HIF1α is an essential regulator of steroidogenesis in the adrenal gland

Endogenous steroid hormones, especially glucocorticoids and mineralocorticoids, are essential for life regulating numerous physiological and pathological processes. These hormones derive from the adrenal cortex, and drastic or sustained changes in their circulatory levels affect multiple organ systems. Although a role for hypoxia pathway proteins (HPP) in steroidogenesis has been suggested, knowledge on the true impact of the HIFs (Hypoxia Inducible Factors) and oxygen sensors (HIF-prolyl hydroxylase domain-containing enzymes; PHDs) in the adrenocortical cells of vertebrates is scant. By creating a unique set of transgenic mouse lines, we reveal a prominent role for HIF1α in the synthesis of virtually all steroids under steady state conditions. Specifically, mice deficient in HIF1α in a part of the adrenocortical cells displayed enhanced levels of enzymes responsible for steroidogenesis and a cognate increase in circulatory steroid levels. These changes resulted in cytokine alterations and changes in the profile of circulatory mature hematopoietic cells. Conversely, HIF1α overexpression due to combined PHD2 and PHD3 deficiency in the adrenal cortex resulted in the opposite phenotype of insufficient steroid production due to impaired transcription of necessary enzymes. Based on these results, we propose HIF1α to be a central and vital regulator of steroidogenesis as its modulation in adrenocortical cells dramatically impacts hormone synthesis with systemic consequences. Additionally, these mice can have potential clinical significances as they may serve as essential tools to understand the pathophysiology of hormone modulations in a number of diseases associated with metabolic syndrome, auto-immunity or even cancer.