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Dysregulated Gln-Glu-α-ketoglutarate axis impairs maternal decidualization and increases the risk of recurrent spontaneous miscarriage

Linchen Tang, Xianghong Xu, Sha Xu, Zeying Liu, Qizhi He, Wenxuan Li, Jiaxue Sun, Wen Shuai, Jingwen Mao, Jian‐Yuan Zhao, Liping Jin

2023Cell Reports Medicine23 citationsDOIOpen Access PDF

Abstract

Recurrent spontaneous miscarriage (RSM) affects 1%-2% of fertile women worldwide and poses a risk of future pregnancy complications. Increasing evidence has indicated that defective endometrial stromal decidualization is a potential cause of RSM. Here, we perform liquid chromatography with mass spectrometry (LC-MS)-based metabolite profiling in human endometrial stromal cells (ESCs) and differentiated ESCs (DESCs) and find that accumulated α-ketoglutarate (αKG) derived from activated glutaminolysis contributes to maternal decidualization. Contrarily, ESCs obtained from patients with RSM show glutaminolysis blockade and aberrant decidualization. We further find that enhanced Gln-Glu-αKG flux decreases histone methylation and supports ATP production during decidualization. In vivo, feeding mice a Glu-free diet leads to a reduction of αKG, impaired decidualization, and an increase of fetal loss rate. Isotopic tracing approaches demonstrate Gln-dependent oxidative metabolism as a prevalent direction during decidualization. Our results demonstrate an essential prerequisite of Gln-Glu-αKG flux to regulate maternal decidualization, suggesting αKG supplementation as a putative strategy to rectify deficient decidualization in patients with RSM.

Topics & Concepts

DecidualizationStromal cellInternal medicineGlutaminolysisEndocrinologyBiologyAndrologyChemistryMedicineMetabolismGlycolysisReproductive System and PregnancyEndometriosis Research and TreatmentPregnancy and preeclampsia studies