Psoriasis is a chronic inflammatory disease with a complex pathogenesis. Hyperplasia of glycolytic-dependent epidermal keratinocytes (KCs) is a new hallmark of psoriasis pathogenesis. Meanwhile, immune cells undergo metabolic reprogramming similar to KCs. Glycolysis provides energy for the proliferation of KCs, while it also releases lactic acid to facilitate the differentiation of immune cells. In turn, differentiated immune cells further promote KCs glycolysis by releasing inflammatory factors, thus forming an immunometabolism loop. The interaction between immune response and metabolic pathways jointly promotes the sustained proliferation of KCs and the secretion of various inflammatory factors by immune cells. Understanding the role of glycolysis in immunometabolism of psoriasis may provide new ideas for non-immunosuppressive treatment of psoriasis. This article aims to review the role of glycolysis in the pathogenesis of psoriasis and attempts to summarize the key enzymes and regulatory factors involved in psoriasis glycolysis, as well as their interactions. Finally, we discuss the pharmacological modulators of glycolysis in psoriasis.
Keywords: glycolysis; immunometabolism; keratinocytes; metabolic reprogramming; psoriasis.
© 2024 Wei et al.