Progressive CD4+ central–memory T cell decline results in CD4+ effector–memory insufficiency and overt disease in chronic SIV infection
A Okoye, M Meier-Schellersheim… - The Journal of …, 2007 - rupress.org
The Journal of experimental medicine, 2007•rupress.org
Primary simian immunodeficiency virus (SIV) infections of rhesus macaques result in the
dramatic depletion of CD4+ CCR5+ effector–memory T (TEM) cells from extra-lymphoid
effector sites, but in most infections, an increased rate of CD4+ memory T cell proliferation
appears to prevent collapse of effector site CD4+ TEM cell populations and acute-phase
AIDS. Eventually, persistent SIV replication results in chronic-phase AIDS, but the
responsible mechanisms remain controversial. Here, we demonstrate that in the chronic …
dramatic depletion of CD4+ CCR5+ effector–memory T (TEM) cells from extra-lymphoid
effector sites, but in most infections, an increased rate of CD4+ memory T cell proliferation
appears to prevent collapse of effector site CD4+ TEM cell populations and acute-phase
AIDS. Eventually, persistent SIV replication results in chronic-phase AIDS, but the
responsible mechanisms remain controversial. Here, we demonstrate that in the chronic …
Primary simian immunodeficiency virus (SIV) infections of rhesus macaques result in the dramatic depletion of CD4+ CCR5+ effector–memory T (TEM) cells from extra-lymphoid effector sites, but in most infections, an increased rate of CD4+ memory T cell proliferation appears to prevent collapse of effector site CD4+ TEM cell populations and acute-phase AIDS. Eventually, persistent SIV replication results in chronic-phase AIDS, but the responsible mechanisms remain controversial. Here, we demonstrate that in the chronic phase of progressive SIV infection, effector site CD4+ TEM cell populations manifest a slow, continuous decline, and that the degree of this depletion remains a highly significant correlate of late-onset AIDS. We further show that due to persistent immune activation, effector site CD4+ TEM cells are predominantly short-lived, and that their homeostasis is strikingly dependent on the production of new CD4+ TEM cells from central–memory T (TCM) cell precursors. The instability of effector site CD4+ TEM cell populations over time was not explained by increasing destruction of these cells, but rather was attributable to progressive reduction in their production, secondary to decreasing numbers of CCR5− CD4+ TCM cells. These data suggest that although CD4+ TEM cell depletion is a proximate mechanism of immunodeficiency, the tempo of this depletion and the timing of disease onset are largely determined by destruction, failing production, and gradual decline of CD4+ TCM cells.
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