Metabolic Control of Luteinizing Hormone-Responsive Ovarian Steroidogenesis

Authors

• Emilia Przygrodzka, University of Nebraska Medical CenterFollow
• Fatema Bhinderwala, University of Nebraska-Lincoln
• Robert Powers, University of Nebraska Medical Center and University of Nebraska-Lincoln
• Renee M. McFee, University of Nebraska-Lincoln
• Andrea S. Cupp, University of Nebraska-Lincoln
• Jennifer R. Wood, University of Nebraska-Lincoln
• John S. Davis, University of Nebraska Medical Center and VA Nebraska-Western Iowa Health Care systemFollow

ORCID IDs

Davis https://orcid.org/0000-0003-3468-4079

Document Type

Article

Date of this Version

2025

Citation

Journal of Biological Chemistry (2025) 301: 108042

doi: 10.1016/j.jbc.2024.108042

Comments

Open access

License: CC BY 4.0

Abstract

The pituitary gonadotropin luteinizing hormone (LH) is the primary stimulus for ovulation, luteal formation, and progesterone synthesis, regardless of species. Despite increased awareness of intracellular signaling events initiating the massive production of progesterone during the reproductive cycle and pregnancy, critical gaps exist in our knowledge of the metabolic and lipidomic pathways required for initiating and maintaining luteal progesterone synthesis. Using untargeted metabolomics and metabolic flux analysis in primary steroidogenic luteal cells, evidence is provided for rapid LHCGR-stimulation of metabolic pathways leading to increased glycolysis and oxygen consumption. Treatment with LH stimulated posttranslational modifications of enzymes involved in de novo lipogenesis. Mechanistic studies implicated a crucial role for de novo fatty acid synthesis and fatty acid oxidation in energy homeostasis, LHCGR/PKA signaling, and, consequently, progesterone production. These findings reveal novel hormone-sensitive metabolic pathways essential for maintaining LHCGR/PKA signaling and steroidogenesis. Understanding hormonal control of metabolic pathways in steroidogenic cells may help elucidate approaches for improving ovarian function and successful reproduction or identifying metabolic targets for developing nonhormonal contraceptives.