SOX9通过转化生长因子β信号通路调节角膜内皮损伤后内皮-间质转化过程

目的探究性别决定区Y框蛋白9(sex-determining region Y-box protein 9,SOX9)是否会调控角膜内皮细胞损伤后的角膜上皮-间质转化(endothelial-to-mesenchymal transition,EndMT)过程及具体机制。方法转染小干扰RNA(small interfering RNA,siRNA)敲低人角膜内皮细胞B4G12中SOX9的表达,使用甲萘醌构建体外B4G12细胞损伤模型,设4个分组:si-NC组(转染siRNA-阴性对照)、si-SOX9组(转染siRNA-SOX9)、si-NC+甲萘醌组(转染siRNA-阴性对照后添加外源性甲萘醌做损伤处理)、si-SOX9+甲萘醌组(转染siRNA-SOX9后添加外源性甲萘醌做损伤处理)。通过实时荧光逆转录聚合酶链反应(real-time reverse transcription polymerase chain reaction,RT-PCR)和Western blot检测各组细胞中EndMT关键因子Snail家族转录抑制因子2(snail family transcriptional repressor 2,SNAIL2)及相关信号通路关键因子表达变化,阐明SOX9调控EndMT过程的功能和机制。结果转染siRNA-SOX9敲低细胞SOX9表达后,给予甲萘醌细胞损伤处理,观察到细胞中SNAIL2的表达会随SOX9的敲低而降低,同时观察到转化生长因子β(transforming growth factor beta,TGF-β)信号通路中SNAIL2的上游关键因子Smad2/Smad3的表达也随着SOX9的敲低而降低。结论SOX9通过TGF-β信号通路调控角膜内皮损伤后EndMT过程。

SOX9在前列腺癌演进中的研究进展

性别决定区Y-盒转录因子9(SOX9)对前列腺发育至关重要。SOX9的失调不仅影响前列腺癌(PCa)的发生,在去势抵抗型前列腺癌(CRPC)中也起着关键作用,但SOX9影响PCa进展的机制仍不清楚。本文主要综述SOX9与PCa发生发展的相关分子机制和信号通路,提出SOX9基因可能是PCa发生发展中重要的新生物标志物,为临床诊断和治疗提供新的思路。

BECN1、性别决定区Y盒转录因子9表达与甲状腺癌患者临床特征及预后的关系研究

目的探讨BECN1、性别决定区Y盒转录因子9(SOX9)表达与甲状腺癌患者临床特征及预后的关系。方法取106例甲状腺癌患者的甲状腺癌组织及癌旁组织,比较甲状腺癌组织及癌旁组织中BECN1、SOX9表达情况;比较不同临床特征甲状腺癌患者甲状腺癌组织中BECN1、SOX9表达情况;进行为期3年的随访。结果BECN1、SOX9阳性均主要定位于细胞质中。甲状腺癌组织中SOX9阳性表达率明显高于癌旁组织,BECN1阳性表达率明显低于癌旁组织,差异均有统计学意义(P﹤0.01)。Ⅰ~Ⅱ期、高分化、无淋巴结转移的甲状腺癌患者甲状腺癌组织中BECN1阳性表达率分别高于Ⅲ~Ⅳ期、中低分化、有淋巴结转移患者,SOX9阳性表达率分别低于Ⅲ~Ⅳ期、中低分化、有淋巴结转移患者,差异均有统计学意义(P﹤0.05)。BECN1阳性表达患者的平均生存时间为(35.26±8.39)个月,明显长于阴性表达患者的(30.16±7.35)个月;SOX9阳性表达患者的平均生存时间为(31.20±8.03)个月,明显短于阴性表达患者的(35.74±6.99)个月,差异均有统计学意义(P﹤0.01)。多因素Logistic回归模型结果显示,淋巴结转移、分化程度、BECN1及SOX9表达均是甲状腺癌患者预后的影响因素(P﹤0.05)。结论甲状腺癌组织存在BECN1低表达、SOX9高表达,不同临床分期、肿瘤分化程度及淋巴结转移状态患者BECN1及SOX9表达存在差异,且BECN1及SOX9表达与患者预后密切相关。

补肾蠲痹汤治疗肝肾两虚型膝骨关节炎临床研究

目的:观察补肾蠲痹汤治疗肝肾两虚型膝骨关节炎的临床疗效。方法:选取2019年3月—2021年3月固始县中医院收治的38例肝肾两虚型膝骨关节炎患者作为研究对象。患者予以补肾蠲痹汤治疗。比较临床疗效及患者治疗前后西安大略和麦克马斯特大学骨关节炎调查量表(WOMAC)评分、36项简明健康调查问卷(SF-36)评分及血清矮小相关转录因子2(RUNX-2)、成纤维细胞生长因子23(FGF-23)、Y染色体性别决定区相关高迁移率组基因9(SOX-9)含量。结果:患者失访1例,脱落1例,最终纳入统计患者36例。治疗后,36例患者中显效12例,有效17例,无效7例,总有效率为80.56%。与治疗前比较,患者治疗后WOMAC评分及血清RUNX-2、FGF-23含量均明显降低(P<0.05),SF-36各维度评分及血清SOX-9含量明显升高(P<0.05)。结论:补肾蠲痹汤治疗肝肾两虚型膝骨关节炎疗效较好,能有效缓解患者临床症状,提高患者生活质量,其作用机制与下调RUNX-2、FGF-23表达,促进SOX-9释放有关。

M1-type microglia can induce astrocytes to deposit chondroitin sulfate proteoglycan after spinal cord injury

After spinal cord injury(SCI),astrocytes gradually migrate to and surround the lesion,depositing chondroitin sulfate proteoglycan-rich extracellular matrix and forming astrocytic scar,which limits the spread of inflammation but hinders axon regeneration.Meanwhile,microglia gradually accumulate at the lesion border to form microglial scar and can polarize to generate a pro-inflammatory M1 phenotype or an anti-inflammatory M2 phenotype.However,the effect of microglia polarization on astrocytes is unclear.Here,we found that both microglia(CX3 CR1^(+))and astrocytes(GFAP^(+))gathered at the lesion border at 14 days post-injury(dpi).The microglia accumulated along the inner border of and in direct contact with the astrocytes.M1-type microglia(i NOS^(+)CX3 CR1^(+))were primarily observed at 3 and 7 dpi,while M2-type microglia(Arg1^(+)CX3 CR1^(+))were present at larger numbers at 7 and 14 dpi.Transforming growth factor-β1(TGFβ1)was highly expressed in M1 microglia in vitro,consistent with strong expression of TGFβ1 by microglia in vivo at 3 and 7 dpi,when they primarily exhibited an M1 phenotype.Furthermore,conditioned media from M1-type microglia induced astrocytes to secrete chondroitin sulfate proteoglycan in vitro.This effect was eliminated by knocking down sex-determining region Y-box 9(SOX9)in astrocytes and could not be reversed by treatment with TGFβ1.Taken together,our results suggest that microglia undergo M1 polarization and express high levels of TGFβ1 at 3 and 7 dpi,and that M1-type microglia induce astrocytes to deposit chondroitin sulfate proteoglycan via the TGFβ1/SOX9 pathway.The study was approved by the Institutional Animal Care and Use Committee of Anhui Medical University,China(approval No.LLSC20160052)on March 1,2016.

STAT3 deficiency prevents hepatocarcinogenesis and promotes biliary proliferation in thioacetamide-induced liver injury

AIM To elucidate the role of STAT3 in hepatocarcinogenesis and biliary ductular proliferation following chronic liver injury. METHODS We investigated thioacetamide(TAA)-induced liver injury, compensatory hepatocyte proliferation, and hepatocellular carcinoma(HCC) development in hepatic STAT3-deficient mice. In addition, we evaluated TAAinduced biliary ductular proliferation and analyzed the activation of sex determining region Y-box9(SOX9) and Yes-associated protein(YAP), which regulate the transdifferentiation of hepatocytes to cholangiocytes.RESULTS Both compensatory hepatocyte proliferation and HCC formation were significantly decreased in hepatic STAT3-deficient mice as compared with control mice. STAT3 deficiency resulted in augmentation of hepatic necrosis and fibrosis. On the other hand, biliary ductular proliferation increased in hepatic STAT3-deficient livers as compared with control livers. SOX9 and YAP were upregulated in hepatic STAT3-deficient hepatocytes.CONCLUSION STAT3 may regulate hepatocyte proliferation as well as transdifferentiation into cholangiocytes and serve as a therapeutic target for HCC inhibition and biliary regeneration.

Emerging signals regulating liver tumor initiating cells

Tumor initiating cells(TICs)have been identified as cells that account for tumor heterogeneity.Recent studies demonstrated that genes controlling stem cell biology play key roles in maintaining TICs and promote their development into cancer.In this review,we summarize findings from human and animal studies that indicate the presence of TICs during liver cancer development.Markers identified for liver development and regeneration are used to identify liver cancer TICs.Expression of these markers is often upregulated in human hepatocellular carcinoma(HCC)specimen.Using flow cytometry analysis and lineage tracing approaches,the presence of TICs is confirmed.Expression of TIC markers and the presence of TICs are also observed in genetically modified animals that target genes that are frequently altered in human HCC.The presence of these TICs represents a major challenge for therapeutic development.Elucidating signals that can regulate the fate,transformation and growth of liver TICs is an emerging need in liver research.Sex-determining region Y-box 9(SOX9)has recently become an important marker for liver TICs.Here,we summarize the role of SOX9 in TICs and its potential interaction with other signals.This includes the Notch-Numb signal that controls asymmetrical-symmetrical cell division,Wnt-b-catenin signal that maintains cell fate and transforming growth factor(TGF)-b signal that acts as upstream inducers.