Abstract
Male infertility has been linked to M1AP. In mice, M1AP interacts with the ZZS proteins SHOC1/TEX11/SPO16, promoting DNA class I crossover formation during meiosis. To determine whether M1AP and ZZS proteins are involved in human male infertility by recombination failure, we screened for biallelic/hemizygous loss-of-function (LoF) variants in the human genes to select men with presumed protein deficiency (N = 24). After in-depth characterisation of testicular phenotypes, we identified gene-specific meiotic impairments: men with ZZS deficiency shared an early meiotic arrest. Men with LoF variants in M1AP exhibited a predominant metaphase I arrest with rare haploid round or even elongated spermatids. These differences were explained by different recombination failures: deficient ZZS function led to incorrect synapsis of homologous chromosomes, unrepaired DNA double-strand breaks, and incomplete recombination. Abolished M1AP led to a reduced number of recombination intermediates and class I crossover. Medically assisted reproduction resulted in the birth of a healthy child, offering the possibility of fatherhood to men with LoF variants in M1AP. Our study establishes M1AP as an important, but non-essential, functional enhancer in meiotic recombination.
Keywords:
Crossover; Infertility; M1AP; Meiosis; Recombination.