Endometrial Cells Migrated to Brain in Mice Study

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Mice study shows endometrial cells may move to the brain.
Mice study shows endometrial cells may move to the brain.

New research in mice suggests that ectopic endometrial cells can migrate to the brain, causing endometriosis of the brain and endothelial cells.

The results were presented at the American Society for Reproductive Medicine (ASRM) Annual Meeting in Baltimore.

According to study investigator Elham N. Samani, MD, of Yale School of Medicine in New Haven, Connecticut, endometriosis is a common disease affecting approximately 10% of women of reproductive age. 

“While it is most commonly found in the pelvis, it occasionally occurs in areas outside of the abdomen, including the brain,” Dr Samani said in an interview. “We wanted to determine if cells from endometriosis could travel to remote organs, such as the brain.”

The experimental endometriosis murine model included C57BL6 mice (n=10; age, 6-8 weeks) implanted with uterine horn fragments from donor DsRed mice. The control group featured mice that received sham surgeries.

Dr Samani and colleagues utilized double immunofluorescence to strain paraffin embedded tissue sections. They used a polyclonal goat anti-DsRed antibody at 1:200 dilution and a rabbit anti-CD31 at 1:100 dilution as primary antibodies, and a donkey anti-goat Alexa 568 antibody and a donkey anti-rabbit Alexa 488 antibody (both at 1:200 dilutions) as secondary antibodies. 

According to results, immunofluorescence straining showed that the majority of C57BL6 mice brains had DsRed positive cells. The researchers also found that CD31+DsRed+ was present in the experimental endometriosis mice, indicating incorporation of endometrial cells into vessels.

“We concluded that cells from endometriosis can migrate to the brain,” Dr Samani said. “The presence of ectopic endometrial cells in all experimental mice suggests that migration of endometriosis to distant organs may be common and clinically unrecognized.”

Dr Samani added that endometriosis has widespread and systemic manifestation, and its extent is much more than what is seen (eg, pelvic cavity lesions).

James S. Segars, MD, president of the Society for Reproductive Endocrinology and Infertility, an ASRM affiliate, said in a press release that this experiment shows how extensively endometriosis may infiltrate the body.

“In addition to impairing fertility, the disease can be debilitatingly painful and is difficult to treat,” Dr Segars said. “We hope through more research like this to learn more about the development and progress of endometriosis, so we can provide more effective treatment to our patients.” 

Reference

  1. Samani EN, Li F, Krikun G, et al. Abstract O-178. Frequent Migration of Ectopic Endometrial Cells to the Brain in a Murine Model of Endometriosis. Presented at: ASRM Annual Meeting; Oct. 17-21, 2015; Baltimore.
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