CD4, also known as L3T4, T4, and W3/25, is an approximately 55 kDa type I transmembrane glycoprotein that is expressed predominantly on thymocytes and a subset of mature T lymphocytes. It is a standard phenotype marker for the identification of T cell populations (1). CD4 contains four immunoglobulin-like domains in its extracellular region. Within the ECD, human CD4 shares approximately 52% aa sequence identity with mouse and rat CD4, while mouse and rat CD4 share 73% identity. CD4 is expressed along with CD8 on double positive T cells during their development in the thymus. Either CD4 or CD8 expression is then lost, giving rise to single positive (SP) CD4⁺ or CD8⁺ mature T cells (2). CD4⁺ SP cells, also known as T helper cells, further differentiate into multiple subsets of CD4⁺ cells including Th1, Th2, Th17, Tfh, and Treg cells which regulate humoral and cellular immunity (3). CD4 is re‑expressed on circulating CD8⁺ T cells upon activation and contributes to their cytotoxic effector activity (4). In human, CD4 is additionally expressed on macrophages, neutrophils, monocytes, NK cells, and neurons and glial cells in the brain (5 ‑ 8). Similar CD4 distribution between species cannot be assumed as demonstrated by its presence on macrophages in human and rat but not in mouse (5). CD4 binds directly to MHC class II molecules on antigen presenting cells (9). This interaction contributes to the formation of the immunological synapse which is focused around the TCR-MHC class II-antigenic peptide interaction (1, 10). Palmitoylation of two cysteine residues in the cytoplasmic tail of CD4 promotes the localization of CD4 in lipid rafts and its ability to augment TCR signaling via activation of the tyrosine kinase Lck (11). CD4 also functions as a chemotactic receptor for IL-16 and, in human, as a coreceptor for the gp120 surface glycoprotein of HIV-1 (6, 12‑14). CD4 associates with adhesion molecule CD44 at the cell surface, and triggers CD44-mediated cell adhesion (15).

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