Although generalized T-cell activation is an important factor in chronic HIV disease pathogenesis, its role in primary infection remains poorly defined. To investigate the effect of immune activation on T-cell changes in subjects with early HIV infection, and to test the hypothesis that an immunologic activation "set point" is established early in the natural history of HIV disease, a prospective cohort of acutely infected adults was performed. The median density of CD38 molecules on CD4 ؉ and CD8 ؉ T cells was measured longitudinally in 68 antiretroviral-untreated individuals and 83 antiretroviraltreated individuals. At study entry, T-cell activation was positively associated with viremia, with CD8 ؉ T-cell activation levels increasing exponentially at plasma HIV RNA levels more than 10 000 copies/mL. Among untreated patients, the level of CD8 ؉ T-cell activation varied widely among individuals but often remained stable within a given individual. CD8 ؉ T-cell activation and plasma HIV RNA levels over time were independently associated with the rate of CD4 ؉ T-cell loss in untreated individuals. These data indicate that immunologic activation set point is established early in HIV infection, and that this set point determines the rate at which CD4 ؉ T cells are lost over time. IntroductionUntreated HIV-1 infection is associated with a gradual loss of peripheral CD4 ϩ T cells. Although the direct cytopathic effect of HIV-1 on CD4 ϩ T cells almost certainly contributes to this gradual depletion, 1 most cells destined to die in vivo as a consequence of HIV infection are not productively infected with HIV. 2 This observation has led to the hypothesis that progressive CD4 ϩ T-cell depletion occurs due to indirect effects of viral replication. [3][4][5][6] The mechanism for these indirect effects of HIV replication on CD4 ϩ T-cell depletion is not understood.One widely accepted model postulates that HIV causes accelerated proliferation, expansion, and death of T cells, and that this heightened T-cell turnover eventually results in depletion or exhaustion of the regenerative capacity of the immune system. 4,5 Multiple studies have shown that HIV infection results in a state of high T-cell turnover (ie, the rates of T-cell proliferation and death are increased). For example, in vivo labeling of T cells indicates that HIV infection results in increased numbers of rapidly cycling CD4 ϩ and CD8 ϩ T cells. 7,8 These cells are primarily of memoryeffector phenotype, and are destined to proliferate and die rapidly. 9 The rate at which HIV recruits cells into this rapid turnover state is directly proportional to the level of viremia, 8 which in turn is directly related to the rate at which CD4 ϩ T cells are lost. 10 In the absence of antiretroviral treatment, markers of T-cell activation and T-cell turnover predict the rate of disease progression 11-14 and the rate of CD4 ϩ T-cell loss. 15 When antiretroviral therapy is initiated, the rate of T-cell turnover and the degree of generalized T-cell activation both decrease, suggest...
Context.-Differentiating individuals with early human immunodeficiency virus 1 (HIV-1) infection from those infected for longer periods is difficult but important for estimating HIV incidence and for purposes of clinical care and prevention.Objective.-To develop and validate a serologic testing algorithm in which HIV-1-positive persons with reactive test results on a sensitive HIV-1 enzyme immunoassay (EIA) but nonreactive results on a less sensitive (LS) EIA are identified as having early infection.Design.-Diagnostic test and testing strategy development, validation, and application. Specimens were tested with both a sensitive HIV-1 EIA (3A11 assay) and a less sensitive modification of the same EIA (3A11-LS assay).Settings and Participants.-For assay development: 104 persons seroconverting to HIV-1 comprising 38 plasma donors, 18 patients of a sexually transmitted disease clinic in Trinidad, and 48 participants in the San Francisco Men's Health Study (SFMHS); 268 men without the acquired immunodeficiency syndrome (AIDS) in the SFMHS who had been infected for at least 2.5 years; and 207 persons with clinical AIDS; for testing strategy validation: 488 men in the SFMHS from 1985 through 1990 and 1 275 449 repeat blood donors at 3 American Red Cross blood centers from 1993 through 1995; and for HIV-1 incidence estimates: 2 717 910 first-time blood donors. We retrospectively identified persons eligible for a study of early infection.Main Outcome Measure.-Ability to identify early HIV infection. Results.-Estimated mean time to being 3A11 reactive/3A11-LS nonreactive was 129 days (95% confidence interval [CI], 109-149 days). Our testing strategy accurately diagnosed 95% of persons with early infection; however, 0.4% (1/268) of men with established infection and 2% (5/207) of persons with late-stage AIDS were misdiagnosed as having early HIV-1 infection. Average yearly incidence estimates in SFMHS subjects were 1.5% per year vs observed average incidence of 1.4 per 100 person-years. Incidence in repeat blood donors using the sensitive/less sensitive assay testing strategy was 2.95 per 100 000 per year (95% CI, 1.14-6.53/ 100 000) vs observed incidence of 2.60 per 100 000 person-years (95% CI, 1.49-4.21/100 000). Overall incidence in first-time blood donors was 7.18 per 100 000 per year (95% CI, 4.51-11.20/100 000) and did not change statistically significantly between 1993 and 1996. Use of the sensitive/less sensitive testing strategy alone would have identified all 17 persons with antibodies to HIV-1 eligible for a study of early HIV-1 infection and would have increased enrollment.Conclusions.-The sensitive/less sensitive testing strategy provides accurate diagnosis of early HIV-1 infection, provides accurate estimates of HIV-1 incidence, can facilitate clinical studies of early HIV-1 infection, and provides information on HIV-1 infection duration for care planning.
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