Petermann Arndt T, Pippin Jeffrey, Durvasula Raghu, Pichler Raimund, Hiromura Keiju, Monkawa Toshi, Couser William G, Shankland Stuart J
Department of Medicine, Division of Nephrology, University of Washington School of Medicine, Seattle, Washington 98195, USA.
Kidney Int. 2005 Jan;67(1):157-66. doi: 10.1111/j.1523-1755.2005.00066.x.
Increased intraglomerular pressure is a final pathway toward glomerulosclerosis in systemic hypertension, diabetes, and focal segmental glomerulosclerosis (FSGS). Increased intraglomerular pressure causes stress-tension, or stretch, on resident glomerular cells. However, the effects of stretch on podocyte growth, and the mechanisms that underlie this, have not been elucidated.
To test the hypothesis that stretch alters podocyte growth, cultured mouse podocytes were exposed to cyclic mechanical stretch created by vacuum; control cells were grown under similar conditions, but not exposed to stretch. Proliferation (cell cycle phases) and hypertrophy (forward light scatter) were measured in stretched and control podocytes by flow cytometry. The role of the cyclin-dependent kinase (CDK) inhibitors, p21 and p27, was examined by stretching podocytes isolated from p21 and p27 knockout (-/-) mice, and the role of specific signaling pathways was assessed by Western blot analysis and blocking studies.
Our results showed that stretch reduced cell cycle progression in wild-type and single p27-/- podocytes and induced hypertrophy in these cells in all phases of the cell cycle at 24, 48, and 72 hours. In contrast, stretch did not induce hypertrophy in single p21-/- and double p21/p27-/- podocytes. Stretch-induced hypertrophy required cell cycle entry, and was prevented by specifically blocking extracellular signal-regulated kinase 1/2 (Erk1/2) or Akt. Although stretch increased p38 activation, inhibition of this pathway had no effect on hypertrophy.
Mechanical stretch induces hypertrophy in podocytes in vitro in all phases of the cell cycle. This effect is cell cycle dependent, and requires p21, Erk1/2, and Akt. Stretch may play a role in podocyte injury when intraglomerular pressure is increased.
肾小球内压力升高是系统性高血压、糖尿病和局灶节段性肾小球硬化症(FSGS)导致肾小球硬化的最终途径。肾小球内压力升高会对肾小球固有细胞产生应力-张力,即拉伸作用。然而,拉伸对足细胞生长的影响及其潜在机制尚未阐明。
为了验证拉伸会改变足细胞生长这一假说,将培养的小鼠足细胞暴露于真空产生的周期性机械拉伸环境中;对照细胞在相似条件下培养,但不进行拉伸处理。通过流式细胞术检测拉伸组和对照组足细胞的增殖(细胞周期阶段)和肥大(前向光散射)情况。通过对从p21和p27基因敲除(-/-)小鼠分离出的足细胞进行拉伸,研究细胞周期蛋白依赖性激酶(CDK)抑制剂p21和p27的作用,并通过蛋白质印迹分析和阻断研究评估特定信号通路的作用。
我们的结果表明,拉伸会降低野生型和单基因p27-/-足细胞的细胞周期进程,并在24、48和72小时的细胞周期各阶段诱导这些细胞肥大。相比之下,拉伸不会诱导单基因p21-/-和双基因p21/p27-/-足细胞肥大。拉伸诱导的肥大需要细胞进入细胞周期,并可通过特异性阻断细胞外信号调节激酶1/2(Erk1/2)或Akt来预防。尽管拉伸会增加p38的激活,但抑制该途径对肥大没有影响。
机械拉伸在体外可诱导足细胞在细胞周期各阶段肥大。这种效应依赖于细胞周期,且需要p21、Erk1/2和Akt。当肾小球内压力升高时,拉伸可能在足细胞损伤中起作用。
