Abstract
Kidneys are thought to express eight different connexin isoforms (i.e., Cx 26, 30, 32, 37, 40, 43, 45, and 46), which form either hemichannels or gap junctions serving to intercellular communication and functional synchronization. Proper function of connexins has already been shown to be crucial for regulation of renal hemodynamics and renin secretion, and there is also growing evidence for connexins to play a role in pathologic conditions such as renal fibrosis or diabetic nephropathy. Therefore, exact intrarenal localization of the different connexin isoforms gains particular interest. Until now intrarenal expression of connexins has mainly been examined by immunohistochemistry, which in part generated conflicting results depending on antibodies and fixation protocols used. In this work, we used fluorescent RNAscope as an alternative technical approach to localize renal connexin mRNAs in healthy mouse kidneys. Addition of RNAscope probes for cell type specific mRNAs was used to assign connexin mRNA signals to specific cell types. We hereby found Cx26 mRNA strongly expressed in proximal tubules, Cx30 mRNA was selectively detected in the urothelium, and Cx32 mRNA was found in proximal tubules and to a lesser extent also in collecting ducts. Cx37 mRNA was mainly associated with vascular endothelium, Cx40 mRNA was largely found in glomerular mesangial and less in vascular endothelial cells, Cx43 mRNA was sparsely expressed by interstitial cells of all kidney zones, and Cx45 mRNA was predominantly found in smooth muscle cell layers of both blood vessels and ureter as well as in mesangial and interstitial (fibroblastic) cells. Cx46 mRNA could not be detected. In summary our results essentially confirm previous data on connexin expression in the renal vasculature and in glomeruli. In addition, they demonstrate strong connexin gene expression in proximal tubules, and they suggest significant connexin expression in resident tubulointerstitial cells.
Highlights
Proper kidney function depends on multiple self-regulating mechanisms for which signaling between different cell types is mandatory
Since gap junctions and connexins (Cx) as their smallest subunits have been assigned to several different renal cell types, they are supposed to play a role in intercellular communication
To assign connexin gene expression to cellular structures, we used cell type specific markers such as megalin mRNA for proximal tubules [22, 23]; aquaporin-2 mRNA for collecting duct cells [24, 25]; CD31 mRNA for endothelial cells [26]; αSMA mRNA for smooth muscle cells [27]; PDGFRß mRNA for fibroblasts, pericytes, and mesangial cells [28]; and CX3CR1 mRNA for dendritic cells [29]
Summary
Proper kidney function depends on multiple self-regulating (feedback) mechanisms for which signaling between different cell types is mandatory. Since gap junctions and connexins (Cx) as their smallest subunits have been assigned to several different renal cell types, they are supposed to play a role in intercellular communication. Gap junctions provide intercellular communication and functional synchronization by mediating rapid electrical and chemical signaling between neighbored cells [8, 9]. They are formed by two opposite hemichannels, called connexons. Man and mouse express 21 and 20 different connexin proteins, respectively, which show a high degree of interspecies similarity with regard to amino acid sequences and organ distribution [8, 9]
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