STAT3 accelerates uterine epithelial regeneration in a mouse model of decellularized uterine matrix transplantation
Takehiro Hiraoka, … , Tomoyuki Fujii, Yutaka Osuga
Takehiro Hiraoka, … , Tomoyuki Fujii, Yutaka Osuga
Published June 2, 2016
Citation Information: JCI Insight. 2016;1(8):e87591. https://doi.org/10.1172/jci.insight.87591.
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Research Article Endocrinology Reproductive biology

STAT3 accelerates uterine epithelial regeneration in a mouse model of decellularized uterine matrix transplantation

Abstract

Although a close connection between uterine regeneration and successful pregnancy in both humans and mice has been consistently observed, its molecular basis remains unclear. We here established a mouse model of decellularized uterine matrix (DUM) transplantation. Resected mouse uteri were processed with SDS to make DUMs without any intact cells. DUMs were transplanted into the mouse uteri with artificially induced defects, and all the uterine layers were recovered at the DUM transplantation sites within a month. In the regenerated uteri, normal hormone responsiveness in early pregnancy was observed, suggesting the regeneration of functional uteri. Uterine epithelial cells rapidly migrated and formed a normal uterine epithelial layer within a week, indicating a robust epithelial-regenerating capacity. Stromal and myometrial regeneration occurred following epithelial regeneration. In ovariectomized mice, uterine regeneration of the DUM transplantation was similarly observed, suggesting that ovarian hormones are not essential for this regeneration process. Importantly, the regenerating epithelium around the DUM demonstrated heightened STAT3 phosphorylation and cell proliferation, which was suppressed in uteri of Stat3 conditional knockout mice. These data suggest a key role of STAT3 in the initial step of the uterine regeneration process. The DUM transplantation model is a powerful tool for uterine regeneration research.

Authors

Takehiro Hiraoka, Yasushi Hirota, Tomoko Saito-Fujita, Mitsunori Matsuo, Mahiro Egashira, Leona Matsumoto, Hirofumi Haraguchi, Sudhansu K. Dey, Katsuko S. Furukawa, Tomoyuki Fujii, Yutaka Osuga

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Figure 1

Experimental procedures of a mouse DMT model.

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Experimental procedures of a mouse DMT model. (A) A schematic illustrati...
(A) A schematic illustration of a mouse model of decellularized matrix transplantation (DMT). (B) A macroscopic image of a decellularized uterine matrix (DUM) from a donor mouse. l, luminal surface; m, myometrial layer. Scale bar: 2 mm. (C) H&E staining of a DUM before transplantation. Intact cells were totally absent, and the original uterine structure was sustained in DUM. l, lumen; s, stromal layer; m, myometrial layer; v, vascular structure. Scale bar: 200 μm. (D) A macroscopic image of the transplantation site in a recipient mouse uterus immediately after DMT (day 0). A trimmed DUM was exactly fitted into a rectangular defect in a recipient mouse uterus and fixed to the recipient uterus with intermittent sutures. UT, a recipient uterus surrounding DUM; yellow arrow, a 10-0 nylon suture thread; dotted line, a boundary between DUM and UT. Scale bar: 2 mm.