Ong Albert C M, Wheatley Denys N
Sheffield Kidney Institute, Division of Clinical Sciences (North), University of Sheffield, S5 7AU, Sheffield, UK.
Lancet. 2003 Mar 1;361(9359):774-6. doi: 10.1016/S0140-6736(03)12662-1.
"Cystic degeneration" of the kidneys was first described pathologically in 1841 and "polycystic kidneys" as a clinical syndrome in 1888. The heritable nature in some families was noted in 1899, and autosomal dominant and recessive patterns of inheritance of polycystic kidney disease (PKD) were later recognised. Autosomal dominant PKD is one of the most common human genetic diseases and results from mutations in PKD1 or PKD2. These genes encode two proteins, polycystin-1 and polycystin-2.
Primary cilia are cellular organelles previously thought by some to be vestigial. New findings from several species, including algae, nematodes, and mice, implicate defects in structure or function of primary cilia as a possible common mechanism central to the development of some forms of recessive PKD. Two recent reports propose a causal link between ciliary dysfunction and autosomal dominant PKD. B Yoder and colleagues (J Am Soc Nephrol 2002; 13:2508-16) show that polycystin-1 and polycystin-2 are localised to primary cilia in cultured renal epithelial cells. S Nauli and colleagues (Nat Genet 2003; 33:129-37) show that polycystin-1 and polycystin-2 function as flow-sensitive mechanosensors in the same signal-transduction pathway. WHERE NEXT? Cystic epithelial cells show many altered cellular properties, including changes in proliferation, apoptosis, adhesion, differentiation, polarity, extracellular matrix synthesis, and fluid transport. The next important steps in PKD research will be to define the physiological roles of primary renal cilia and how defects in ciliary structure and function lead to the development of a cystic phenotype in different forms of PKD.
肾脏的“囊性退变”于1841年首次在病理学上被描述,而“多囊肾”作为一种临床综合征于1888年被描述。1899年人们注意到某些家族中的遗传特性,随后认识到多囊肾病(PKD)的常染色体显性和隐性遗传模式。常染色体显性PKD是人类最常见的遗传疾病之一,由PKD1或PKD2基因突变引起。这些基因编码两种蛋白质,多囊蛋白-1和多囊蛋白-2。
初级纤毛是一种细胞器,以前有些人认为它是退化的。包括藻类、线虫和小鼠在内的几个物种的新发现表明,初级纤毛结构或功能缺陷可能是某些形式的隐性PKD发生的共同核心机制。最近的两篇报道提出了纤毛功能障碍与常染色体显性PKD之间的因果联系。B·约德及其同事(《美国肾脏病学会杂志》2002年;13:2508 - 16)表明,多囊蛋白-1和多囊蛋白-2定位于培养的肾上皮细胞的初级纤毛中。S·瑙利及其同事(《自然遗传学》2003年;33:129 - 37)表明,多囊蛋白-1和多囊蛋白-2在同一信号转导途径中作为流量敏感的机械传感器发挥作用。
下一步是什么?囊性上皮细胞表现出许多改变的细胞特性,包括增殖、凋亡、黏附、分化、极性、细胞外基质合成和液体转运的变化。PKD研究的下一个重要步骤将是确定肾初级纤毛的生理作用,以及纤毛结构和功能缺陷如何导致不同形式的PKD中囊性表型的发展。
