GASZ is Essential for Male Meiosis and Suppression of Retrotransposon Expression in the Male Germline

Overview

Journal PLoS Genet

Specialty Genetics

Date 2009 Sep 5

PMID 19730684

Citations 103

Authors

Lang Ma

Gregory M Buchold

Michael P Greenbaum

Angshumoy Roy

Kathleen H Burns

Huifeng Zhu

Derek Y Han

R Alan Harris

Cristian Coarfa

Preethi H Gunaratne

Wei Yan

Martin M Matzuk

Affiliations

Soon will be listed here.

Abstract

Nuage are amorphous ultrastructural granules in the cytoplasm of male germ cells as divergent as Drosophila, Xenopus, and Homo sapiens. Most nuage are cytoplasmic ribonucleoprotein structures implicated in diverse RNA metabolism including the regulation of PIWI-interacting RNA (piRNA) synthesis by the PIWI family (i.e., MILI, MIWI2, and MIWI). MILI is prominent in embryonic and early post-natal germ cells in nuage also called germinal granules that are often associated with mitochondria and called intermitochondrial cement. We find that GASZ (Germ cell protein with Ankyrin repeats, Sterile alpha motif, and leucine Zipper) co-localizes with MILI in intermitochondrial cement. Knockout of Gasz in mice results in a dramatic downregulation of MILI, and phenocopies the zygotene-pachytene spermatocyte block and male sterility defect observed in MILI null mice. In Gasz null testes, we observe increased hypomethylation and expression of retrotransposons similar to MILI null testes. We also find global shifts in the small RNAome, including down-regulation of repeat-associated, known, and novel piRNAs. These studies provide the first evidence for an essential structural role for GASZ in male fertility and epigenetic and post-transcriptional silencing of retrotransposons by stabilizing MILI in nuage.

Citing Articles

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PNLDC1 catalysis and postnatal germline function are required for piRNA trimming, LINE1 silencing, and spermatogenesis in mice.

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Inherited defects of piRNA biogenesis cause transposon de-repression, impaired spermatogenesis, and human male infertility.

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piRNA loading triggers MIWI translocation from the intermitochondrial cement to chromatoid body during mouse spermatogenesis.

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