血管相关疾病中缝隙连接的研究进展(3)
此外,還有很多针对GJ与As的研究,表明Cx37可能具有抗As形成的功能,Cx37在动脉粥样硬化的发病机制中起着重要的潜在作用,是一个具有较大研究价值的潜在靶点。另连接蛋白在血管损伤后再狭窄的发生、发展中起着重要作用,特别是Cx43对于机械改变较为敏感,因此抑制Cx43的表达有助于抑制平滑肌细胞表型的转变、增殖及迁移,进而使血管腔的狭窄度明显降低。
3 结论与展望
综上所述,缝隙连接在细胞间的信号传递过程中,具有极其重要的调节作用,缝隙连接和细胞的自分泌、旁分泌一起构成了细胞间的相互调节网络。大量动物及临床实验研究表明,缝隙连接在许多心血管疾病的发生、发展过程中可能起着重要作用,通过对缝隙连接的研究,不仅可以阐明连接蛋白的重构与心血管疾病的关系,也可能成为治疗该类疾病的新靶点。未来的研究不仅是要继续探索缝隙连接在血管相关疾病,特别是高血压中的作用机制;更是要将其步于临床应用,以期从信号交流角度为该类疾病治疗提供一定新方向。
, 百拇医药
参考文献:
[1]Kumar NM,Gilula NB.The gap junction communication channel[J]. Cell,1996,84:381-388.
[2]Brisset AC,Isakson BE,Kwak BR.Connexins in vascular physiology and pathology[J].Antioxid Redox Signal,2009,11:267-282.
[3]Unwin PN,Zampighi G.Structure of the junction between communicating cells[J].Nature,1980,283:545-549.
[4]De Mello WC.Chemical communication between cardiac cells is disrupted by high glucose:implications for the diabetic heart[J].Exp Cell Res,2015,331(1):232-238.
, 百拇医药
[5]Haefliger JA,Nicod P,Meda P.Contribution of connexins to the function of vascular wall[J].Cardiovasc Res,2004,62(2):345-356.
[6]Pogoda K,Kameritsch P,Retamal MA,et al.Regulation of gap junction channels and hemichannels by phosphorylation and redox changes:a revision[J].BMC Cell Bio,2016,17(Suppl 1):11:138-150.
[7]D'hondt C,Iyyathurai J,Vinken M,et al.Regulation of connexin-and pannexin-based channels by post-translational modifications[J].Biol Cell,2013,105(9):373-398.
, http://www.100md.com
[8]Solan JL,Lampe PD.Specific Cx43 phosphorylation events regulate gap junction turnover in vivo[J].FEBS Lett,2014,588(8):1423-1429.
[9]Axelsen LN,Calloe K,Holstein-Rathlou NH,et al.Managing the complexity of communication:regulation of gap junctions by posttranslational modification[J].Front Pharmacol,2013;4:130:1-18.
[10]Dunn CA,Lampe PD.Injury-triggered Akt phosphorylation of Cx43:a ZO-1-driven molecular switch that regulates gap junction size[J].J Cell Sci,2014,127(Pt 2):455-464.
, 百拇医药
[11]Retamal MA,León-Paravic CG,Ezquer M,et al.Carbon monoxide: A new player in the redox regulation of connexin hemichannels[J].International Union of Biochemistry and Molecular Biology(IUBMB Life) ,2015,67(6):428-437.
[12]Kjenseth A,Fykerud TA,Sirnes S,et al.The gap junction channel protein connexin 43 is covalently modified and regulated by SUMOylation[J].The Journal of Biological Chemistry,2012,287(19):15851-15861.
[13]Figueroa XF,Duling BR.Gap junctions in the control of vascular function[J].Antioxid Redox Signal,2009,11(2):251-266., 百拇医药(赵钐妤 王斌)
3 结论与展望
综上所述,缝隙连接在细胞间的信号传递过程中,具有极其重要的调节作用,缝隙连接和细胞的自分泌、旁分泌一起构成了细胞间的相互调节网络。大量动物及临床实验研究表明,缝隙连接在许多心血管疾病的发生、发展过程中可能起着重要作用,通过对缝隙连接的研究,不仅可以阐明连接蛋白的重构与心血管疾病的关系,也可能成为治疗该类疾病的新靶点。未来的研究不仅是要继续探索缝隙连接在血管相关疾病,特别是高血压中的作用机制;更是要将其步于临床应用,以期从信号交流角度为该类疾病治疗提供一定新方向。
, 百拇医药
参考文献:
[1]Kumar NM,Gilula NB.The gap junction communication channel[J]. Cell,1996,84:381-388.
[2]Brisset AC,Isakson BE,Kwak BR.Connexins in vascular physiology and pathology[J].Antioxid Redox Signal,2009,11:267-282.
[3]Unwin PN,Zampighi G.Structure of the junction between communicating cells[J].Nature,1980,283:545-549.
[4]De Mello WC.Chemical communication between cardiac cells is disrupted by high glucose:implications for the diabetic heart[J].Exp Cell Res,2015,331(1):232-238.
, 百拇医药
[5]Haefliger JA,Nicod P,Meda P.Contribution of connexins to the function of vascular wall[J].Cardiovasc Res,2004,62(2):345-356.
[6]Pogoda K,Kameritsch P,Retamal MA,et al.Regulation of gap junction channels and hemichannels by phosphorylation and redox changes:a revision[J].BMC Cell Bio,2016,17(Suppl 1):11:138-150.
[7]D'hondt C,Iyyathurai J,Vinken M,et al.Regulation of connexin-and pannexin-based channels by post-translational modifications[J].Biol Cell,2013,105(9):373-398.
, http://www.100md.com
[8]Solan JL,Lampe PD.Specific Cx43 phosphorylation events regulate gap junction turnover in vivo[J].FEBS Lett,2014,588(8):1423-1429.
[9]Axelsen LN,Calloe K,Holstein-Rathlou NH,et al.Managing the complexity of communication:regulation of gap junctions by posttranslational modification[J].Front Pharmacol,2013;4:130:1-18.
[10]Dunn CA,Lampe PD.Injury-triggered Akt phosphorylation of Cx43:a ZO-1-driven molecular switch that regulates gap junction size[J].J Cell Sci,2014,127(Pt 2):455-464.
, 百拇医药
[11]Retamal MA,León-Paravic CG,Ezquer M,et al.Carbon monoxide: A new player in the redox regulation of connexin hemichannels[J].International Union of Biochemistry and Molecular Biology(IUBMB Life) ,2015,67(6):428-437.
[12]Kjenseth A,Fykerud TA,Sirnes S,et al.The gap junction channel protein connexin 43 is covalently modified and regulated by SUMOylation[J].The Journal of Biological Chemistry,2012,287(19):15851-15861.
[13]Figueroa XF,Duling BR.Gap junctions in the control of vascular function[J].Antioxid Redox Signal,2009,11(2):251-266., 百拇医药(赵钐妤 王斌)
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