| Literature DB >> 30697578 |
Ali Hashemi Gheinani1,2, Ivonne Köck3, Evalynn Vasquez1,2,4, Ulrich Baumgartner5, Alexander Bigger-Allen1,6, Bryan S Sack1,2,7, Fiona C Burkhard8, Rosalyn M Adam1,2, Katia Monastyrskaya3,8.
Abstract
Bladder outlet obstruction (BOO) leads to lower urinary tract symptoms (LUTS) and urodynamic changes of the bladder function. Previously we identified microRNA (miRNA) and mRNA expression profiles associated with different states of BOO-induced LUTD in human patients. Bladder wall remodeling resulting from obstruction is widely studied in animal models of experimentally-induced partial BOO (pBOO). Here we determined the expression profiles of miRNAs and selected mRNAs in pBOO mice and compared the observed changes to human patients. Similar to results from human patients, we observed a down-regulation of smooth muscle-associated miRNAs mmu-miR-1, mmu-miR-143, mmu-miR-145, mmu-miR-486 and mmu-miR-133a in pBOO mouse bladders. Pro-fibrotic miRNAs mmu-miR-142-3p and mmu-miR-21 were up-regulated, and anti-fibrotic miRNA mmu-miR-29c was down-regulated. Pathway analysis in human BOO patients identified TNF-alpha as the top upstream regulator. Although there was evidence of hypertrophic changes in pBOO mice, contrary to human data, we observed no regulation of TNF-responsive genes in the mouse model. Experimentally-induced pBOO in mice led to significant gene expression changes, including alteration of pro-fibrotic mRNAs and miRNAs resembling human BOO patients. Gene expression changes were also validated in a mouse model of bladder inflammation. Lack of evidence of TNF-alpha-induced miRNA and mRNA regulation might indicate a different pathophysiological mechanism of organ remodeling in pBOO model compared to the human disease.Entities:
Keywords: Lower urinary tract symptoms; fibrosis; partial bladder outlet obstruction; pathway analysis
Year: 2018 PMID: 30697578 PMCID: PMC6334198
Source DB: PubMed Journal: Am J Clin Exp Urol ISSN: 2330-1910