Y Chromosomal Noncoding RNAs Regulate Autosomal Gene Expression Via PiRNAs in Mouse Testis

Overview

Journal BMC Biol

Publisher Biomed Central

Specialty Biology

Date 2021 Sep 10

PMID 34503492

Citations 6

Authors

Hemakumar M Reddy

Rupa Bhattacharya

Shrish Tiwari

Kankadeb Mishra

Pranatharthi Annapurna

Zeenath Jehan

Nissankararao Mary Praveena

Jomini Liza Alex

Vishnu M Dhople

Lalji Singh

Mahadevan Sivaramakrishnan

Anurag Chaturvedi

Nandini Rangaraj

Thomas Michael Shiju

Badanapuram Sreedevi

Sachin Kumar

Ram Reddy Dereddi

Sunayana M Rayabandla

Rachel A Jesudasan

Affiliations

Soon will be listed here.

Abstract

Background: Deciphering the functions of Y chromosome in mammals has been slow owing to the presence of repeats. Some of these repeats transcribe coding RNAs, the roles of which have been studied. Functions of the noncoding transcripts from Y chromosomal repeats however, remain unclear. While a majority of the genes expressed during spermatogenesis are autosomal, mice with different deletions of the long arm of the Y chromosome (Yq) were previously also shown to be characterized by subfertility, sterility and sperm abnormalities, suggesting the presence of effectors of spermatogenesis at this location. Here we report a set of novel noncoding RNAs from mouse Yq and explore their connection to some of the autosomal genes expressed in testis.

Results: We describe a set of novel mouse male-specific Y long arm (MSYq)-derived long noncoding (lnc) transcripts, named Pirmy and Pirmy-like RNAs. Pirmy shows a large number of splice variants in testis. We also identified Pirmy-like RNAs present in multiple copies at different loci on mouse Y chromosome. Further, we identified eight differentially expressed autosome-encoded sperm proteins in a mutant mouse strain, XYqdel (2/3 Yq-deleted). Pirmy and Pirmy-like RNAs have homology to 5'/3'UTRs of these deregulated autosomal genes. Several lines of experiments show that these short homologous stretches correspond to piRNAs. Thus, Pirmy and Pirmy-like RNAs act as templates for several piRNAs. In vitro functional assays reveal putative roles for these piRNAs in regulating autosomal genes.

Conclusions: Our study elucidates a set of autosomal genes that are potentially regulated by MSYq-derived piRNAs in mouse testis. Sperm phenotypes from the Yq-deleted mice seem to be similar to that reported in inter-specific male-sterile hybrids. Taken together, this study provides novel insights into possible role of MSYq-derived ncRNAs in male sterility and speciation.

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