Perinatal transmission of major, minor, and multiple maternal human immunodeficiency virus type 1 variants in utero and intrapartum.

Previous studies have provided conflicting data on the presence of selective pressures in the transmission of a homogeneous maternal viral subpopulation to the infant. Therefore, the purpose of this study was to definitively characterize the human immunodeficiency virus type 1 (HIV-1) quasispecies transmitted in utero and intrapartum. HIV-1 envelope gene diversity from peripheral blood mononuclear cells and plasma was measured during gestation and at delivery in mothers who did and did not transmit HIV perinatally by using a DNA heteroduplex mobility assay. Children were defined as infected in utero or intrapartum based on the timing of the first detection of HIV. Untreated transmitting mothers (n = 19) had significantly lower HIV-1 quasispecies diversity at delivery than untreated nontransmittting mothers (n = 18) (median Shannon entropy, 0.711 [0.642 to 0.816] versus 0.853 [0.762 to 0.925], P = 0.005). Eight mothers transmitted a single major env variant to their infants in utero, and one mother transmitted a single major env variant intrapartum. Four mothers transmitted multiple HIV-1 env variants to their infants in utero, and two mothers transmitted multiple env variants intrapartum. The remaining six intrapartum- and two in utero-infected infants had a homogeneous HIV-1 env quasispecies which did not comigrate with their mothers' bands at their first positive time point. In conclusion, in utero transmitters were more likely to transmit single or multiple major maternal viral variants. In contrast, intrapartum transmitters were more likely to transmit minor HIV-1 variants. These data indicate that different selective pressures, depending on the timing of transmission, may be involved in determining the pattern of maternal HIV-1 variant transmission.

Two double-blinded, randomized, comparative trials of 4 human immunodeficiency virus type 1 (HIV-1) envelope vaccines in HIV-1-infected individuals across a spectrum of disease severity: AIDS Clinical Trials Groups 209 and 214.

The potential role of human immunodeficiency virus type 1 (HIV-1)-specific immune responses in controlling viral replication in vivo has stimulated interest in enhancing virus-specific immunity by vaccinating infected individuals with HIV-1 or its components. These studies were undertaken to define patient populations most likely to respond to vaccination, with the induction of novel HIV-1-specific cellular immune responses, and to compare the safety and immunogenicity of several candidate recombinant HIV-1 envelope vaccines and adjuvants. New lymphoproliferative responses (LPRs) developed in <30% of vaccine recipients. LPRs were elicited primarily in study participants with a CD4 cell count >350 cells/mm(3) and were usually strain restricted. Responders tended to be more likely than nonresponders to have an undetectable level of HIV-1 RNA at baseline (P=.067). Induction of new cellular immune responses by HIV-1 envelope vaccines is a function of the immunologic stage of disease and baseline plasma HIV-1 RNA level and exhibits considerable vaccine strain specificity.

Antigen-specific production of RANTES, macrophage inflammatory protein (MIP)-1alpha, and MIP-1beta in vitro is a correlate of reduced human immunodeficiency virus burden in vivo.

RANTES (regulated on activation, normal T expressed and secreted), macrophage inflammatory protein (MIP)-1alpha, and MIP-1beta are human immunodeficiency virus (HIV) suppressor factors by virtue of their ability to compete with HIV for access to cell surface R5. Their ability to block HIV infection in vitro is unequivocal; however, their role as HIV suppressor factors in vivo is not firmly established. We therefore conducted a study to test the hypothesis that production of these factors in vitro was a correlate of decreased virus burden in vivo. Moreover, we asked whether higher beta chemokine production could be demonstrated with cells from people who are R5D32 heterozygotes, compared with people who are R5 wild-type homozygotes. Our data support the thesis that RANTES, MIP-1alpha, and MIP-1beta production is associated with decreased in vivo virus load. Moreover, enhanced production of these factors may be explained in part by the genetic background of the host.

Shipment impairs lymphocyte proliferative responses to microbial antigens.

Lymphocyte proliferation assays (LPAs) are widely used to assess T-lymphocyte function of patients with human immunodeficiency virus infection and other primary and secondary immunodeficiency disorders. Since these assays require expertise not readily available at all clinical sites, specimens may be shipped to central labs for testing. We conducted a large multicenter study to evaluate the effects of shipping on assay performance and found significant loss of LPA activity. This may lead to erroneous results for individual subjects and introduce bias into multicenter trials.

Pneumococcal and influenza immunization and human immunodeficiency virus load in children.

OBJECTIVE: HIV-infected children receiving influenza vaccine, pneumococcal vaccine and both vaccines concurrently were studied to examine the effect of immunization on plasma HIV viral load. METHODS: Thirteen children received immunizations: pneumococcal vaccine, 5; pneumococcal and influenza vaccines, 7; and influenza vaccine, 1. Most patients (12 of 13) were receiving combination reverse transcriptase inhibitor antiretroviral therapy without protease inhibitors at the time of immunization. Baseline plasma HIV RNA was determined 1 month prior (11 of 13), 2 weeks prior (12 of 13) and on the day of immunization (12 of 13). Plasma HIV RNA was assayed at 2 weeks (11 of 13), 4 weeks (12 of 13) and 3 months (5 of 13) after immunization. T cell activation markers (HLA-DR+, CD38+ and CD45RO+, CD28+) were examined for both CD4+ and CD8+ lymphocytes on the day of immunization and 2 weeks after immunization for 11 children. RESULTS: Only one child developed a >0.5-log increase in viral load at any time after immunization. There was no correlation between an increase in viral load and antibody response to pneumococcal vaccine. At least one activation marker increased (> 10%) for two children receiving pneumococcal vaccine and two children receiving pneumococcal and influenza vaccines. One of these children experienced an increase in viral load. CONCLUSION: Immunization with pneumococcal and influenza vaccines, alone or in combination, is rarely associated with a significant increase in HIV plasma RNA in children receiving combination antiretroviral therapy.

Recovery of replication-competent virus from CD4 T cell reservoirs and change in coreceptor use in human immunodeficiency virus type 1-infected children responding to highly active antiretroviral therapy.

Highly active antiretroviral therapy (HAART) suppresses plasma viremia in most patients with human immunodeficiency virus (HIV) infection. Prospective study of HIV-infected children (n=27) shows that, in 8 of 12 who responded to HAART (>/=0.5 log reduction in plasma HIV RNA), HAART restricted the number of coreceptors used by the predominant HIV isolate (mean number of coreceptors used at baseline was 4, vs. 1 coreceptor used at 6 months after treatment). This decrease was most striking in 6 of 8 children whose HIV coreceptor tropism changed from X4-tropic at baseline to R5-tropic. In 6 of 10 children tested, with plasma HIV RNA levels of <50 copies/mL, R5-tropic virus was isolated from CD4 T cell reservoirs. All the responding children had a significant increase in naive CD4 T cells (P<.05). These results show that persistent HIV T cell reservoirs are present in children and that HAART may influence the number and type of coreceptors used by the predominant virus isolate.

Need for an external proficiency testing program for cytokines, chemokines, and plasma markers of immune activation.

An external evaluation program for measuring the performance of laboratories testing for cytokines and immune activation markers in biological fluids was developed. Cytokines, chemokines, soluble cytokine receptors, and other soluble markers of immune activation (CSM) were measured in plasma from a healthy human immunodeficiency virus (HIV)-seronegative reference population and from HIV-seropositive individuals as well as in supernatant fluids from in vitro-stimulated human immune cells. The 14 components measured were tumor necrosis factor (TNF) alpha, gamma interferon, interleukin-1 (IL-1), IL-2, IL-4, IL-6, IL-10, Rantes, MIP-Ia, MIP-Ibeta, soluble TNF receptor II, soluble IL-2 receptor alpha, beta(2)-microglobulin, and neopterin. Twelve laboratories associated with the Adult and Pediatric AIDS Clinical Trial Groups participated in the study. The performance features that were evaluated included intralaboratory variability, interlaboratory variability, comparison of reagent sources, and ability to detect CSM in the plasma of normal subjects as well as the changes occurring in disease. The principal findings were as follows: (i) on initial testing, i.e., before participating in the program, laboratories frequently differed markedly in their analytic results; (ii) the quality of testing of a CSM in individual participating laboratories could be assessed; (iii) most commercial kits allowed distinction between normal and abnormal plasma CSM levels and between supernatants of stimulated and unstimulated cells; (iv) different sources of reagents and reference standards frequently provided different absolute values; (v) inexperienced laboratories can benefit from participating in the program; (vi) laboratory performance improved during active participation in the program; and (vii) comparability between analyses conducted at different sites can be ensured by an external proficiency testing program.

Current evidence and future directions for targeting HIV entry: therapeutic and prophylactic strategies.

Great strides have been made in developing potent antiretroviral regimens that block human immunodeficiency virus (HIV) transcription and assembly. Despite these therapeutic advances, problems of drug resistance, latent viral reservoirs, and drug-induced toxic effects that compromise effective viral control point to the need for new classes of anti-HIV drugs with different modes of action. One promising approach involves blocking HIV entry into human cells, a complex process that involves multiple protein interactions. The process of HIV entry begins with binding of the viral envelope glycoprotein to both the CD4 receptor and one of several chemokine receptors and ends with fusion of viral and cell membranes. Conceptually, there are 3 steps in the HIV entry process that could serve as therapeutic targets: binding of the viral envelope glycoprotein with the CD4 receptor, binding of the envelope-CD4 complex to chemokine receptors, and fusion of the viral and cell membranes. Preclinical and clinical assessment of these entry inhibitors is ongoing and will determine if they possess properties required for drug licensure. Moreover, the worldwide epidemic is largely occurring in developing countries that cannot afford these drugs: a prophylactic vaccine is necessary and urgent. New knowledge of the HIV-envelope glycoprotein has also provided insight into possibilities for the design of novel HIV vaccines. JAMA. 2000;284:215-222

Multisite comparison of methods for the quantitation of the surface expression of CD38 on CD8(+) T lymphocytes. The ACTG Advanced Flow Cytometry Focus Group.

We evaluated the effect of specimen processing variations and quantitation methods on quantitative determination of CD38 expression on CD8 T lymphocytes. Neither lysing reagent (ammonium chloride versus BD FACSlyse), fixation (paraformaldehyde versus no final fixation step), nor acquisition delay (acquisition within 6 h after fixation versus 24 h after fixation) had a significant effect on CD38 relative fluorescent intensity or CD38 quantitative estimates (RFI or antibodies bound per cell). The only significant difference in fluorescent intensity and CD38 antibodies bound per cell (ABC) was encountered when whole blood was held for 24 h prior to staining and fixation and then acquired after another 24-h hold. However, for all sample processing methods above, the CD4 biologic calibrator and QuantiBRITE bead methods gave significantly different estimates of CD38 intensity. In many cases, however, these differences are relatively small and were more pronounced in certain laboratories. We conclude that there is some flexibility in sample processing methods for quantitative CD38 determination; however, it is preferable for a laboratory to employ one method of fluorescence quantitation calculation consistently because small differences are detected between different methods. Cytometry (Comm. Clin. Cytometry) 42:174-179, 2000.

Primary HIV infection of infants: the effects of somatic growth on lymphocyte and virus dynamics.

Acute HIV infection is characterized by the appearance of high concentrations of virus in the peripheral blood. In adults, this high-level viremia spontaneously abates after several weeks. In contrast, after perinatal infection of infants, blood virus levels remain high for many months, during which the concentration of circulating CD4+ lymphocytes remains well above normal values for adults. Here we suggest an explanation for these differences, based on developmental factors including somatic growth and immunological ontogeny. Flow cytometric analysis revealed that at birth the thymus contains elevated levels of mature T lymphocytes, compared to the thymus after 3 months of age. A mathematical model is proposed incorporating immunological and virological data from longitudinally evaluated infants who acquired infection at the time of birth. This model explains the pattern of high-level viremia in infants as resulting from the replication of HIV within the progressively expanding lymphoid cell mass.

Decreased CD8 cell-mediated viral suppression and other immunologic characteristics of women who transmit human immunodeficiency virus to their infants.

CD8 T cell function, lymphocyte surface phenotype, serum markers of immunologic activation, and viral burden were assessed in 75 human immunodeficiency virus (HIV)-infected pregnant women, including 9 who transmitted infection to their infants. Serial studies during and after pregnancy showed no significant differences in levels of cell-surface or serum activation molecules in transmitting compared to nontransmitting mothers, with the exception of a postpartum increase in tumor necrosis factor alpha in transmitting women. The transmitting women had a median plasma viral load of 65,516 RNA copies/mL at delivery versus 5139 in nontransmitting women. During the third trimester, the CD8 cells of 81% of the nontransmitting and 44% of the transmitting mothers suppressed HIV production in vitro by >50%. Women with <50% suppression had a 3.4 times greater risk of transmitting HIV to their infants. CD8 suppression and viral load were interrelated, but when either CD4 percent or AZT use was controlled for, suppression was still significant.

The prognostic significance in HIV infection of immune activation represented by cell surface antigen and plasma activation marker changes.

One hundred and eighteen HIV-infected homosexual men without AIDS and 40 control seronegative homosexual men were assessed for 23 parameters reflecting immune activation to determine prognostic significance for occurrence of AIDS. Samples cryopreserved in 1987-1989 were analyzed, with AIDS occurrence determined by mid-1992. Cell surface antigens assessed on the major lymphocyte subsets were HLA-DR, CD38, CD71, and CD25. Soluble serum molecules assessed were tumor necrosis factor alpha, soluble TNFalpha receptor II, soluble IL-2 receptor alpha, neopterin, and beta2-microglobulin. Using a proportional hazards model, prognostic markers included decreased CD4 number and percentage; increased sIL-2R, neopterin, and beta2M; increased percentage HLA-DR+ total lymphocytes and CD4+ cells; increased CD38+ total lymphocytes and CD8+ cells; increased CD71+ total lymphocytes and CD4+ cells; and decreased CD25+ total lymphocytes and CD19+ cells. After adjustment for CD4 cell levels, sIL-2R, neopterin, beta2M, and CD25+ CD19 cells remained significant, indicating that additional information about AIDS risk was provided by these markers.

Early prognostic indicators in primary perinatal human immunodeficiency virus type 1 infection: importance of viral RNA and the timing of transmission on long-term outcome.

The time of perinatal human immunodeficiency virus type 1 (HIV-1) transmission and the pattern of early plasma viremia as predictors of disease progression were evaluated in infected infants followed from birth. Cox proportional hazards modeling demonstrated that a 1-log higher HIV-1 RNA copy number at birth was associated with a 40% increase in the relative hazard (RH) of developing CDC class A or B symptoms (P = .004), a 60% increase in developing AIDS (P = .01), and an 80% increase in the of risk death (P = .023) over the follow-up period of up to 8 years. The peak HIV-1 RNA copy number for infants during primary viremia was also predictive of progression to AIDS (RH, 9.9; 95% confidence interval [95% CI], 1.8-54.1; P = .008) and death (RH, 6.9; 95% CI, 1.1-43.8; P = .04). The results indicate that high levels of HIV-1 RNA at birth and during primary viremia are associated with early onset of symptoms and rapid disease progression to AIDS and death in perinatally infected children.

Apoptosis in cord blood T lymphocytes from infants of human immunodeficiency virus-infected mothers.

Apoptosis continues to be controversial in human immunodeficiency virus (HIV)-induced pathogenesis. To investigate whether apoptosis occurs with HIV exposure with or without subsequent infection, levels of apoptosis were measured in cord blood lymphocytes (CBL) from seven newborns delivered to HIV-infected mothers and seven normal, unexposed newborns. Live cells were costained with antibodies to cell surface markers and the DNA dye 7-amino actinomycin D to immunophenotype apoptotic CBL subsets. Apoptosis was measured in fresh and cultured CBL in the presence and absence of CD3 T-cell receptor stimulation. Compared to the CD4+ CBL from HIV-unexposed newborns, CD4+ CBL from six HIV-exposed, noninfected newborns demonstrated significantly greater apoptosis after overnight culture even in the absence of CD3 stimulation. Compared to HIV-unexposed controls, CD8+ CBL from the six HIV-exposed newborns also demonstrated increased levels of apoptosis after overnight culture without stimulation. The one HIV-infected newborn in this study showed the highest levels of CD4+ and CD8+ apoptotic CBL. The data suggest that levels of apoptosis are increased in infants in association with HIV infection. Furthermore, CD4+ and CD8+ cord blood lymphocytes from HIV-exposed infants behaved differently than T lymphocytes from either normal, unexposed infants or an HIV-infected infant. These results suggest that exposure to HIV or HIV-induced factors increases the levels of apoptosis in CBL.

Immunologic activation during pregnancy: serial measurement of lymphocyte phenotype and serum activation molecules in HIV-infected and uninfected women.

Immunologic alterations occur during pregnancy, but the effect of pregnancy on HIV infection is controversial. We characterized some of the immunologic alterations with potential to influence HIV disease in 99 infected and 46 uninfected women during pregnancy and up to 6 months post-partum. Immunophenotyping to quantitate the major lymphocyte subsets and determine expression of activation and adhesion molecules on T cells was performed using 3-color staining and laser flow cytometry. Serum neopterin, beta 2-microglobulin, and tumor necrosis factor-alpha (TNF alpha) were quantitated using commercial immunoassays. HIV + pregnant women were compared to uninfected pregnant subjects and to reference ranges established on healthy, HIV-seronegative non-pregnant female controls. Both CD4 and CD8 T cell subsets were increased in HIV-negative pregnant women compared to non-pregnant controls. In HIV-infected pregnant women, CD4 T cells were low and CD8 cells were elevated compared to HIV-negative pregnant and non-pregnant women. Levels of subsets were stable during pregnancy and postpartum in both groups of women. Evidence of peripheral immune activation was found during the later stages of pregnancy. Increases in HLA-DR and CD38 activation antigens on CD8 cells, serum neopterin and beta-2-microglobulin were seen during pregnancy in HIV-negative women. These correlates of immune activation were increased in HIV-infected pregnant women and increased further during pregnancy, paralleling changes seen in uninfected pregnant women. These immunologic alterations may directly or indirectly enhance viral replication, impacting the long-term course of HIV disease.

Relation of impaired lymphocyte proliferative function to other major human immunodeficiency virus type 1-induced immunological changes.

Human immunodeficiency virus (HIV) type 1 (HIV-1) induces impairment of immune function reflected in reduced lymphocyte proliferative responses. Many other immune changes are induced by HIV-1, but their relationship to lymphocyte functional defects is not known. The present study was designed to correlate functional defects with other HIV disease parameters. Cryopreserved samples from 118 HIV-1-positive subjects and 40 seronegative individuals were examined. The main findings were that impaired proliferative responses to mitogens correlated with (i) decreased cell surface expression of the interleukin-2 receptor (CD25), (ii) increased expression of HLA-DR antigens on CD4 cells, (iii) reduced CD4 and increased CD8 cell numbers, and (iv) increased levels of serum immune complex dissociated p24 antigen. However, impaired function was not associated with increased serum neopterin, beta2-microglobulin, or soluble interleukin-2 receptor or with CD38 antigen expression on lymphocytes. In summary, proliferative functional impairment correlated with some, but not all, immunological changes associated with HIV-1 infection. Most of the phenotypic markers that correlated with altered function are cell surface molecules with significant roles in lymphocyte proliferation and were associated primarily with CD4 cells, compatible with the view that dysregulation of CD4 cells is responsible for impaired function.

Timing of lymphocyte activation in neonates infected with human immunodeficiency virus.

Human immunodeficiency virus (HIV) infection in children is associated with qualitative and quantitative changes in the peripheral lymphocyte surface phenotype beyond the normal maturational changes. Neonates, however, have been reported to have a delayed immune response to HIV compared to HIV-infected adults. We prospectively performed immunophenotyping of T lymphocytes by three-color immunofluorescent labeling and laser flow cytometry to determine the timing of phenotypic alterations in 112 neonates born to HIV-infected mothers. Serial testing was performed at birth (cord blood) and at 2, 6, and 12 weeks of age. Data were divided retrospectively for analysis into those for HIV-infected (n = 14) infants and those for exposed, uninfected infants. Our results show that both infected and uninfected infants had a decline in the percentages and numbers of CD4 cells beginning at 2 weeks of age but that the decline was greater in the HIV-infected group. The activation and differentiation of CD8 T cells in HIV+ infants were shown by a significant increase in CD45RA- CD45RO+ CD8+ cells by 6 weeks of age and by increases in CD8+ S6F1+ CD3+ cells and HLA-DR+ CD38+ CD8+ cells by 2 weeks of age. These results indicate that HIV-infected neonates show alterations in T-cell phenotype reflecting those reported for older HIV-infected children. Most importantly, neonatal T cells are able to respond to HIV within the first weeks of life.

Impact of social confrontation on rat CD4 T cells bearing different CD45R isoforms.

The impact of social defeat on lymphocyte subpopulations and T helper subsets was investigated in Long Evans rats. CD4 T helper cell subsets with distinct functional properties and different cytokine profiles can be distinguished by using the mAbs OX-22 (anti-CD45RC) and OX-7 (anti-CD90, Thy1.1). Male intruders were exposed for 2, 6, or 48 h to aggressive resident pairs. All intruders were attacked upon introduction and were defeated as indicated by frequent display of full submissive postures. After 2 and 48 h of confrontation, drastic but differential effects on blood leukocyte numbers, CD4 and CD8a cells, and CD4 subsets were evident. However, after 6 h of confrontation most lymphocyte subset numbers corresponded to baseline levels. Focusing on CD4 subsets after 2 h of confrontation, we demonstrated that only the number of the CD45RC-CD90(-) subset declines, whereas neither the number of the CD45RC+CD90(-) subset nor the number of the CD45RC-CD90(+) subset (recent thymic emigrants) was influenced. Con A stimulation of sorted subsets identified the CD45RC-CD90(-) as a poor producer of IFN-gamma. The data clearly demonstrate that social factors might differentially influence not only T cell subsets but also T helper cell subsets with distinct cytokine profiles in a possibly time-dependent manner. Such a stress-induced shift toward a CD45RC+CD90(-)-dominated milieu may have important consequences in interpreting results obtained from mitogenic stimulation of blood lymphocytes and cytokine production profiles measured after such a stimulation. In addition, a shift toward a CD45RC+CD90(-) dominance may modify the type and magnitude of immune response, at least temporarily.

HIV disease in children is associated with a selective decrease in CD23+ and CD62L+ B cells.

We characterized the surface phenotype of B cells from HIV+ children in order to better understand the biology of B cell dysregulation. Twenty-nine HIV-infected, twenty-one exposed, and nineteen age-matched control children were studied for expression of CD5, CD10, CD21, CD23, CD25, CD62L, CD71, and CD69. We conclude that, despite persistent high immunoglobulin levels, total B cells decreased as HIV disease progressed, with selective decreases in CD62L+ and CD23+ B cells. This resulted in an increased proportion of usually minor subpopulations of CD62L- and CD23-negative B cells. We did not find significantly altered B cell expression of other activation/immaturity antigens. This suggests an absolute decrease in a subset of antigen-responsive B cells and a disproportionate increase in a subset of hyperstimulated B cells. These findings provide a biological basis for the paradoxical generalized B cell hyperactivity and specific immune unresponsiveness that are characteristic of HIV infection in children.