Repeatedly occurring retrograde menstruation intensifies central sensitization driven by neuroinflammation in endometriosis models

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Abstract

This study investigated how chronic pelvic pain (CPP) develops using rhesus macaques with naturally occurring endometriosis and a multiple lesion induction mouse model (MIM), as repeated retrograde menstruation is considered an underlying mechanism of endometriosis pathogenesis. MIM increased lesion numbers and elevated hypersensitivity. Elevated persistent glial cell activation was observed across multiple brain regions or spinal cords in MIM and rhesus macaques. Elevated TRPV1, SP, and CGRP expressions in the dorsal root ganglia (DRG) were persistent in MIM. MIM induced the severe disappearance of TIM4hiMHCIIlo residential macrophages and an influx of increased pro-inflammatory TIM4loMHCIIhi macrophages in the peritoneal cavity. Cytokine levels were persistently elevated in MIM. Furthermore, dienogest (a synthetic progestin) and fingolimod (a selective immunosuppressor) reduced hyperalgesia and neuroinflammation. Our results indicate that recurrent retrograde menstruation can be a peripheral stimulus that induces nociceptive pain and creates a composite chronic inflammatory stimulus, leading to neuroinflammation and sensitization of the central nervous system. The circuits of neuroplasticity and stimulation of peripheral organs via a feedback loop of neuroinflammation may mediate widespread endometriosis-associated CPP. These findings in mice were further supported by results from the spontaneously developed advanced endometriosis in rhesus macaques via recurrent retrograde menstruation.

Authors

Madeleine E. Harvey, Mingxin Shi, Yeongseok Oh, Taylor M. Page, Debra A. Mitchell, Addie Luo, Ov D. Slayden, James A. MacLean, Anjali Sharma, Kanako Hayashi