uterus and ovaries
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New research conducted by Baylor College of Medicine, the University of Oxford, the University of Wisconsin-Madison and Bayer AG, offers novel insight into how to treat endometriosis. The researchers performed genetic analyses of humans and rhesus macaques to identify a specific gene, NPSR1, that increases risk of endometriosis. The study results point to a potential new nonhormonal drug target that may lead to improved therapy.

“This is one of the first examples of DNA sequencing in nonhuman primates to validate results in human studies and the first to make a significant impact on understanding the genetics of common, complex metabolic diseases,” said Rogers, senior author and associate professor at the Human Genome Sequencing Center at Baylor. “The primate research really helped to provide confidence at each step of the genetic analysis in humans and gave us motivation to carry on chasing these particular genes.”

The team’s results are published this week in Science Translational Medicine.

Endometriosis is a painful, chronic condition in which tissue from the uterus inappropriately grows outside the uterus. It is also associated with infertility. It’s estimated that 6–10% of women in the general US population have this condition, and about 4 per 1000 women are hospitalized with it every year.  (Davila, GW, et al. Medscape, May 2021).  Current treatments are limited and include surgery and hormone therapy, which can cause uncomfortable side effects.

The Oxford team, led by corresponding author Krina T. Zondervan, previously found a genetic linkage to endometriosis on chromosome 7p13-15 by analyzing DNA from families containing at least three women diagnosed with the condition. The Baylor team, led by Rogers, verified this genetic linkage in the DNA of rhesus monkeys with spontaneous endometriosis at the Wisconsin National Primate Research Center at the University of Wisconsin-Madison.

They followed up with in-depth sequencing analysis of the endometriosis families at Oxford, which narrowed down the genetic cause to rare variants in the NPSR1 gene. Most of the women carrying these rare variants had stage III/IV disease. The Baylor researchers similarly sequenced rhesus monkeys and again showed suggestive evidence also in this species. Finally, an Oxford study of more than 11,000 women, including patients with endometriosis and healthy women, identified a specific common variant in the NPSR1 gene also associated with stage III/IV endometriosis.

The insights revealed in this genetic analysis point to a potential new drug target. As part of this collaboration, researchers at Bayer, in scientific partnership with Oxford University, used an NPSR1 inhibitor to block protein signaling of that gene in cellular assays and then in mouse models of endometriosis. They found this treatment led to reduced inflammation and abdominal pain, thus identifying a target for future research in treating endometriosis.

“This is an exciting new development in our quest for new treatments of endometriosis, a debilitating and underrecognized disease affecting 190 million women worldwide. We need to do further research on the mechanism of action and the role of the genetic variants in modulation of the gene’s effects in specific tissues. However, we have a promising new nonhormonal target for further investigation and development that appears to address directly the inflammatory and pain components of the disease,” said Zondervan, head of the department of women’s and reproductive health, professor of reproductive and genomic epidemiology and co-director of the Endometriosis CaRe Centre at Oxford.

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