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肾小球损伤与反应中与超滤相关的生物力学力:类花生酸的潜在作用。

Hyperfiltration-associated biomechanical forces in glomerular injury and response: Potential role for eicosanoids.

作者信息

Sharma Mukut, Sharma Ram, McCarthy Ellen T, Savin Virginia J, Srivastava Tarak

机构信息

MBRF and Research Service, Kansas City VA Medical Center, Kansas City, MO, USA; Kidney Institute, University of Kansas Medical Center, Kansas City, KS, USA.

MBRF and Research Service, Kansas City VA Medical Center, Kansas City, MO, USA.

出版信息

Prostaglandins Other Lipid Mediat. 2017 Sep;132:59-68. doi: 10.1016/j.prostaglandins.2017.01.003. Epub 2017 Jan 17.

DOI:10.1016/j.prostaglandins.2017.01.003
PMID:28108282
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5513797/
Abstract

Hyperfiltration is a well-known risk factor in progressive loss of renal function in chronic kidney disease (CKD) secondary to various diseases. A reduced number of functional nephrons due to congenital or acquired cause(s) results in hyperfiltration in the remnant kidney. Hyperfiltration-associated increase in biomechanical forces, namely pressure-induced tensile stress and fluid flow-induced shear stress (FFSS) determine cellular injury and response. We believe the current treatment of CKD yields limited success because it largely attenuates pressure-induced tensile stress changes but not the effect of FFSS on podocytes. Studies on glomerular podocytes, tubular epithelial cells and bone osteocytes provide evidence for a significant role of COX-2 generated PGE and its receptors in response to tensile stress and FFSS. Preliminary observations show increased urinary PGE in children born with a solitary kidney. FFSS-induced COX2-PGE-EP signaling provides an opportunity to identify targets and, for developing novel agents to complement currently available treatment.

摘要

超滤是继发于各种疾病的慢性肾脏病(CKD)肾功能进行性丧失的一个众所周知的危险因素。先天性或后天性病因导致功能性肾单位数量减少,从而使残余肾出现超滤。超滤相关的生物力学力增加,即压力诱导的拉应力和流体流动诱导的剪切应力(FFSS)决定了细胞损伤和反应。我们认为,目前CKD的治疗效果有限,因为它很大程度上减弱了压力诱导的拉应力变化,但没有减弱FFSS对足细胞的影响。对肾小球足细胞、肾小管上皮细胞和骨成骨细胞的研究为COX-2产生的前列腺素E(PGE)及其受体在应对拉应力和FFSS中的重要作用提供了证据。初步观察表明,单肾出生儿童的尿PGE增加。FFSS诱导的COX2-PGE-EP信号传导为识别靶点以及开发新型药物以补充现有治疗提供了机会。

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