Modeling of host PDZ-dependent interactions with SARS-CoV-2 envelope protein and changes in PDZ protein expression in macrophages and dendritic cells.

PDZ (PSD-95 [postsynaptic density protein 95]/Dlg [Discs large]/ZO-1 [zonula occludens-1]) domain-containing proteins constitute a large family of scaffolds involved in a wide range of cellular tasks and are mainly studied in polarity functions. Diverse host PDZ proteins can be targeted by viral pathogens that express proteins containing PDZ-binding motifs (PDZbms). Previously, we have identified host PDZ-based interactions with the SARS-CoV-2 E protein (2E) in human monocytes. Here, we deepen the study of these interactions by docking and molecular dynamics analyses to identify the most favorable PDZ-PDZbm interaction of 7 host PDZ proteins with the PDZbm of 2E. In addition, we analyzed changes in the expression of 3 of the PDZ proteins identified as 2E interactors in monocytes (syntenin, ZO-2, and interleukin-16), in human monocyte-derived macrophages and in dendritic cells upon stimulation. Our results suggest that these PDZ proteins may have important functions in professional antigen-presenting cells, and their targeting by the PDZbm of 2E, a central virulence determinant of SARS-CoV-2, supports the hypothesis that such PDZ-dependent interaction in immune cells may constitute a viral evasion mechanism. An inhibitor design based on the PDZbm of 2E in the development of drugs against a variety of diseases is discussed.