Interstitial microRNA miR-214 attenuates inflammation and polycystic kidney disease progression
Ronak Lakhia, Matanel Yheskel, Andrea Flaten, Harini Ramalingam, Karam Aboudehen, Silvia Ferrè, Laurence Biggers, Abheepsa Mishra, Christopher Chaney, Darren P. Wallace, Thomas Carroll, Peter Igarashi, Vishal Patel
Ronak Lakhia, Matanel Yheskel, Andrea Flaten, Harini Ramalingam, Karam Aboudehen, Silvia Ferrè, Laurence Biggers, Abheepsa Mishra, Christopher Chaney, Darren P. Wallace, Thomas Carroll, Peter Igarashi, Vishal Patel
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Research Article Nephrology

Interstitial microRNA miR-214 attenuates inflammation and polycystic kidney disease progression

Abstract

Renal cysts are the defining feature of autosomal dominant polycystic kidney disease (ADPKD); however, the substantial interstitial inflammation is an often-overlooked aspect of this disorder. Recent studies suggest that immune cells in the cyst microenvironment affect ADPKD progression. Here we report that microRNAs (miRNAs) are new molecular signals in this crosstalk. We found that miR-214 and its host long noncoding RNA Dnm3os are upregulated in orthologous ADPKD mouse models and cystic kidneys from humans with ADPKD. In situ hybridization revealed that interstitial cells in the cyst microenvironment are the primary source of miR-214. While genetic deletion of miR-214 does not affect kidney development or homeostasis, surprisingly, its inhibition in Pkd2- and Pkd1-mutant mice aggravates cyst growth. Mechanistically, the proinflammatory TLR4/IFN-γ/STAT1 pathways transactivate the miR-214 host gene. miR-214, in turn as a negative feedback loop, directly inhibits Tlr4. Accordingly, miR-214 deletion is associated with increased Tlr4 expression and enhanced pericystic macrophage accumulation. Thus, miR-214 upregulation is a compensatory protective response in the cyst microenvironment that restrains inflammation and cyst growth.

Authors

Ronak Lakhia, Matanel Yheskel, Andrea Flaten, Harini Ramalingam, Karam Aboudehen, Silvia Ferrè, Laurence Biggers, Abheepsa Mishra, Christopher Chaney, Darren P. Wallace, Thomas Carroll, Peter Igarashi, Vishal Patel

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Figure 6

miR-214 deletion aggravates cyst growth in the Pkd1RC/RC model of ADPKD.

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miR-214 deletion aggravates cyst growth in the Pkd1RC/RC model of ADPKD....
The role of miR-214 was studied in a second ADPKD mouse model. miR-214–/– mice were bred with Pkd1RC/RC mice to generate Pkd1RC/RC mice (n = 7) and Pkd1RC/RC miR-214mut mice (n = 10) with deletion of either one (n = 8) or both alleles (n = 2) of miR-214. (A) Q-PCR analysis showed that compared with kidneys from WT mice (black circles, n = 3), miR-214 expression was increased in kidneys of 140-day-old Pkd1RC/RC mice (blue circles). miR-214 expression was reduced in kidneys of Pkd1RC/RC miR-214mut (orange circles) compared with Pkd1RC/RC mice (blue circles). (B) MRI was performed to determine total kidney volume of Pkd1RC/RC mice (N = 7) and Pkd1RC/RC miR-214mut mice (N = 10) at 16 weeks of age. Representative MRI images corresponding to the mean of each group are shown. (C) Total kidney volume (TKV) normalized to BW was increased in Pkd1RC/RC miR-214mut mice compared with Pkd1RC/RC mice. (D) Q-PCR analysis showing upregulation of miR-214 target genes, Tlr4, Rorc, Cd38, and Cd84, in kidneys of 140-day-old Pkd1RC/RC miR-214mut mice (N = 5) compared with Pkd1RC/RC mice (N = 4). *P < 0.05; 1-way ANOVA, Tukey’s multiple-comparisons test (A); Student’s unpaired t test (C and D); error bars indicate SEM.