Dysregulation of Principal Cell miRNAs Facilitates Epigenetic Regulation of AQP2 and Results in Nephrogenic Diabetes Insipidus

Federica Petrillo; Anna Iervolino; Tiziana Angrisano; Sabina Jelen; Vincenzo Costanzo; Mariavittoria D’Acierno; Lei Cheng; Qi Wu; Ilaria Guerriero; Maria Cristina Mazzarella; Alfonso De Falco; Fulvio D’Angelo; Michele Ceccarelli; Michele Caraglia; Giovambattista Capasso; Robert A. Fenton; Francesco Trepiccione

doi:10.1681/ASN.2020010031

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Visual Abstract

Significance Statement

Water reabsorption along the collecting duct is dependent on the function of aquaporin 2 (AQP2). Currently, information on microRNA (miRNA)-mediated, post-transcriptional regulation of AQP2, which may influence water reabsorption, is limited. In mice, ablation of the Dicer enzyme (crucial for miRNA maturation) in AQP2-expressing cells induces nephrogenic diabetes insipidus (NDI) with dysregulation of the miRNA profile. A major finding is the identification of miRNAs associated with NDI through mediating epigenetic control of AQP2. This study offers novel targets for AQP2 regulation and potential treatment for governing renal water reabsorption.

Abstract

Background MicroRNAs (miRNAs), formed by cleavage of pre-microRNA by the endoribonuclease Dicer, are critical modulators of cell function by post-transcriptionally regulating gene expression.

Methods Selective ablation of Dicer in AQP2-expressing cells (Dicer^AQP2Cre+ mice) was used to investigate the role of miRNAs in the kidney collecting duct of mice.

Results The mice had severe polyuria and nephrogenic diabetes insipidus, potentially due to greatly reduced AQP2 and AQP4 levels. Although epithelial sodium channel levels were decreased in cortex and increased in inner medulla, amiloride-sensitive sodium reabsorption was equivalent in Dicer^AQP2Cre+ mice and controls. Small-RNA sequencing and proteomic analysis revealed 31 and 178 significantly regulated miRNAs and proteins, respectively. Integrated bioinformatic analysis of the miRNAome and proteome suggested alterations in the epigenetic machinery and various transcription factors regulating AQP2 expression in Dicer^AQP2Cre+ mice. The expression profile and function of three miRNAs (miR-7688-5p, miR-8114, and miR-409-3p) whose predicted targets were involved in epigenetic control (Phf2, Kdm5c, and Kdm4a) or transcriptional regulation (GATA3, GATA2, and ELF3) of AQP2 were validated. Luciferase assays could not demonstrate direct interaction of AQP2 or the three potential transcription factors with miR-7688-5p, miR-8114, and miR-409–3p. However, transfection of respective miRNA mimics reduced AQP2 expression. Chromatin immunoprecipitation assays demonstrated decreased Phf2 and significantly increased Kdm5c interactions at the Aqp2 gene promoter in Dicer^AQP2Cre+ mice, resulting in decreased RNA Pol II association.

Conclusions Novel evidence indicates miRNA-mediated epigenetic regulation of AQP2 expression.

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