Abstract
BackgroundAcute kidney injury in mammals, which is caused by cardiovascular diseases or the administration of antibiotics with nephrotoxic side-effects is a life-threatening disease, since loss of nephrons is irreversible in mammals. In contrast, fish are able to generate new nephrons even in adulthood and thus provide a good model to study renal tubular regeneration.ResultsHere, we investigated the early response after gentamicin-induced renal injury, using the short-lived killifish Nothobranchius furzeri. A set of microRNAs was differentially expressed after renal damage, among them miR-21, which was up-regulated. A locked nucleic acid-modified antimiR-21 efficiently knocked down miR-21 activity and caused a lag in the proliferative response, enhanced apoptosis and an overall delay in regeneration. Transcriptome profiling identified apoptosis as a process that was significantly affected upon antimiR-21 administration. Together with functional data this suggests that miR-21 acts as a pro-proliferative and anti-apoptotic factor in the context of kidney regeneration in fish. Possible downstream candidate genes that mediate its effect on proliferation and apoptosis include igfbp3 and fosl1, among other genes.ConclusionIn summary, our findings extend the role of miR-21 in the kidney. For the first time we show its functional involvement in regeneration indicating that fast proliferation and reduced apoptosis are important for efficient renal tubular regeneration.Electronic supplementary materialThe online version of this article (doi:10.1186/s12861-015-0089-2) contains supplementary material, which is available to authorized users.
Highlights
Acute kidney injury in mammals, which is caused by cardiovascular diseases or the administration of antibiotics with nephrotoxic side-effects is a life-threatening disease, since loss of nephrons is irreversible in mammals
We have addressed the role of miR-21 in the process of renal tubular regeneration and have found that it plays a critical role in kidney regeneration of N. furzeri
Histological analysis of the N. furzeri kidney demonstrated the presence of glomeruli, proximal tubules and distal tubules as well as hematopoietic tissue (Fig. 1e)
Summary
Acute kidney injury in mammals, which is caused by cardiovascular diseases or the administration of antibiotics with nephrotoxic side-effects is a life-threatening disease, since loss of nephrons is irreversible in mammals. Fish are able to generate new nephrons even in adulthood and provide a good model to study renal tubular regeneration. After renal injury mammals can regenerate segments such as proximal tubules and glomeruli partially, but are unable to form new nephrons and replace lost ones [1]. We have used the African killifish Nothobranchius furzeri, which has recently been established as a new model in aging research [10,11,12]. We have addressed the role of miR-21 in the process of renal tubular regeneration and have found that it plays a critical role in kidney regeneration of N. furzeri
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