Regulatory potential of miRNAs to mitigate the TNF-alpha-induced bladder dysfunction in BPO

Monastyrskaya K1, Hashemi Gheinani A1, Besic M1, Burkhard F2

Research Type

Pure and Applied Science / Translational

Abstract Category

Male Lower Urinary Tract Symptoms (LUTS) / Voiding Dysfunction

Abstract 256
Microbiology and Biomaterials
Scientific Podium Short Oral Session 24
Friday 25th October 2024
12:22 - 12:30
Hall N102
Bladder Outlet Obstruction Molecular Biology Basic Science
1. Functional Urology DBMR and Inselspital University Hospital Bern, 2. Department of Urology, Inselspital University Hospital Bern
Presenter
Links

Abstract

Hypothesis / aims of study
Benign prostatic obstruction (BPO) and associated lower urinary tract symptoms markedly diminish the quality of life in elderly men. BPO triggers chronic inflammation, leading to bladder dysfunction and a progressive decline in detrusor contractility. Previous next-generation sequencing (NGS) studies revealed altered RNA profiles, notably the significant downregulation of miR-424-5p, alongside TNF-alpha emerging as a key upstream regulator in BPO-induced bladder changes. In light of these findings, we hypothesize that targeting the TNF-alpha regulator could potentially restore miR-424-5p expression, offering therapeutic benefits in alleviating BPO-associated adverse effects. Our primary aim is to elucidate the targets of miR-424-5p, particularly its involvement in anti-inflammatory and anti-proliferative pathways. Additionally, we aim to dissect the mechanisms whereby TNF-alpha pathway and miR-424-5p orchestrate the changes in bladder wall after BPO.
Study design, materials and methods
Primary smooth muscle, CCD1 fibroblast and urothelial cells were treated with TNF-alpha, RNA isolated, and levels of pri-miR-424, ERG1 and NFKBIA determined by QPCR. NFkB-luciferase assays were performed to determine the effect of miRNAs on TNF-alpha signalling. 3’ non-coding and miRNA-binding regions of NFKB1, PRKCD, FGFR and PIKCD were cloned into pmirGLO dual-luciferase vector and target binding assay performed in cells, transfected with pre-miRNAs miR-424 and miR-199a. Pri-miR-424 promoter region and its parts containing predicted transcription start sequences was cloned into pBV-Luc vector and promoter activity determined by luciferase assay. CpG-rich part of the main promoter was deleted in CCD1 cells using CRISPR-Cas. Inhibitors of TNF signalling were used to determine the mechanisms of pri-miR424 down-regulation.
Results
Compensatory overexpression of TNF alpha-inhibited miRNAs miR-199a-5p, miR-424-5p, miR-27b and miR-149-5p significantly reduced NFkB-driven luciferase gene expression.  Using pmirGLO assays we showed that miR-424-5p directly targets and down-regulates FGFR1, NFKB1, PRKCD and MAP2K1, important components of TNF signalling. Molecular dissection of the pri-miR-424 promoter region demonstrated a CpG-rich area with a strong transcriptional activity. Deletion of this part of the promoter reduced the expression of pri-miR-424 to 10%, but did not abolish the TNF-mediated inhibition of its synthesis, indicating that the first 1100 bp of its promoter contained the regulatory sequences. JSH-23, a specific inhibitor of NFkB p65 translocation, abrogated TNF-alpha mediated down-regulation of pri-miR-424 and EGR1, without affecting up-regulation of NFKBIA. We show that CEBPB transcription factor is involved in miR-424 down-regulation together with p65.
Interpretation of results
Anti-inflammatory miR-424-5p inhibits TNF alpha by targeting and down-regulating important hubs of NFkB signalling. In turn, NF-kappa B p65 in association with C/EBP beta bind and down-regulate the expression of miR-424. The promoter region of pri-miR-424 has several regions, including CpG-rich areas, with high transcriptional activity, however, the regulatory region of first 1100 bp harbours the binding sites of CEBPB, important for TNF-mediated down-regulation. JSH-23 and similar inhibitors could be useful tools to sustain miR-424 levels and reduce inflammation.
Concluding message
Down-regulated miRNAs have a high impact on TNF alpha signalling. The importance of the targets of down-regulated miR-424-5p attenuating NFkB-mediated inflammation indicates that finding the pharmacological ways to enhance its expression might have therapeutic benefits for preserving bladder contractility during BPO.
Disclosures
Funding Swiss National Science Foundation SNSF Grant 310030_212298 / 1 Clinical Trial No Subjects None
Citation

Continence 12S (2024) 101598
DOI: 10.1016/j.cont.2024.101598

25/11/2024 22:05:06