Familial primary ovarian insufficiency associated with an SYCE1 point mutation: defective meiosis elucidated in humanized mice

Familial primary ovarian insufficiency associated with an SYCE1 point mutation: defective meiosis elucidated in humanized mice

Abstract More than 50% of cases of primary ovarian insufficiency (POI) and nonobstructive azoospermia in humans are classified as idiopathic infertility. Meiotic defects may relate to at least some of these cases. Mutations in genes coding for synaptonemal complex (SC) components have been identifie...

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Bibliographic Details
Published in:Molecular human reproduction Vol. 26; no. 7; pp. 485 - 497
Main Authors: Hernández-López, Diego, Geisinger, Adriana, Trovero, María Fernanda, Santiñaque, Federico F, Brauer, Mónica, Folle, Gustavo A, Benavente, Ricardo, Rodríguez-Casuriaga, Rosana
Format: Journal Article
Language:English
Published: England Oxford University Press 01-07-2020
Subjects:
SYCE1
meiosis
CRISPR/Cas9
gametogenesis
humanized mice
primary ovarian insufficiency
idiopathic infertility
synaptonemal complex
Gametogenesis
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Summary:Abstract More than 50% of cases of primary ovarian insufficiency (POI) and nonobstructive azoospermia in humans are classified as idiopathic infertility. Meiotic defects may relate to at least some of these cases. Mutations in genes coding for synaptonemal complex (SC) components have been identified in humans, and hypothesized to be causative for the observed infertile phenotype. Mutation SYCE1 c.721C>T (former c.613C>T)—a familial mutation reported in two sisters with primary amenorrhea—was the first such mutation found in an SC central element component-coding gene. Most fundamental mammalian oogenesis events occur during the embryonic phase, and eventual defects are identified many years later, thus leaving few possibilities to study the condition’s etiology and pathogenesis. Aiming to validate an approach to circumvent this difficulty, we have used the CRISPR/Cas9 technology to generate a mouse model with an SYCE1 c.721C>T equivalent genome alteration. We hereby present the characterization of the homozygous mutant mice phenotype, compared to their wild type and heterozygous littermates. Our results strongly support a causative role of this mutation for the POI phenotype in human patients, and the mechanisms involved would relate to defects in homologous chromosome synapsis. No SYCE1 protein was detected in homozygous mutants and Syce1 transcript level was highly diminished, suggesting transcript degradation as the basis of the infertility mechanism. This is the first report on the generation of a humanized mouse model line for the study of an infertility-related human mutation in an SC component-coding gene, thus representing a proof of principle.
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ISSN:1460-2407
1460-2407
DOI:10.1093/molehr/gaaa032