Greka Anna
aDepartment of Medicine and Glom-NExT Center for Glomerular Kidney Disease and Novel Experimental Therapeutics, Renal Division, Brigham and Women's Hospital and Harvard Medical School, Boston bBroad Institute of MIT and Harvard, Cambridge, Massachusetts, USA.
Curr Opin Nephrol Hypertens. 2016 Mar;25(2):138-43. doi: 10.1097/MNH.0000000000000204.
In this review, we take a combined membrane biologist's and geneticist's view of the podocyte, to examine how genetics have informed our understanding of membrane receptors, channels, and other signaling molecules affecting podocyte health and disease.
An integral part of the kidney, the glomerulus, is responsible for the kidney's filter function. Within the glomerulus, the podocyte is a unique cell serving a critically important role: it is exposed to signals from the urinary space in Bowman's capsule, it receives and transmits signals to/from the basement membrane upon which it elaborates, and it receives signals from the vascular space with which it also communicates, thus exposed to toxins, viruses, chemicals, proteins, and cellular components or debris that flow in the blood stream. Our understanding of how podocytes perform their important role has been largely informed by human genetics, and the recent revolution afforded by exome sequencing has brought a tremendous wealth of new genetic data to light.
Genetically defined, rare/orphan podocytopathies, as reviewed here, are critically important to study as they may reveal the next generation targets for precision medicine in nephrology.
在本综述中,我们从膜生物学家和遗传学家的综合视角审视足细胞,以探讨遗传学如何增进我们对影响足细胞健康与疾病的膜受体、通道及其他信号分子的理解。
肾小球作为肾脏的一个重要组成部分,负责肾脏的滤过功能。在肾小球内,足细胞是一种独特的细胞,发挥着至关重要的作用:它暴露于鲍曼囊尿腔的信号中,接收并向其附着的基底膜传递信号,同时也与血管腔进行信号交流,从而接触到血液中流动的毒素、病毒、化学物质、蛋白质以及细胞成分或碎片。人类遗传学在很大程度上增进了我们对足细胞如何发挥其重要作用的理解,而外显子组测序带来的近期变革揭示了大量新的遗传数据。
如本文所综述的,遗传学定义的罕见/孤儿性足细胞病对于研究至关重要,因为它们可能揭示肾脏病精准医学的下一代靶点。