Bacterial protein in the urogenital tract linked to fertility issues and birth defects - Video

A team of researchers from the University of Maryland School of Maryland's (UMSOM) Institute of Human Virology (IHV) published new findings that emphasize the crucial role of the urinary and genital tract microbiota in adverse pregnancy outcomes and genomic instability that originate in the womb during fetal development.

The study established a new link between genomic instability and a protein from Mycoplasma fermentans, a kind of bacterium that commonly colonizes the urogenital tract. This bacterial protein also reduced fertility in mother mice and resulted in more birth defects in their newborn pups.

For this latest study, researchers created mice that make the DnaK protein normally produced by the bacterium Mycoplasma fermentans. These mice with exposure to DnaK accrued genomic instability in which entire sections of the genome were duplicated or deleted, resulting in mice with varying numbers of copies of certain genes.

The team noticed that some of these mice from 3-5 weeks of age had problems with movement and coordination. They found that these mice have a deletion in the Grid2 gene, which in humans leads to the rare genetic disease known as spinocerebellar ataxia-18 (SCAR18) that causes delayed development of skilled movements and intellectual disabilities.

More than a third of the female mice that made the DnaK protein were unable to get pregnant. Additionally, more than 20 percent of the pups born from moms with the DnaK protein had some sort of birth defect/deformity.

Reference: Mycoplasma DnaK increases DNA Copy Number Variants in vivo, Proceedings of the National Academy of Sciences