Psoriasis is a non-communicable inflammatory skin disease that affects approximately 2%-3% of the world's population. Given its high impact on quality of life and the fact that a subset of patients exhibits suboptimal or secondary loss of response to current treatments, identifying new therapeutic strategies is crucial. Proliferation-associated protein 2G4 (PA2G4) is a transcription factor that has been exclusively studied in cancer research, where it promotes cell growth and enhances tumourigenesis by inhibiting apoptosis. However, its role in inflammatory skin diseases remains largely unknown.
Objectives
This study focused on the pathophysiological and immunological functions of PA2G4 in psoriasis and evaluated its potential as a therapeutic target.
Methods
Bulk, single-cell, and spatial RNA sequencing combined with immunohistochemistry were used to assess PA2G4 expression in psoriatic skin compared with that in non-lesional controls. Functional studies were performed in primary human keratinocytes and reconstructed human epidermis (RHE) models using the CRISPR/Cas9-mediated knockout (KO) of PA2G4 and pharmacological inhibition of PA2G4 with the small-molecule WS6. The regulatory effects of PA2G4 on cellular processes, such as proliferation, differentiation, and survival, were investigated using RNA-seq, western blot analysis, scratch assays, and annexin V staining.
Results
PA2G4 was highly abundant in psoriasis, and its expression was predominantly restricted to basal proliferating keratinocytes. Its gene expression is positively correlated with psoriasis severity, the degree of acanthosis, neutrophil infiltration, and genes which are upregulated in psoriasis. PA2G4 KO in primary human keratinocytes activated differentiation pathways while suppressing proliferation pathways, resulting in the downregulation of proliferation- and inflammation-related genes (e.g. MKI67, IL20, VEGFA, and HIF1A) and the upregulation of differentiation and cell adhesion markers (e.g. KRT6C, LCE2C, and DSG4). Functionally, the PA2G4 KO reduced keratinocyte proliferation in scratch assays, attenuated interleukin-22-induced acanthosis in RHE models, and promoted keratinocyte death. Pharmacological inhibition of PA2G4 using the small-molecule inhibitor WS6 similarly downregulated genes associated with proliferation and cell survival.
Conclusions
PA2G4 could promote keratinocyte hyperproliferation and survival in psoriasis, thereby critically influencing epidermal homeostasis. Therefore, inhibition of PA2G4 may represent a new treatment option for psoriasis.
