Diploid germ cells are transformed into haploid gametes via the reductive division of meiosis. After meiotic DNA synthesis, germ cells enter meiotic prophase I, which distinguishes itself from mitotic prophase by two major characteristics. First, meiotic prophase I is dramatically longer than mitotic prophase. Second, meiotic prophase I involves an intricate series of chromosomal events that contribute to the establishment of the haploid state. The extended length of prophase I is critical for the completion of these chromosomal events, as premature exit from prophase I causes recombination defects and chromosome mis-segregation. In mammals, meiotic prophase I is prolonged by Meioc and Ythdc2. In the absence of either gene in both males and females, meiotic germ cells fail to complete meiotic prophase I and prematurely enter an abnormal metaphase before ultimately apoptosing. Several preliminary observations suggest that MEIOC and YTHDC2 function as a complex to post-transcriptionally regulate cell cycle factors within meiotic germ cells. MEIOC and YTHDC2 are first expressed in the germ line at meiotic initiation, and they interact with one another as well as with an overlapping set of transcripts, including key cell cycle regulators. These targets are enriched for the RNA modification N6-methyladenosine (m6A), which is preferentially recognized by YTHDC2's YTH domain and which is used to target and post-transcriptionally regulate RNA. In the absence of Meioc, MEIOC and YTHDC2's targets exhibit reduced stability. Changes in transcript stability are oftentimes accompanied by changes in translation, and in HeLa cells, YTHDC2 enhances translational efficiency while decreasing mRNA abundance. However, it remains unknown whether MEIOC and YTHDC2 affect translation in meiotic germ cells. This proposal will test the hypothesis that MEIOC and YTHDC2 function as a complex to recognize and translationally regulate m6A-modified mRNA in order to establish a meiosis-specific cell cycle program. This hypothesis will be tested via three specific aims.
The first aim will assess MEIOC's ability to affect YTHDC2's interactions with RNA, particularly cell cycle-related transcripts, by identifying the transcripts that YTHDC2 binds to in the presence and absence of Meioc. In addition, whether m6A contributes to MEIOC and YTHDC2's ability to interact with RNA will also be assessed.
The second aim will identify the translational changes that occur as germ cells transition from mitosis to meiosis, as well as between wild-type and Meioc-null samples. In particular, this aim will determine whether cell cycle factors are translationally repressed at the onset of meiosis and by the upregulation of Meioc.
The third aim will determine whether MEIOC and YTHDC2 are continuously required during meiotic prophase I to prevent precocious cell cycle progression, as well as identify the mechanistic regulation behind this putative requirement. Collectively, these fundamental studies on MEIOC and YTHDC2's regulation of the length of meiotic prophase I will provide key insights into the establishment and regulation of the meiotic cell cycle program, with broader implications for fertility, development, and cancer.

Public Health Relevance

Procreation is a fundamental aspect of life that occurs when a sperm fuses with an egg. The disrupted formation of sperm and eggs, also known as germ cells, can result in infertility, spontaneous abortions, and birth defects, yet many aspects of germ cell development remain poorly understood. The goal of this proposal is to study the regulation of meiosis, a specialized cellular division that is required to produce haploid sperm and eggs, using mouse as the model organism, and discoveries made from this work will provide insights that are relevant to human health and fertility. !

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Career Transition Award (K99)
Project #
1K99HD097285-01A1
Application #
9892137
Study Section
National Institute of Child Health and Human Development Initial Review Group (CHHD)
Program Officer
Taymans, Susan
Project Start
2020-03-05
Project End
2022-02-28
Budget Start
2020-03-05
Budget End
2021-02-28
Support Year
1
Fiscal Year
2020
Total Cost
Indirect Cost
Name
Whitehead Institute for Biomedical Research
Department
Type
DUNS #
120989983
City
Cambridge
State
MA
Country
United States
Zip Code
02142