Abstract
The kidneys play key roles in the maintenance of homeostasis, including fluid balance, blood filtration, erythropoiesis and hormone production. Disease-driven perturbation of renal function therefore has profound pathological effects, and chronic kidney disease is a leading cause of morbidity and mortality worldwide. Successive annual increases in global chronic kidney disease patient numbers in part reflect upward trends for predisposing factors, including diabetes, obesity, hypertension, cardiovascular disease and population age. Each kidney typically possesses more than one million functional units called nephrons, and each nephron is divided into several discrete domains with distinct cellular and functional characteristics. A number of recent analyses have suggested that signaling between these nephron regions may be mediated by microRNAs. For this to be the case, several conditions must be fulfilled: (i) microRNAs must be released by upstream cells into the ultrafiltrate; (ii) these microRNAs must be packaged protectively to reach downstream cells intact; (iii) these packaged microRNAs must be taken up by downstream recipient cells without functional inhibition. This review will examine the evidence for each of these hypotheses and discuss the possibility that this signaling process might mediate pathological effects.
Highlights
The KidneysThe kidneys are a pair of bean-shaped organs located within the retroperitoneal space, either side of the spinal column
Each kidney possesses approximately 1.3 million nephrons and each nephron is composed of several regions: The Bowman’s capsule that is intimately associated with the glomerulus in the renal corpuscle; the proximal convoluted tubule (PCT); the loop of Henlé; the distal convoluted tubule (DCT) and the collecting duct
A more complete understanding of the processes underlying communication within the kidney promises to pprroovviiddeennoovveelltatargrgeetstsfofrordidsiesaesaeseprperveevnetniotnionanadntdretartematemntenstrasteragtiegsi[e2s].[H2]e. reHwereewwilel wreivllierwevitehwe tehveideevnidcenfcoerfomrimRNiRAN-Am-emdieadteiadteidntirnat-rnae-npehprohnronsigsinganlainligngananddffoorr ppaatthhoollooggiiccaall effects mediated by this mechanism
Summary
The kidneys are a pair of bean-shaped organs located within the retroperitoneal space, either side of the spinal column. Each kidney is approximately 11 cm in length, and weighs approximately 150 g. Renal functions in the maintenance of homeostasis include the regulation of acid-base balance, osmolality, blood pressure and extracellular fluid volume. The kidneys produce hormones, including calcitriol, angiotensin, and aldosterone. The functional unit of the kidney is the nephron (Figure 1). Each kidney possesses approximately 1.3 million nephrons and each nephron is composed of several regions: The Bowman’s capsule that is intimately associated with the glomerulus in the renal corpuscle; the proximal convoluted tubule (PCT); the loop of Henlé; the distal convoluted tubule (DCT) and the collecting duct. TThhee PPCCTT,, lloooopp ooff HHeennlléé,, DDCCTT aanndd ccoolllleeccttiinngg duct aarreeccoonncceerrnneeddwwitihthsesleelcetcitvievesosloultuetereraebasbosroprtpiotnioannadnsdecsreectrioetnioonf wofawsteasctoemcpomonpeonntsenbtestwbetewn ethene uthlteraufiltlrtarafitletraantedathned ctihrecucliartciuolna.tiTohne. A more complete understanding of the processes underlying communication within the kidney promises to pprroovviiddeennoovveelltatargrgeetstsfofrordidsiesaesaeseprperveevnetniotnionanadntdretartematemntenstrasteragtiegsi[e2s].[H2]e. A more complete understanding of the processes underlying communication within the kidney promises to pprroovviiddeennoovveelltatargrgeetstsfofrordidsiesaesaeseprperveevnetniotnionanadntdretartematemntenstrasteragtiegsi[e2s].[H2]e. reHwereewwilel wreivllierwevitehwe tehveideevnidcenfcoerfomrimRNiRAN-Am-emdieadteiadteidntirnat-rnae-npehprohnronsigsinganlainligngananddffoorr ppaatthhoollooggiiccaall effects mediated by this mechanism
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