The total mass, copy number, and distribution of hormones in the human bloodstream

by Ron Sender, Tal Kedar, Yoav Navon, Moriya Raz, Shirley Bikel, Rina Hemi, Ron Milo, Shai Fuchs

The human endocrine system orchestrates critical physiological processes, yet a systematic quantitative synthesis of clinically relevant circulating hormones has been lacking. Here, we present a comprehensive, integrative analysis of circulating human hormones, leveraging clinically validated reference intervals across major endocrine subsystems. We use clinically validated reference intervals that we further validate using published datasets. Our analysis reveals that the total mass of circulating hormones is approximately 40 ± 2 mg. We find that this mass in healthy young adults is dominated by Adiponectin and DHEAS, which constitute over 90% of both total hormone weight and copy number. We show there are on the order of a million hormone molecules per cell in the human body. Females have about half the number of circulating hormone molecules compared to males. Across 56 hormones with curated affinity data, free (receptor-available) concentration correlates with receptor binding affinity, with class-specific scaling. Bioavailability mechanisms segregate by chemical class, consistent with chemical structure constraining available buffering strategies. Together, these data provide a quantitative reference for the human endocrine system and highlight relationships linking receptor affinity, bioavailability, and chemical class.