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It is likely that CCR5 plays a role in inflammatory responses to infection, though its exact role in normal immune function is unclear. Regions of this protein are also crucial for chemokine ligand binding, the functional response of the receptor, and HIV co-receptor activity.
Many strains of HIV use CCR5 as a co-receptor to enter and infect host cells. A few individuals carry a mutation known as CCR5-Δ32 in the CCR5 gene, protecting them against these strains of HIV. [citation needed] In humans, the CCR5 gene that encodes the CCR5 protein is located on the short (p) arm at position 21 on chromosome 3.
Cytokines are a family of secreted proteins that function in inflammatory and immunoregulatory processes. The protein encoded by this gene binds to several chemokine receptors, including chemokine binding protein 2 and chemokine (C-C motif) receptor 5 (CCR5). CCR5 is a co-receptor for HIV, and binding of this protein to CCR5 inhibits HIV entry.
The reason for the preferential loss of mucosal CD4 + T cells is that a majority of mucosal CD4 + T cells express the CCR5 coreceptor, whereas a small fraction of CD4 + T cells in the bloodstream do so. [5] HIV seeks out and destroys CCR5 expressing CD4 + cells during acute infection. A vigorous immune response eventually controls the infection ...
It binds to CCR5 (as well as 2 other chemokines) on the surface of CD4+ T-cells. CCR5 is used by HIV as an entrance molecule to a cell. On the contrary, CCL5 in high concentration might increase HIV replication. [8] The chemokine is involved also in antiviral response against other viruses.
Human Immunodeficiency virus uses CCR5 receptor to target and infect host T-cells in humans. It weakens the immune system by destroying the CD4+ T-helper cells, making the body more susceptible to other infections. CCR5-Δ32 is an allelic variant of CCR5 gene with a 32 base pair deletion that results in a truncated receptor.
The gp120 will bind CD4 and the CCR5co receptor molecule, and this triggers gp41-mediated fusion of the viral and cellular membranes. CCR5 is hence needed for the entry of the virus and this infection of healthy cells. Leronlimab, the anti-CCR5 monoclonal antibody, can stop HIV from entering the cell and stop viral replication.
A specific genetic change that alters the CCR5 protein when present in both chromosomes very effectively prevents HIV-1 infection. [107] HIV seeks out and destroys CCR5 expressing CD4 + T cells during acute infection. [108] A vigorous immune response eventually controls the infection and initiates the clinically latent phase.