Subfertility in young male mice mutant for chromatin remodeller CECR2.

Defects in spermatogenesis are an important cause of male infertility. Multiple aspects of spermatogenesis are controlled by chromatin remodellers, including regulating transcription. We previously described mutations in chromatin remodelling gene Cecr2 that resulted in the lethal neural tube defect exencephaly in most mutant mice and subfertility in mice that were non-penetrant for exencephaly.

Cecr2 mutant mice as a model for human cat eye syndrome.

Cat eye syndrome (CES), a human genetic disorder caused by the inverted duplication of a region on chromosome 22, has been known since the late 1890s. Despite the significant impact this disorder has on affected individuals, models for CES have not been produced due to the difficulty of effectively duplicating the corresponding chromosome region in an animal model. However, the study of phenotypes associated with individual genes in this region such as CECR2 may shed light on the etiology of CES.

Implantation failure and embryo loss contribute to subfertility in female mice mutant for chromatin remodeler Cecr2†.

Defects in the maternal reproductive system that result in early pregnancy loss are important causes of human female infertility. A wide variety of biological processes are involved in implantation and establishment of a successful pregnancy. Although chromatin remodelers have been shown to play an important role in many biological processes, our understanding of the role of chromatin remodelers in female reproduction remains limited.

Analysis of mutations in Neurospora crassa ERMES components reveals specific functions related to β-barrel protein assembly and maintenance of mitochondrial morphology.

The endoplasmic reticulum mitochondria encounter structure (ERMES) tethers the er to mitochondria and contains four structural components: Mmm1, Mdm12, Mdm10, and Mmm2 (Mdm34). The Gem1 protein may play a role in regulating ERMES function. Saccharomyces cerevisiae and Neurospora crassa strains lacking any of Mmm1, Mdm12, or Mdm10 are known to show a variety of phenotypic defects including altered mitochondrial morphology and defects in the assembly of β-barrel proteins into the mitochondrial outer membrane.

CECR2 is involved in spermatogenesis and forms a complex with SNF2H in the testis.

The regulation of nucleosome positioning and composition by ATP-dependent chromatin remodeling enzymes and their associated binding partners plays important biological roles in mammals. CECR2 is a binding partner to the ISWI (imitation switch) ATPase SNF2L/SMARCA1 and is involved in neural tube closure and inner ear development; however, its functions in adult tissues have not been examined. Here, we report that CECR2 contributes to spermatogenesis and forms a complex that includes the other ISWI ATPase SNF2H/SMARCA5 in the testis.