Differential glucose requirement in skin homeostasis and injury identifies a therapeutic target for psoriasis.

Abstract

Proliferating cells depend on glucose uptake more than quiescent cells for their growth. While glucose transport in keratinocytes is mediated largely by the Glut1 facilitative transporter, the keratinocyte-specific ablation of Glut1 did not compromise mouse skin development and homeostasis. Ex vivo metabolic profiling revealed altered sphingolipid, hexose, amino acid, and nucleotide metabolism in Glut1-deficient keratinocytes, suggesting metabolic adaptation. On the other hand, Glut1-deficient keratinocytes in culture displayed metabolic and oxidative stress and impaired proliferation. Similarly, Glut1 deficiency impaired in vivo keratinocyte proliferation and migration within wounded or UV-damaged mouse skin. Notably, both genetic and pharmacological Glut1 inactivation reduced hyperplasia in mouse models of psoriasis-like disease. Topical application of a Glut1 inhibitor also reduced inflammation in these models. Glut1 inhibition decreased expression of pathology-associated genes in human psoriatic skin organoids. Thus, Glut1 is selectively required for injury- and inflammation-associated keratinocyte proliferation, and its inhibition offers a novel treatment strategy for psoriasis.