HIV-1 can persist in infected patients despite undetectable plasma viremia. To characterize the residual viral load, repetitive blood and tonsillar samples were collected from 11 HIV-1-positive ...individuals before and during 96 weeks of therapy with zidovudine, lamivudine, and indinavir. HIV-1 RNA in tonsils was quantified by RT-PCR and infectious HIV-1 provirus by the limiting dilution assay. Genotypic resistance analyses and biological characterization were performed on plasma virus, blood, and tonsillar isolates. Tonsillar infectious HIV-1 provirus and HIV-1 RNA declined by 2 and 3 log(10), respectively, but 10(3)-10(4) cells, less than 0.5% of the total body CD4(+) T cell population carrying infectious HIV-1 provirus, remained involved in active viral replication of drug-sensitive R5 viruses. Thus, the dominant HIV-1 residual infection consists of < or = 10(6) latently infected CD4(+) cells. Plasma HIV-1 RNA decline of > 1.5 log(10) during the first 2 weeks of therapy may indicate low levels of this latent reservoir. Whereas the reservoir of latently infected cells remains stable, actively replicating HIV-1 continuously declines during prolonged antiretroviral therapy. Thus, although viral eradication seems unlikely, antiretroviral therapy may induce an extended period of virologic latency in HIV-1-positive individuals.
Apoptosis has been proposed as a mechanism responsible for T cell depletion in HIV-1 infection. In the present study we have phenotyped apoptotic T cells in tonsillar lymphoid tissue from 11 ...HIV-1-infected patients by flow cytometry light-scatter characteristics during 48 weeks of highly active antiretroviral therapy (HAART). We found that the decline in tonsillar viral load was associated with a decrease in the proportion of apoptotic CD4+ and CD8+ T cells. CD4 cell apoptosis was predominantly seen within the memory CD28+Fas+FasL+ population. The increased level of apoptotic CD8+ T cells was found among activated Fas+ memory cells irrespective of CD28 and FasL expression. These T cell subsets were expanded in untreated infection, but normalized with therapy. We conclude that HIV-1 triggers FasL-mediated apoptosis of uninfected CD4+ T cells, whereas CD8+ T cell apoptosis is driven by chronic immune activation. Virus suppression reverses both of these mechanisms, contributing to immune reconstitution during HAART.
T cell turnover was studied in situ in tonsillar lymphoid tissue (LT) from HIV-1-infected individuals during 48 weeks of highly active antiretroviral therapy (HAART) and compared to that of ...HIV-1-negative controls. Prior to therapy, CD4 cell proliferation (%CD4+ Ki67+) and apoptosis (%CD4+ TUNEL+) were increased in HIV-1-infected LT and both parameters correlated with tonsillar viral load. CD8 cell proliferation (%CD8+ Ki67+) was increased 4- to 10-fold, mainly in the germinal centers. Apoptotic CD8+ T cell levels (%CD8+ TUNEL+) were raised preferentially in the tonsillar T cell zone. The frequency of CD8+ Ki67+ and CD8+ TUNEL+ T cells correlated with tonsillar viral load and with the fraction of CD8+ T cells expressing activation markers. During HAART, CD4 cell turnover normalized while CD8 cell turnover was dramatically reduced. However, low level viral replication concomitant with slightly elevated levels of CD8 cell turnover indicated a persistent cellular immune response in LT. In conclusion, enhanced T cell turnover may reflect effector cells related to HIV-1 infection.
The effects of highly active antiretroviral therapy (HAART) on immunoglobulin isotypes and immunoglobulin G (IgG) subclasses were studied in 12 patients in early stages of HIV-1 infection. Blood ...samples were obtained at enrollment and 2, 4, 8, 12, 24, 48, and 120 weeks after initiation of HAART. Immunoglobulin concentrations were determined by nephelometry, and anti-p24-specific IgG and IgG1 levels were determined by an enzyme immunoassay. Overall time changes were analyzed in analysis of variance models. IgG and IgG1 levels showed a marked overall decline, whereas other immunoglobulin isotypes and IgG subclasses did not change significantly. Anti-p24-specific IgG1 levels decreased considerably and significantly more in virus isolation-negative patients than in virus isolation-positive patients, as defined according to the ability to isolate HIV-1 from their CD4+ T cells after initiation of therapy. Anti-p24 IgG levels showed a similar but overall weaker decline in the two groups. However, the anti-p24 IgG1 level followed the biphasic decline in plasma viremia more closely than the anti-p24 IgG level, with an initial sharp decline that leveled off with time. These findings suggest that the main reduction in immunoglobulin levels is caused by reduced HIV-1-specific antigen stimulation rather than a general reduction in immune activation. Using anti-p24 IgG1 as a parameter of response to the effect of HAART merits further investigation. PUBLICATION ABSTRACT
Antiretroviral therapy increases the number of both CD4+ and CD8+ T cells in the blood of HIV-1-positive patients with advanced disease. In the present study, we have examined the kinetics of CD4+ ...and CD8+ T cell restoration in blood and lymphoid tissue in asymptomatic HIV-1-positive individuals with high CD4+ cell counts during highly active antiretroviral treatment. Tonsillar biopsies and blood samples were collected at baseline and at regular intervals during the following 48 weeks and from HIV-1-negative controls. Mononuclear cells from blood and tonsils were phenotyped and quantified by three-color flow cytometry. After 48 weeks of therapy, blood CD4+ cell counts in the HIV-1-infected group were comparable to those found in uninfected controls. Naive CD4+ T cells in blood increased during the initial 2 weeks in parallel with reduced plasma viremia. Both naive and memory CD4+ T cells in blood reached normal numbers by week 48, whereas the CD4+ naive/memory cell ratio in tonsils was within normal range throughout the study. The level of memory CD8+ T cells in blood declined during the first 8 weeks in parallel with a reduction in the tonsillar memory CD8+ T cells. Naive CD8+ T cells in the blood increased after 4 weeks, while the level of naive CD8+ T cells in tonsils remained unaltered. Our data indicate that in the early stages of HIV-1 infection antiretroviral therapy normalizes CD4+ cell counts and causes a decrease in the level of memory CD8+ cells in blood and lymphoid tissue, suggesting reduced CD8+ cell turnover in response to reduced viral replication.
Human immunodeficiency virus (HIV)‐1 infection causes a gradual decline in peripheral blood CD4+ T cells. Shortly after the primary infection, an expansion of the activated memory CD8+ T‐cell pool is ...also observed paralleling increased levels of plasma viraemia. In the present study we investigated the immediate effects of zidovudine therapy on peripheral blood T‐cell subsets during the first 3 weeks of therapy in a group of HIV‐1 positive individuals receiving influenza vaccine. HIV‐1 positive individuals who received vaccine, but no treatment, were included as controls. Both the number of CD4+ and CD8+ T cells increased during the first week of therapy in parallel with a decline in plasma viraemia. The majority of CD4+ T cells contributing to this expansion expressed CD28, CD45RO and Fas, whereas the expanded CD8+ T cells were predominantly CD28−, CD45RO+, CD38+, Fas+ and Fas+ (CD95). We propose that the increase in the number of activated memory T cells observed in peripheral blood immediately after the onset of antiretroviral treatment is most likely caused by the redistribution of cells from various lymphoid organs in response to decreased levels of viral load in these compartments. The degree of T‐cell redistribution is probably dependent on the magnitude of virus suppression.
The lungs are the organ most likely to sustain serious injury from coronavirus disease 2019 (COVID-19). However, the mechanisms for long-term complications are not clear. Patients with severe ...COVID-19 have shorter telomere lengths and higher levels of cellular senescence, and we hypothesized that circulating levels of the telomere-associated senescence markers chitotriosidase, β-galactosidase, cathelicidin antimicrobial peptide and stathmin 1 (STMN1) were elevated in hospitalized COVID-19 patients compared to controls and could be associated with pulmonary sequelae following hospitalization.
Ninety-seven hospitalized patients with COVID-19 who underwent assessment for pulmonary sequelae at three-month follow-up were included in the study. β-Galactosidase and chitotriosidase were analysed by fluorescence; stathmin 1 and cathelicidin antimicrobial peptide were analysed by enzyme immuno-assay in plasma samples from the acute phase and after three-months. In addition, the classical senescence markers cyclin-dependent kinase inhibitor 1A and 2A were analysed by enzyme immuno-assay in peripheral blood mononuclear cell lysate after three months.
We found elevated plasma levels of the senescence markers chitotriosidase and stathmin 1 in patients three months after hospitalization with COVID-19, and these markers in addition to protein levels of cyclin-dependent kinase inhibitor 2A in cell lysate, were associated with pulmonary pathology. The elevated levels of these markers seem to reflect both age-dependent (chitotriosidase) and age-independent (stathmin 1, cyclin-dependent kinase inhibitor 2A) processes.
We suggest that accelerated ageing or senescence could be important for long-term pulmonary complications of COVID-19, and our findings may be relevant for future research exploring the pathophysiology and management of these patients.
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