Clinic for Paediatric Cardiology, University of Leipzig, Leipzig, Germany.
Pflugers Arch. 2012 Nov;464(5):535-47. doi: 10.1007/s00424-012-1161-4. Epub 2012 Sep 25.
Cyclic mechanical stretch (CMS) and angiotensin II (ATII) play an important role in cardiac remodelling. Thus, we aimed to examine how ATII affects CMS-induced changes in localisation and expression of the gap junction protein connexin43 (Cx43). Neonatal rat cardiomyocytes cultured on gelatin-coated Flexcell cell culture plates were kept static or were exposed to CMS (110 % of resting length, 1 Hz) for 24 h with or without additional ATII (0.1 μmol/L). Moreover, inhibitors of ATII receptors (AT-R) were used (for AT(1)-R: losartan 0.1 μmol/L, for AT(2)-R: PD123177 0.1 μmol/L). Thereafter, the cardiomyocytes were investigated by immunohistology, PCR and Western blot. After 24 h of CMS, cardiomyocytes were significantly elongated and orientated 75 ± 1.6° nearly perpendicular to the stretch axis. Furthermore, CMS significantly accentuated Cx43 at the cell poles (ratio Cx43 polar/lateral static: 2.32 ± 0.17; CMS: 10.08 ± 3.2). Additional ATII application significantly reduced Cx43 polarisation (ratio Cx43 polar/lateral ATII: 4.61 ± 0.42). The combined administration of ATII and losartan to CMS further reduced Cx43 polarisation to control levels, whilst the AT(2)-R blocker PD123177 restored polarisation. Moreover, CMS and ATII application resulted in a significant Cx43 protein and Cx43 mRNA up-regulation which could be blocked by losartan but not by PD123177. Thus, CMS results in a self-organisation of the cardiomyocytes leading to elongated cells orientated transversely towards the stretch axis with enhanced Cx43 expression and Cx43 accentuation at the cell poles. ATII enhances total Cx43 mRNA and protein expression probably via AT(1)-R (=inhibitory effect of losartan) and reduces Cx43 polarisation presumably via AT(2)-R, since PD123177 (but not losartan) inhibited the negative effects of ATII on polarisation.
周期性机械拉伸(CMS)和血管紧张素 II(ATII)在心脏重构中起着重要作用。因此,我们旨在研究 ATII 如何影响 CMS 诱导的缝隙连接蛋白 connexin43(Cx43)的局部定位和表达变化。将培养在明胶包被的 Flexcell 细胞培养板上的新生大鼠心肌细胞保持静止或暴露于 CMS(静息长度的 110%,1Hz)24 小时,同时或不添加 ATII(0.1μmol/L)。此外,还使用了 ATII 受体(AT-R)抑制剂(用于 AT(1)-R:losartan 0.1μmol/L,用于 AT(2)-R:PD123177 0.1μmol/L)。此后,通过免疫组织化学、PCR 和 Western blot 对心肌细胞进行了研究。在 CMS 24 小时后,心肌细胞显著伸长并定向 75±1.6°,几乎垂直于拉伸轴。此外,CMS 显著增强了 Cx43 在细胞极(Cx43 极/侧静态比:2.32±0.17;CMS:10.08±3.2)。额外的 ATII 应用显著降低了 Cx43 的极化(Cx43 极/侧 ATII 比:4.61±0.42)。将 ATII 与 losartan 联合应用于 CMS 进一步将 Cx43 极化降低至对照水平,而 AT(2)-R 阻断剂 PD123177 则恢复了极化。此外,CMS 和 ATII 的应用导致 Cx43 蛋白和 Cx43 mRNA 的显著上调,这可以被 losartan 阻断,但不能被 PD123177 阻断。因此,CMS 导致心肌细胞的自我组织,导致细胞沿横向方向拉长,朝向拉伸轴,Cx43 表达增强,细胞极的 Cx43 增强。ATII 可能通过 AT(1)-R(= losartan 的抑制作用)增强总 Cx43 mRNA 和蛋白表达,并通过 AT(2)-R 降低 Cx43 极化,因为 PD123177(而非 losartan)抑制了 ATII 对极化的负性影响。
