HIV-1 infection impairs cell cycle progression of CD4+ T cells without affecting early activation responses
Scott F. Sieg, … , Clifford V. Harding, Michael M. Lederman
Scott F. Sieg, … , Clifford V. Harding, Michael M. Lederman
Published September 1, 2001
Citation Information: J Clin Invest. 2001;108(5):757-764. https://doi.org/10.1172/JCI12685.
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Article

HIV-1 infection impairs cell cycle progression of CD4+ T cells without affecting early activation responses

Abstract

Failure of CD4+ T cells to proliferate in response to antigenic stimulation is a characteristic of HIV infection. Analysis of the proliferation defect has been hampered by an inability to identify CD4+ cells with T cell receptor specificity for antigen. To focus only on cells that had been stimulated through the T cell receptor, CD4+ T cells were stimulated with an anti-Vβ3 Ab that activates approximately 3–5% of peripheral blood T cells. This approach revealed proliferation defects in cells from HIV-infected patients that were not appreciated using anti-CD3 Ab stimulation and provided the capacity to examine responses on a single cell basis. After anti-Vβ3 Ab stimulation, CD4+Vβ3+ cells from HIV-infected patients demonstrated defects in expression of cell cycle–associated proteins, D-type cyclins, and cyclin A. However, the expression of early activation markers, CD69 and CD25, was not significantly impaired in cells from most patients. Thus, CD4+ T cell proliferation failure in HIV disease is characterized by dysregulated activation that precludes cell cycle progression. This proliferation defect was most apparent in patients with diminished CD4+ T cell numbers and higher plasma HIV RNA levels. CD4+ T cell proliferation failure may be a key determinant of immune impairment in HIV disease.

Authors

Scott F. Sieg, Clifford V. Harding, Michael M. Lederman

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Cumulative data showing differences between the responses to stimuli in ...
Cumulative data showing differences between the responses to stimuli in patient cells verses control cells. PBMCs from HIV-infected patients (n = 10 for TT and n = 11 for anti-Vβ3 responses; open boxes) and healthy donors (n = 5; hatched boxes) were stimulated with TT, anti-CD3 Ab, anti-Vβ3 Ab, or left in medium alone. After 8 days, the percentages of dividing CD25+ cells, CD4+ cells, and Vβ3+ cells were determined for PBMCs stimulated with TT, anti-CD3 Ab, and anti-Vβ3 Ab, respectively. Respective spontaneous proliferation in unstimulated cultures was subtracted from the values in stimulated cultures to obtain the values shown. The differences in TT response and the anti-Vβ3 responses between patients and controls reached statistical significance (P < 0.05 in each case; Student’s t test).