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  • Title: Early increase of CD4+ CD45RA+ and CD4+ CD95- cells with conserved repertoire induced by anti-retroviral therapy in HIV-infected patients.
    Author: Silvestri G, Munoz-Calleja C, Bagnarelli P, Piedimonte G, Clementi M, Montroni M.
    Journal: Clin Exp Immunol; 1998 Jan; 111(1):3-11. PubMed ID: 9472655.
    Abstract:
    Administration of anti-retroviral drugs induces a decrease of viral load associated with increase of CD4+ cell count in most HIV-infected patients. To investigate the early changes in CD4+ cell phenotype induced by anti-retroviral therapy, six patients with CD4+ cell count > 100/mm3 and never treated with anti-HIV therapy were enrolled and blood samples collected several times within 14 days from the initiation of therapy with Zidovudine plus Didanosine. CD4+ cell count and HIV viraemia were investigated at each time point, as well as the expression of CD45RA, CD45RO and CD95/Fas molecules on CD4+ cells, and the T cell receptor (TCR) Vbeta repertoire of CD4+ cells. All patients showed a rapid and dramatic decrease in viral load with a corresponding increase of CD4+ cell count. The main remodelling of CD4+ cell subpopulations took place in the first 14 days of therapy, and consisted of: (i) increased CD4+CD45RA+/CD4+CD45RO+ ratio; (ii) decrease of CD95/Fas expression. The rise in absolute number of CD4+CD45RA+ cells was paralleled by an increase of CD4+CD95/Fas- cells and accounted for most of the early increment of CD4+ cell count. The TCR Vbeta repertoire of CD4+ cells was conserved after anti-HIV therapy, with the exception of two patients with expanded CD4+Vbeta12+ cells, which also tested CD45RA+ and CD95/Fas-. These experiments show that newcomer CD4+ lymphocytes are CD45RA+CD95/Fas- cells, suggesting that blocking HIV replication causes an early and antigen-independent proliferation of possibly 'naive' cells unprimed for CD95/Fas-mediated apoptosis. These cells expressed a conserved and widespread TCR repertoire, suggesting that their capability for antigenic recognition is intact.
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