Patricia M. Hultin

Natural Killer Cell Immunodeficiency in Hiv Disease is Manifest by Profoundly Decreased Numbers of Cd16 + Cd56+ Cells and Expansion of a Population of Cd16dim Cd56- Cells with Low Lytic Activity

Natural killer (NK) cells were enumerated by three-color immunofluorescence in 255 uninfected and 399 human immunodeficiency virus-infected adults. Several dramatic alterations were observed. First, the median number and percentage of CD16+CD56+ NK cells, the subset that comprises > 90% of the NK cells in healthy adults, were severely decreased (median, 175/mm3 in uninfected controls; 63/mm3 in HIV-infected non-AIDS subjects). Even subjects with > 800 CD4+ cells/mm3 had decreased CD16+CD56+ NK cell levels (97/mm3). Second, the number of CD16+CD56- cells, an NK population that is rare in healthy adults, was elevated (median, 20/mm3 in uninfected controls; 64/mm3 in HIV-seropositive non-AIDS subjects). Third, the expression of CD16 on the NK cells was markedly reduced; some CD56+ cells and virtually all CD56- cells were CD16dim. Fourth, fluorescence-activated cell-sorting studies revealed little NK- or antibody-dependent cellular cytotoxic activity in the CD16dimCD56- cell population. These results indicate that the pathogenesis of HIV disease includes numerical alterations in subpopulations of NK cells. A better understanding of how HIV infection causes this aspect of pathogenesis is needed.

Homeostasis of the Naive CD4+ T Cell Compartment during Aging

Despite thymic involution, the number of naive CD4+ T cells diminishes slowly during aging, suggesting considerable peripheral homeostatic expansion of these cells. To investigate the mechanisms behind, and consequences of, naive CD4+ T cell homeostasis, we evaluated the age-dependent dynamics of the naive CD4+ T cell subsets CD45RA+CD31+ and CD45RA+CD31−. Using both a cross-sectional and longitudinal study design, we measured the relative proportion of both subsets in individuals ranging from 22 to 73 years of age and quantified TCR excision circle content within those subsets as an indicator of proliferative history. Our findings demonstrate that waning thymic output results in a decrease in CD45RA+CD31+ naive CD4+ T cells over time, although we noted considerable individual variability in the kinetics of this change. In contrast, there was no significant decline in the CD45RA+CD31− naive CD4+ T cell subset due to extensive peripheral proliferation. Our longitudinal data are the first to demonstrate that the CD45RA+CD31+CD4+ subset also undergoes some in vivo proliferation without immediate loss of CD31, resulting in an accumulation of CD45RA+CD31+ proliferative offspring. Aging was associated with telomere shortening within both subsets, raising the possibility that accumulation of proliferative offspring contributes to senescence of the naive CD4+ T cell compartment in the elderly. In contrast, we observed retention of clonal TCR diversity despite peripheral expansion, although this analysis did not include individuals over 65 years of age. Our results provide insight into naive CD4+ T cell homeostasis during aging that can be used to better understand the mechanisms that may contribute to immunosenescence within this compartment.

Elevated relative fluorescence intensity of CD38 antigen expression on CD8+ T cells is a marker of poor prognosis in HIV infection: Results of 6 years of follow‐up

Relative fluorescence intensity measurements from a flow cytometer were used to evaluate expression of CD38 and HLA-DR antigens. These molecules are associated with cellular activation and are present at increased levels on the CD8+ lymphocytes of HIV-infected subjects. In the current study, the prognostic value of mean fluorescence intensity measurements of CD38 and HLA-DR on CD8+ cells was compared to results from our previous study in which we reported prognostic value for an elevated percentage of CD8+ cells that were positive for expression of the CD38 antigen (Giorgi et al.: JAIDS 6:904-912, 1993). Using the proportional hazards model, elevated mean fluorescence intensity of CD38 expression on CD8+ cells had prognostic value for development of AIDS that was almost identical to the prognostic value of the percentage of CD8+ cells that were positive for expression of CD38. This prognostic value was in addition to that provided by the patients CD4+ cell measurement. To our knowledge, this is the first report that a measurement of fluorescence intensity can be used as a prognostic marker in an immunodeficiency disease. Efforts are needed to establish methods that will allow widespread application of this observation in the clinical management of HIV-infected subjects.

Premature aging of T cells is associated with faster HIV-1 disease progression.

Objective:To determine if untreated HIV-1 infection and progression is associated with premature aging of memory CD8+ and CD4+ T cells and naive CD4+ T cells. Methods:Twenty HIV-1-infected fast progressors and 40 slow progressors were included in our study, using risk set sampling. The expression of cell surface markers reflecting the differentiation stages of lymphocytes was measured using flow cytometry analyses performed on cryopreserved peripheral blood mononuclear cells. Results:We found that HIV-1 disease progression is associated with a decreased CD28 median florescence intensity on CD4+ and CD8+ T cells; an increased proportion of intermediate- and late-differentiated CD8+ T cells and a decreased CD31 median florescence intensity on naive CD4+ T cells of recent thymic origin. A selective depletion of peripherally expanded naive CD4+ T cells was found to be associated with HIV-1 infection but not with HIV-1 disease progression. Conclusions:The overall change during HIV-1 infection and progression is associated with a shift in the T-cell population toward an aged conformation, which may be further compromised by impaired renewal of the less-differentiated CD4+ T-cell population. Our results suggest that HIV-1 infection induces an accelerated aging of T lymphocytes, which is associated with the clinical progression to AIDS and death.

Optimization of methods to assess human mucosal T-cell responses to HIV infection

The majority of HIV-1 infections occur via sexual transmission at mucosal epithelia lining the vagina, cervix or rectum. Mucosal tissues also serve as viral reservoirs. However, our knowledge of human mucosal T-cell responses is limited. There is a need for reliable, sensitive, and reproducible methods for assessing mucosal immunity. Here we report on the collaborative efforts of two laboratories to optimize methods for processing, culturing, and analyzing mucosal lymphocytes. Rectal biopsy tissue was obtained by flexible sigmoidoscopy, which is rapid, minimally invasive, and well tolerated. Of the four methods compared for isolating mucosal mononuclear cells (MMC), collagenase digestion reproducibly yielded the most lymphocytes (4-7 x 10(6)). Furthermore, 0.5-1 x 10(6) MMC could be polyclonally expanded to yield 17 x 10(6) CD8+ T cells allowing mapping of responses to overlapping peptides spanning the HIV-1 genome using IFN-gamma enzyme-linked immunospot (ELISpot). Expansion also reduced the spontaneous IFN-gamma production normally detected in fresh MMC. Piperacillin-tazobactam and amphotericin B reduced contamination of MMC cultures to 4%. Taken together, these methods will be useful for studies of mucosal immunity to HIV-1 and other pathogens during natural infection and following vaccination.

Regulatory T Cell Expansion and Immune Activation during Untreated HIV Type 1 Infection Are Associated with Disease Progression

Regulatory T cells (Tregs) may play an important role in the immunopathology of chronic HIV-1 infection due to their potent suppressive activity of both T cell activation and effector function. To investigate the correlation between Tregs and immune activation during untreated chronic HIV-1 infection, we conducted a nested case-control study within the Multicenter AIDS Cohort Study (MACS). Twenty HIV-1-infected fast progressors (FP) and 40 slow progressors (SP) were included in our study using risk-set sampling. Nine age-matched HIV-1-uninfected men (UI) were also included. Cryopreserved peripheral blood mononuclear cells (PMBCs) were tested using flow cytometry analyses. We identified Tregs as Foxp3+CD25+CD4+ T cells and assessed the activation of CD4+ and CD8+ T cells by the expression of CD38, HLADR, or both markers simultaneously. There is a relative expansion of Tregs during HIV-1 infection, which is associated with disease progression. The increased CD38 expression on both CD4+ and CD8+ T cells expressed as either percentage or median fluorescence intensity (MFI) and the elevated proportion of CD8+ T cells that is HLADR+CD38+ were all associated with rapid HIV-1 progression. Counter to the assumed role of Tregs as the suppressors of activation, the expansion of Tregs was positively correlated with CD4+ T cell activation among HIV-1-infected fast progressors. The high level of Tregs associated with rapid HIV progression may suggest a detrimental role of these cells in the immune control of HIV-1 infection.

Immunologic effects of combined protease inhibitor and reverse transcriptase inhibitor therapy in previously treated chronic Hiv-1 infection

Objective:To evaluate the efficacy of combination protease and reverse transcriptase inhibitor therapy in correcting HIV-1-induced lymphocyte subset abnormalities in previously treated adults. Design:A 48-week observational study of lymphocyte subsets in 12 participants in the Multicenter AIDS Cohort Study who were already taking at least one reverse transcriptase inhibitor and added a protease inhibitor to their treatment regimen. Comparison groups were HIV-seronegative homosexual men, HIV-seronegative heterosexual men, and homosexual HIV-1-infected men who were long-term nonprogressors. Methods:Three-color immunofluorescence and monoclonal antibodies were used to assess HIV-1-induced lymphocyte subset alterations related to immune deficiency and immune activation. Plasma HIV-1 RNA levels were monitored to assess suppression of viral replication. Results:CD4+ cell counts significantly increased and lymphocyte activation measured as CD38 and HLA-DR expression on CD8+ T cells significantly decreased by 48 weeks. CD4+ cell values remained abnormal even in those who were fully suppressed. Some T-cell activation markers decreased to levels observed in long-term non-progressors. The increase in CD4+ T-cell numbers reached a plateau by week 24, but the increase in resting HLA-DR-CD38-T cells was sustained through week 48. Proportions of CD45RA+ CD62L-selectin+ and CD28+ CD4+ T-cell subsets and Fas expression were not abnormal at baseline compared with seronegative homosexual controls. Conclusions:The most significant impact of suppression of viral replication was reversal of T-cell activation. However, normalization of lymphocyte subset perturbations associated with chronic HIV-1 infection was not achieved after 1 year of treatment with current combination antiretroviral regimens. More profound viral suppression, therapy for longer than 1 year, or immunologic augmentation may be needed to fully reverse the abnormalities.

Epitope escape mutation and decay of human immunodeficiency virus type 1-specific CTL responses.

To investigate possible mechanisms behind HIV-1 escape from CTL, we performed detailed longitudinal analysis of Gag (SLYNTVATL)- and RT (ILKEPVHGV)-specific CTL responses and plasma epitope sequences in five individuals. Among those with CTL against consensus epitope sequences, epitope mutations developed over several years, invariably followed by decay of the CTL targeting the consensus epitopes. The maturation state of the CTL varied among individuals and appeared to affect the rate of epitope mutation and CTL decay, despite similar IFN-γ production. Escape mutations were oligoclonal, suggesting fitness constraints. The timing of escape indicated that the net selective advantage of escape mutants was slight, further underscoring the importance of understanding factors determining selective pressure and viral fitness in vivo. Our data show surprisingly consistent decay of CTL responses after epitope escape mutation and provide insight into potential mechanisms for both immune failure and shifting CTL specificities.

The dual impact of HIV-1 infection and aging on naive CD4 T-cells: additive and distinct patterns of impairment.

HIV-1-infected adults over the age of 50 years progress to AIDS more rapidly than adults in their twenties or thirties. In addition, HIV-1-infected individuals receiving antiretroviral therapy (ART) present with clinical diseases, such as various cancers and liver disease, more commonly seen in older uninfected adults. These observations suggest that HIV-1 infection in older persons can have detrimental immunological effects that are not completely reversed by ART. As naïve T-cells are critically important in responses to neoantigens, we first analyzed two subsets (CD45RA+CD31+ and CD45RA+CD31-) within the naïve CD4+ T-cell compartment in young (20–32 years old) and older (39–58 years old), ART-naïve, HIV-1 seropositive individuals within 1–3 years of infection and in age-matched seronegative controls. HIV-1 infection in the young cohort was associated with lower absolute numbers of, and shorter telomere lengths within, both CD45RA+CD31+CD4+ and CD45RA+CD31-CD4+ T-cell subsets in comparison to age-matched seronegative controls, changes that resembled seronegative individuals who were decades older. Longitudinal analysis provided evidence of thymic emigration and reconstitution of CD45RA+CD31+CD4+ T-cells two years post-ART, but minimal reconstitution of the CD45RA+CD31-CD4+ subset, which could impair de novo immune responses. For both ART-naïve and ART-treated HIV-1-infected adults, a renewable pool of thymic emigrants is necessary to maintain CD4+ T-cell homeostasis. Overall, these results offer a partial explanation both for the faster disease progression of older adults and the observation that viral responders to ART present with clinical diseases associated with older adults.

Parallel human immunodeficiency virus type 1-specific CD8(+) T-lymphocyte responses in blood and mucosa during chronic infection

ABSTRACT Gut-associated lymphoid tissue is the major reservoir of lymphocytes and human immunodeficiency virus type 1 (HIV-1) replication in vivo, yet little is known about HIV-1-specific CD8+ T-lymphocyte (CTL) responses in this compartment. Here we assessed the breadth and magnitude of HIV-1-specific CTL in the peripheral blood and sigmoid colon mucosa of infected subjects not on antiretroviral therapy by enzyme-linked immunospot analysis with 53 peptide pools spanning all viral proteins. Comparisons of blood and mucosal CTL revealed that the magnitude of pool-specific responses is correlated within each individual (mean r2 = 0.82 ± 0.04) and across all individuals (r2 = 0.75; P < 0.001). Overall, 85.1% of screened peptide pools yielded concordant negative or positive results between compartments. CTL targeting was also closely related between blood and mucosa, with Nef being the most highly targeted (mean of 2.4 spot-forming cells [SFC[/106 CD8+ T lymphocytes/amino acid [SFC/CD8/aa]), followed by Gag (1.5 SFC/CD8/aa). Finally, comparisons of peptide pool responses seen in both blood and mucosa (concordant positives) versus those seen only in one but not the other (discordant positives) showed that most discordant results were likely an artifact of responses being near the limit of detection. Overall, these results indicate that HIV-1-specific CTL responses in the blood mirror those seen in the mucosal compartment in natural chronic infection. For protective or immunotherapeutic vaccination, it will be important to determine whether immunity is elicited in the mucosa, which is a key site of initial infection and subsequent HIV-1 replication in vivo.