Fengyun Sun scite author profile

Several recent studies link parental environments to phenotypes in subsequent generations. Here, we investigate the mechanism by which paternal diet affects offspring metabolism. Protein restriction in mice affects small RNA levels in mature sperm, with decreased let-7 levels and increased levels of 5’ fragments of glycine tRNAs. tRNA fragments are scarce in testicular sperm, but are gained as sperm mature in the epididymis. Epididymosomes – vesicles that fuse with sperm during epididymal transit – carry RNA payloads matching those of mature sperm, and deliver RNAs to immature sperm in vitro. Functionally, tRNA-Gly-GCC fragments repress genes associated with the endogenous retroelement MERVL, both in ES cells and embryos. Our results shed light on small RNA biogenesis, and its dietary regulation, during post-testicular sperm maturation, and link tRNA fragments to regulation of endogenous retroelements active in the preimplantation embryo.

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Small RNAs Are Trafficked from the Epididymis to Developing Mammalian Sperm

Sharma

et al. 2018

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The biogenesis of the RNA payload of mature sperm is of great interest, because RNAs delivered to the zygote at fertilization can affect early development. Here, we tested the hypothesis that small RNAs are trafficked to mammalian sperm during the process of post-testicular maturation in the epididymis. By characterizing small RNA dynamics during germ cell maturation in mice, we confirm and extend prior observations that sperm undergo a dramatic switch in the RNA payload from piRNAs to tRNA fragments (tRFs) upon exiting the testis and entering the epididymis. Small RNA delivery to sperm could be recapitulated in vitro by incubating testicular spermatozoa with caput epididymosomes. Finally, tissue-specific metabolic labeling of RNAs in intact mice definitively shows that mature sperm carry RNAs that were originally synthesized in the epididymal epithelium. These data demonstrate that soma-germline RNA transfer occurs in male mammals, most likely via vesicular transport from the epididymis to maturing sperm.

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Small RNAs Gained during Epididymal Transit of Sperm Are Essential for Embryonic Development in Mice

et al. 2018

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The small RNA payload of mammalian sperm undergoes dramatic remodeling during development, as several waves of microRNAs and tRNA fragments are shipped to sperm during post-testicular maturation in the epididymis. Here, we take advantage of this developmental process to probe the function of the sperm RNA payload in preimplantation development. We generated zygotes via intracytoplasmic sperm injection (ICSI) using sperm obtained from the proximal (caput) versus distal (cauda) epididymis and then characterized the development of the resulting embryos. Embryos generated using caput sperm significantly overexpress multiple regulatory factors throughout preimplantation development, subsequently implant inefficiently, and fail soon after implantation. Remarkably, microinjection of purified cauda-specific small RNAs into caput-derived embryos not only completely rescued preimplantation molecular defects but also suppressed the post-implantation embryonic lethality phenotype. These findings reveal an essential role for small RNA remodeling during post-testicular maturation of mammalian sperm and identify a specific preimplantation gene expression program responsive to sperm-delivered microRNAs.

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MARF1 Regulates Essential Oogenic Processes in Mice

Sugiura

Sun

et al. 2012

Science

100

103

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Development of fertilization-competent oocytes depends on integrated processes controlling meiosis, cytoplasmic development, and maintenance of genomic integrity. We show that meiosis arrest female 1 (MARF1) is required for these processes in mammalian oocytes. Mutations of Marf1 cause female infertility characterized by up-regulation of a cohort of transcripts, increased retrotransposon expression, defective cytoplasmic maturation, and meiotic arrest. Up-regulation of protein phosphatase 2 catalytic subunit (PPP2CB) is key to the meiotic arrest phenotype. Moreover, Iap and Line1 retrotransposon mRNAs are also up-regulated, and, concomitantly, DNA double-strand breaks are elevated in mutant oocytes. Therefore MARF1, by suppressing levels of specific transcripts, is an essential regulator of important oogenic processes leading to female fertility and the development of healthy offspring.

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Isolation and Short-Term Culture of Mouse Spermatocytes for Analysis of Meiosis

Salle

Sun

Handel

2009

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Understanding meiosis is facilitated by in vitro experimental approaches, but this has not been easily applicable to mammalian meiocytes. Available methods for in vitro analysis of mammalian oocytes are generally limited to experimental analysis of the late prophase period. Short-term cultures of male germ cells have been useful for analysis of earlier meiotic prophase pathways, as well as onset of the meiotic division phase, but no studies have achieved reliable spermatogenesis in vitro. Here we describe a method for preparing highly enriched pachytene spermatocytes from mouse testicular cell suspensions using cell-size fractionation by sedimentation through a bovine serum albumin gradient at unit gravity. We also provide a procedure for short-term culture of spermatocytes and the pharmacological induction of the prophase-to-division phase transition.

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Fengyun Sun

Biogenesis and function of tRNA fragments during sperm maturation and fertilization in mammals

Small RNAs Are Trafficked from the Epididymis to Developing Mammalian Sperm

Small RNAs Gained during Epididymal Transit of Sperm Are Essential for Embryonic Development in Mice

MARF1 Regulates Essential Oogenic Processes in Mice

Isolation and Short-Term Culture of Mouse Spermatocytes for Analysis of Meiosis

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