Role of progesterone action in inguinal hernia formation via skeletal muscle fibrosis and atrophy
Tianming You, Mehrdad Zandigohar, Tanvi Potluri, Natalie Piehl, John S. Coon V, Elizabeth Baker, Maya Kafali, Yang Dai, Jonah J. Stulberg, David J. Escobar, Richard L. Lieber, Hong Zhao, Serdar E. Bulun
Tianming You, Mehrdad Zandigohar, Tanvi Potluri, Natalie Piehl, John S. Coon V, Elizabeth Baker, Maya Kafali, Yang Dai, Jonah J. Stulberg, David J. Escobar, Richard L. Lieber, Hong Zhao, Serdar E. Bulun
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Research Article Cell biology Endocrinology Muscle biology

Role of progesterone action in inguinal hernia formation via skeletal muscle fibrosis and atrophy

Abstract

More than 1 in 4 men will undergo surgery for inguinal hernia, which is commonly associated with fibrotic degeneration of the lower abdominal muscle (LAM) in the groin region. Utilizing a male mouse model expressing the human aromatase gene (Aromhum), previous studies showed that locally produced estradiol acting via estrogen receptor α in LAM fibroblasts leads to fibrosis, myofiber atrophy, and hernia development. Here, we found that upregulation of progesterone receptor (PGR) in a LAM fibroblast population mediates this estrogenic effect. A PGR-selective progesterone antagonist in Aromhum mice decreased LAM fibrosis and atrophy, preventing hernia formation and stopping progression of existing hernias. Addition of progesterone to estradiol treatment was essential for early-onset development of LAM fibrosis and large hernias in wild-type mice, which was averted by a progesterone antagonist. Single-nuclei multiomics sequencing of herniated LAM revealed a unique population of Pgr-expressing fibroblasts that promotes fibrosis and myofiber atrophy through TGF-β2 signaling. Multiomics findings were validated in vivo in herniated LAM tissues of both mice and adult men. Our findings suggest an important and rare pathologic role of progesterone signaling in males and provide evidence for progesterone antagonists as a nonsurgical alternative for inguinal hernia management.

Authors

Tianming You, Mehrdad Zandigohar, Tanvi Potluri, Natalie Piehl, John S. Coon V, Elizabeth Baker, Maya Kafali, Yang Dai, Jonah J. Stulberg, David J. Escobar, Richard L. Lieber, Hong Zhao, Serdar E. Bulun

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Figure 2

Treatment with progesterone antagonist RU486 prevents hernia development and delays further hernia enlargement in Aromhum mice.

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Treatment with progesterone antagonist RU486 prevents hernia development...
(A) Schematic for 12-week RU486 or UPA (Supplemental Figure 2) treatment in 4-week-old WT and Aromhum mice for the prevention of hernia development. Created with BioRender.com. (B) Scrotal/hernia area measurements of WT and Aromhum mice treated with RU486 as in A (n = 9–10/group, mean ± SEM, repeated-measures ANOVA). (C) Representative images of LAM morphology and Masson’s trichrome staining in WT and Aromhum mice after 12-week RU486 preventive treatment. Bilateral scrotal hernias (yellow arrows) and atrophying myofibers in herniated LAM tissue (red arrows) are highlighted for vehicle-treated Aromhum mice. (D and E) Quantification of (D) fibrotic area and (E) minimum Feret diameter in LAM tissues after 12-week RU486 preventive treatment (n = 6–8/group, mean ± SEM, 2-way ANOVA). (F) Schematic for 12-week RU486 or UPA (Supplemental Figure 2) treatment in 6- to 10-week-old Aromhum mice with established scrotal hernias. Created with BioRender.com. (G) Scrotal/hernia area measurements of Aromhum mice treated with RU486 as in F (n = 10–11/group, mean ± SEM, multiple t test). (H) Representative images of LAM morphology and Masson’s trichrome staining after 12 weeks of RU486 treatment of established hernias in Aromhum mice. Bilateral scrotal hernias (yellow arrows) and atrophying myofibers in herniated LAM tissue (red arrows) are highlighted for vehicle-treated Aromhum mice. (I and J) Quantification of (I) fibrotic area and (J) minimum Feret diameter in LAM tissues after 12-week RU486 treatment of established hernias in Aromhum mice (n = 8/group, mean ± SEM, t test). Scale bars: 50 μm. *P < 0.05; **P < 0.01; ****P < 0.0001.