[Exploring non-hormonal therapies and drug repositioning for endometriosis: insights from mouse model studies].

Abstract

The mainstay of treatment for endometriosis is hormonal therapy, which suppresses ovulation; therefore, patients cannot conceive during treatment. There is a dilemma with ovarian-sparing surgery, known as laparoscopic cystectomy, as it can potentially damage the ovaries. Therefore, there is a need for non-hormonal drug therapies. We addressed these challenges in endometriosis treatment, aiming to maintain ovarian function while achieving effective treatment through basic research. Herein, we present two studies using different mouse models of endometriosis. The first study investigates the effects of a nucleotide-binding oligomerization domain, leucine-rich repeat, and pyrin domain-containing (NLRP) 3 inhibitor in a mouse model of ovarian endometriotic cysts. We confirmed the increased expression of NLRP in ovarian endometriotic cysts compared with that in the uterine endometrium in both patient-derived samples and mouse model lesions. Administering an NLRP3 inhibitor to model mice resulted in lesion reduction. The second study used a peritoneal lesion mouse model to examine bacterial infection in the endometrium and its association with endometriosis development. Using existing databases and patient-derived samples, we identified that Fusobacterium was involved in the development of endometriosis and lesion enlargement when infecting the endometrium in the model. Furthermore, antibiotic treatment led to a reduction in the lesions. These studies highlight the potential of repositioning existing drugs with NLRP3 inhibitory effects or antibiotics as new non-hormonal treatments for endometriosis.