Human Epidermal Keratinocytes in Culture Convert Thyroxine to 3,5,3′-Triiodothyronine by Type II Iodothyronine Deiodination: A Novel Endocrine Function of the Skin*

Abstract

Cultured human keratinocytes converted T₄ to T₃ by type II iodothyronine deiodination. Homogenates of keratinocytes cultured from neonatal foreskin or adult arm skin had similar mean T₄ 5′-deiodinating activities. Conversion of T₄ to T₃ by intact cells was demonstrable in cultures from neonatal and adult donors. Only phenolic ring deiodination occurred in the cultured cells and their homogenates, the apparent Michaelis constant for T₄ was 12 nmol/L, and T₄ and rT₃ each inhibited 5′-deiodination of the other. T₄ 5′-deiodination was unaffected by addition to the assay mixture of 1 μmol/L T₃, but was inhibited less than 10% by 1 mmol/L 6-n-propyl-2-thiouracil, 50% by 270 nmol/L iopanoic acid, 50% by 9.4 μmol/L 3,5-diiodo-3′,5′-dimethyl-L-thyronine, and 33% by 42 μmol/L amiodarone. When keratinocytes were cultured for 3–4 days in medium containing iodothyronine-free fetal calf serum, the T₄ 5′-deiodination rates in homogenates doubled; this increase was prevented by restoring a physiological free T₄ concentration, but not by a supraphysiological T₃ concentration. Homogenates of fresh whole skin or fetal cadaveric epidermis did not convert T₄ to T₃ in measureable amounts, although one epidermal homogenate had low level T₃ typrosyl-ring deiodinating activity. These results suggest that human epidermal type II iodothyronine deiodination in man might conceivably contribute to the intracellular T₃ content of the skin and even to serum T₃ concentrations, especially in hypothyroidism