Med12 gain-of-function mutation causes leiomyomas and genomic instability
Priya Mittal, Yong-hyun Shin, Svetlana A. Yatsenko, Carlos A. Castro, Urvashi Surti, Aleksandar Rajkovic
Priya Mittal, Yong-hyun Shin, Svetlana A. Yatsenko, Carlos A. Castro, Urvashi Surti, Aleksandar Rajkovic
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Brief Report Genetics

Med12 gain-of-function mutation causes leiomyomas and genomic instability

Abstract

Uterine leiomyomas are benign tumors that can cause pain, bleeding, and infertility in some women. Mediator complex subunit 12 (MED12) exon 2 variants are associated with uterine leiomyomas; however, the causality of MED12 variants, their genetic mode of action, and their role in genomic instability have not been established. Here, we generated a mouse model that conditionally expresses a Med12 missense variant (c.131G>A) in the uterus and demonstrated that this alteration alone promotes uterine leiomyoma formation and hyperplasia in both WT mice and animals harboring a uterine mesenchymal cell–specific Med12 deletion. Compared with WT animals, expression of Med12 c.131G>A in conditional Med12–KO mice resulted in earlier onset of leiomyoma lesions that were also greater in size. Moreover, leiomyomatous, Med12 c.131G>A variant–expressing uteri developed chromosomal rearrangements. Together, our results show that the common human leiomyoma–associated MED12 variant can cause leiomyomas in mice via a gain of function that drives genomic instability, which is frequently observed in human leiomyomas.

Authors

Priya Mittal, Yong-hyun Shin, Svetlana A. Yatsenko, Carlos A. Castro, Urvashi Surti, Aleksandar Rajkovic

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Figure 3

Representation of syntenic mapping of uterine rearrangements in Med12fl/+ Med12Rmt/+ Amhr2-Cre female mice on human chromosomal loci.

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Representation of syntenic mapping of uterine rearrangements in Med12fl/...
(A) Genomic duplication observed on mouse chromosomal locus 17qA3.3 is syntenic to the human 6p21 locus (shown in blue). A representative array profile of the 17qA3.3 region, highlighting the 450-kb duplication (chr17: 30586287–31049473), is also shown. (B) Genomic deletion observed on the mouse 4qD2.3 locus is syntenic to the human chromosomal locus 1p36.1–p35. The mouse deletion encompasses 137 kb and is shown in the respective array profile (chr4: 132799884–132936192). Positions are displayed approximately to scale according to the hg19 and mm9 physical maps, respectively.