From Sunlight to Signaling: Evolutionary Integration of Vitamin D and Sterol Metabolism
Marianna Raczyk, Carsten Carlberg

TL;DR
This paper explores how vitamin D and sterol metabolism evolved together, influencing human health through genetic, metabolic, and dietary factors.
Contribution
It integrates evolutionary and metabolic perspectives to explain variability in vitamin D status and signaling.
Findings
Vitamin D2 and D3 likely originated as photochemical sterol derivatives and evolved into a regulated endocrine system in vertebrates.
Genes like DHCR7, CYP2R1, CYP27B1, and CYP27A1 contribute to population-level differences in vitamin D status.
Dietary patterns influence nuclear receptor signaling through diverse ligand sources like oxysterols and vitamin D forms.
Abstract
Background/Objectives: This review integrates evolutionary, metabolic, genetic, and nutritional perspectives to explain how sterol-derived vitamin D pathways shape human physiology and inter-individual variability in vitamin D status. Methods: The literature on sterol and vitamin D metabolism across animals, plants, fungi, and algae was synthesized with data from metabolomics databases, genome-wide association studies, RNA-seq resources (including GTEx), structural biology, and functional genomics. Results: Vitamin D2 and vitamin D3 likely emerged early in evolution as non-enzymatic photochemical sterol derivatives and were later co-opted into a tightly regulated endocrine system in vertebrates. In humans, cytochrome P450 enzymes coordinate vitamin D activation and degradation and intersect with oxysterol production, thereby linking vitamin D signaling to cholesterol and bile acid…
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Taxonomy
TopicsVitamin D Research Studies · Cholesterol and Lipid Metabolism · Estrogen and related hormone effects
