Abstract
Progesterone receptor membrane component 1 (PGRMC1) is a heme-binding protein implicated in a wide range of cellular functions. We previously showed that PGRMC1 binds to cytochromes P450 in yeast and mammalian cells and supports their activity. Recently, the paralog PGRMC2 was shown to function as a heme chaperone. The extent of PGRMC1 function in cytochrome P450 biology and whether PGRMC1 is also a heme chaperone are unknown. Here, we examined the function of Pgrmc1 in mouse liver using a knockout model and found that Pgrmc1 binds and stabilizes a broad range of cytochromes P450 in a heme-independent manner. Proteomic and transcriptomic studies demonstrated that Pgrmc1 binds more than 13 cytochromes P450 and supports maintenance of cytochrome P450 protein levels posttranscriptionally. In vitro assays confirmed that Pgrmc1 KO livers exhibit reduced cytochrome P450 activity consistent with reduced enzyme levels. Mechanistic studies in cultured cells demonstrated that PGRMC1 stabilizes cytochromes P450 and that binding and stabilization do not require PGRMC1 binding to heme. Importantly, Pgrmc1-dependent stabilization of cytochromes P450 is physiologically relevant, as Pgrmc1 deletion protected mice from acetaminophen-induced liver injury. Finally, evaluation of Y113F mutant Pgrmc1, which lacks the axial heme iron-coordinating hydroxyl group, revealed that proper iron coordination is not required for heme binding, but is required for binding to ferrochelatase, the final enzyme in heme biosynthesis. PGRMC1 was recently identified as the causative mutation in X-linked isolated pediatric cataract formation. Together, these results demonstrate a heme-independent function for PGRMC1 in cytochrome P450 stability that may underlie clinical phenotypes.
Highlights
Cytochromes P450 are an essential superfamily of heme-containing monooxygenase enzymes that catalyze biosynthetic reactions, detoxify xenobiotic compounds, and metabolize pharmaceutical drugs (1)
Previous work demonstrated that Progesterone receptor membrane component 1 (PGRMC1) is a cytochrome P450
Binding protein in mammalian cells, and PGRMC1 supports the enzymatic activity of cytochrome P450 51A1 (CYP51A1) in cholesterol synthesis in this system (3)
Summary
Cytochromes P450 are an essential superfamily of heme-containing monooxygenase enzymes that catalyze biosynthetic reactions, detoxify xenobiotic compounds, and metabolize pharmaceutical drugs (1) These enzymes have a characteristic catalytic cycle that allows for the safe activation of molecular oxygen to react with substrates (1). The Saez lab Journal Pre-proof demonstrated that PGRMC2 functions as a heme chaperone and plays a critical role in mitochondrial homeostasis in mouse brown adipose tissue (19). PGRMC2 is required for delivery of newly synthesized heme from the mitochondria to the nucleus (19) These observations suggest that in addition to its demonstrated role in cytochrome P450 biology, PGRMC1 may function as a heme chaperone. We examined the function of PGRMC1 in mouse liver using a knockout model and find that PGRMC1 binds and stabilizes a broad range of cytochromes P450 in a heme-independent manner, defining a non-heme chaperone function for this family of proteins
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