The study investigates the role of the autophagy protein ATG14 in female reproductive tract function, particularly in the oviduct. The authors generated a conditional knockout (cKO) mouse model to ablate Atg14 in the female reproductive tract and found that the loss of Atg14 resulted in infertility despite normal ovarian function.
Further analysis revealed that Atg14 cKO mice had impaired embryo implantation and uterine receptivity, as well as a failure in embryo transport from the oviduct to the uterus. Mechanistically, the loss of Atg14 in the oviduct led to severe structural abnormalities, compromising the cellular plasticity and integrity of the oviduct. This was accompanied by the activation of unscheduled pyroptosis, an inflammatory form of cell death, which impeded the smooth transport of embryos through the oviduct.
Interestingly, the selective loss of Atg14 in oviduct ciliary epithelial cells did not impact female fertility, suggesting that the role of Atg14 in maintaining oviduct homeostasis is distinct from its function in cilia. The authors further demonstrated that pharmacological activation of pyroptosis in pregnant mice led to an impairment in embryo transport, corroborating the critical role of Atg14 in safeguarding against unscheduled pyroptosis to enable successful embryo transport.
These findings provide important insights into the cellular mechanisms underlying early pregnancy loss and suggest the potential use of autophagy modulators as novel prevention strategies for reproductive disorders associated with oviduct dysfunction.
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by POPLI,P., Oe... kl. www.biorxiv.org 03-21-2024
https://www.biorxiv.org/content/10.1101/2024.03.19.585812v1Dybere Forespørgsler