, 10th, 14th, 18th day and platelets (PLT) on the 7th, 10th day were all significantly more than those in control group (P<0.05). The bone marrow HS expression levels in ligustrazine-treated group were higher than those in control group (P<0.05) on the 7th, 10th, 14th, 18th day. However, the HS expression levels on the stromal cell surfaces showed no significant difference between the two groups on the 18th day (P>0.05). It was concluded that ligustrazine could up-regulate HS expression in bone marrow, which might be one of the mechanisms contributing to ligustrazine promoting hematopoietic reconstitution after BMT.
基金the National Natural ScienceFoundation(Serial No. 3 9870 92 6)
文摘To explore the effects of platelet factor 4(PF4) on hematopoietic reconstitution and its mechanism in syngenic bone marrow transplantation (BMT). The syngenic B MT mice models were established. 20 and 26 h before irradiation, the mice were injected 20 μg/kg PF4 or PBS twice into abdominal cavity, then the donor bone marrow nuclear cells (BMNC) were transplanted. On the 7th day, spleen clone forming units (CFU S) were counted. On the 7th, 14th and 21st day after BMT, the BMNC and megakaryoryocytes in bone marrow tissue were counted and the percentage of hematopoietic tissue and expression level of heparan sulfate in bone marrow tissue were assessed. In PF4 treated groups, the CFU S counts on the 7th day were higher than those in BMT groups after BMT. The BMNC and megakaryoryocyte counts and the percentage of hematopoietic tissue and heparan sulfate expression level were higher than those in BMT group on the 7th, 14th and 21st day after BMT ( P <0.01 or P <0.05). PF4 could accelerate hematopoietic reconstitution of syngenic bone marrow transplantation. The promotion of the heparan sulfate expression in bone marrow may be one of mechanisms of PF4.
基金financially supported by grants from the Engineering and Physical Sciences Research Council,UK,the Biotechnology and Biological Sciences Research Council,UK,the Medical Research Council,UK,Intellihep Ltd.,UK,MI Engineering Ltd.,UK and Financiadora de Estudos e Projetos
文摘The pharmaceutical and anticoagulant agent heparin,a member of the glycosaminoglycan family of carbohydrates,has previously been identified as a potent inhibitor of a key Alzheimer’s disease drug target,the primary neuronalβ-secretase,β-site amyloid precursor protein cleaving enzyme 1(BACE1).The anticoagulant activity of heparin has,however,precluded the repurposing of this widely used pharmaceutical as an Alzheimer’s disease therapeutic.Here,a glycosaminoglycan extract,composed predominantly of 4-sulfated chondroitin sulfate,has been isolated from Sardina pilchardus,which possess the ability to inhibit BACE1(IC50[half maximal inhibitory concentration]=4.8μg/mL),while displaying highly attenuated anticoagulant activities(activated partial thromboplastin time EC50[median effective concentration]=403.8μg/mL,prothrombin time EC50=1.3 mg/mL).The marine-derived,chondroitin sulfate extract destabilizes BACE1,determined via differential scanning fluorimetry(ΔTm–5°C),to a similar extent as heparin,suggesting that BACE1 inhibition by glycosaminoglycans may occur through a common mode of action,which may assist in the screening of glycan-based BACE1 inhibitors for Alzheimer’s disease.
文摘目的:观察泽泻萜类化合物对ApoE基因敲除小鼠实验性动脉粥样硬化肝脏基底膜硫酸乙酰肝素蛋白多糖的调节作用。方法:将8周龄C57/BL小鼠12只设为正常对照组,8周龄ApoE基因缺陷小鼠36只随机分为3组:模型组、中药组、舒降之阳性对照组。正常对照组、模型组予0.9%生理盐水灌胃,给药组正常人每kg体重的10倍量灌胃90天后,全自动生化仪测定血清血脂含量,用免疫印记法测定各组肝脏基底膜硫酸乙酰肝素蛋白多糖的表达,用Quantity One 6.0软件进行光密度分析。结果:中药组、阳性对照药组与模型组比较,总胆固醇、低密度脂蛋白水平均明显降低。中药组、阳性对照药组肝脏基底膜HSPG表达与模型组比较明显上调,但与正常对照组比较则明显下调。结论:泽泻萜类化合物对apoE-基因敲除高脂饲料喂养所致动脉粥样硬化小鼠具有降低血清总胆固醇、低密度脂蛋白的作用,对该模型小鼠的肝脏基底膜HSPG表达有调节作用。
文摘Mucopolysaccharidoses typeⅢB is a rare genetic disorder caused by mutations in the gene that encodes for N-acetyl-alpha-glucosaminidase.This results in the aggregation of heparan sulfate polysaccharides within cell lysosomes that leads to progressive and severe debilitating neurological dysfunction.Current treatment options are expensive,limited,and presently there are no approved cures for mucopolysaccharidoses typeⅢB.Adeno-associated virus gene therapy has significantly advanced the field forward,allowing researchers to successfully design,enhance,and improve potential cures.Our group recently published an effective treatment using a codon-optimized triple mutant adeno-associated virus 8 vector that restores N-acetyl-alpha-glucosaminidase levels,auditory function,and lifespan in the murine model for mucopolysaccharidoses typeⅢB to that seen in healthy mice.Here,we review the current state of the field in relation to the capsid landscape,adeno-associated virus gene therapy and its successes and challenges in the clinic,and how novel adenoassociated virus capsid designs have evolved research in the mucopolysaccharidoses typeⅢB field.