Although p24 core antigenemia and viral isolation have previously been described during primary HIV-1 infection, this report documents the large viral burden during the acute phase of infection.
These changes and the presence of HIV-1 genomic sequences were the first indications of HIV-1 infection and together with p24 antigenemia signified an inevitable progression to AIDS.
In longitudinally studied patients, this technique also allowed measurement of plasma virus levels throughout the period of follow-up, even when culture and p24 assays became negative following resolution of acute HIV-1 infection.
Application of the Q-NASBA to plasma samples of a patient with a primary HIV-1 infection shows good concordance of the HIV-1 RNA profile with the p24 antigen profile.
This investigation compares the results of a new method of diagnosing HIV-1 infection in infants < 6 months of age with currently employed techniques including cocultivation, the polymerase chain reaction (PCR), serum p24 antigen, and in vitro antibody production (IVAP) measurements.
In studies of the natural history of human immunodeficiency virus type 1 (HIV-1) infection, it has been repeatedly shown that higher-titer antibody responses to the HIV gag p24 protein correlate with less rapid disease progression.
Retrospective analysis revealed that the five HIV-1 RNA-positive specimens originated from individuals who had symptomatic primary HIV-1 infection at the time of sample collection and who were also positive for p24 antigenemia.
In vitro HIV-1 infection assays with CCR5-using primary isolates demonstrated that thymocytes with the heterozygous CCR5 Delta 32 mutation produced less p24 than did CCR5 wild-type thymocytes.
Viraemia and p24 antigenaemia are independent risk factors for the emergency of a zidovudine-resistant genotype in nucleoside analogue-treated HIV-1 infection.
HCMV late antigens and HIV-1 tat protein colocalized in the cytoplasm of 5-10% of microglia and MDM. p24 antigen levels decreased 10- to 40-fold in supernatants of MDM and the reduction was greater when HCMV infection was performed 24 h before HIV-1 infection.
The aim of this study was to evaluate the heat-dissociated p24 antigen (HD p24 Ag) assay as an alternative low-cost tool for diagnosis of HIV-1 infection and quantitation of HIV-1 RNA levels in African adults mainly infected with HIV-1 CRF02_AG strains.
Mechanisms of HIV non-progression; robust and sustained CD4+ T-cell proliferative responses to p24 antigen correlate with control of viraemia and lack of disease progression after long-term transfusion-acquired HIV-1 infection.
Diagnosis of primary HIV-1 infection is challenging due to the presence of a serological window; thus, HIV-1-RNA quantitation and/or measurement of p24 antigenemia are recommended in such cases.
The assay detected HIV-1 infection in 13 seroconversion panels an average 10.5 days earlier than an HIV-1 antibody test and 4.9 days earlier than a p24 antigen test.
In this study, the effect of novel triterpenoids isolated from <i>Ocimum labiatum</i> on HIV-1 expression was measured through HIV-1 p24 antigen capture in the U1 latency model of HIV-1 infection and in peripheral blood mononuclear cells (PBMCs) of infected patients on combination antiretroviral therapy (cART).
Importantly, HCMV gB and HIV-1 p24 can be detected in the same cell by immunofluorescence and flow cytometry; therefore, the establishment of HCMV latency in CD34<sup>+</sup> cells likely leads to host cell gene modulation that favors HIV-1 infection.
Here, we evaluated the potential of an rBCG expressing HIV-1 p24 antigen Gag in pMyong2 (rBCG-pMyong2-p24) in a vaccine application for HIV-1 infection.
Seven days post HIV-1 infection we evaluated: 1) p24 production (ELISA); 2) CD4/IL-21 and CD4/IL-17 T lymphocytes (FACS); 3) IL-17 concentration in supernatants (ELISA); and 4) IL-6, IL-17, IL-21, and miR-29a,b,c expression by CD4 T lymphocytes as well as perforin and granzyme by peripheral blood mononuclear cells (qPCR).
We demonstrate that ddPCR is a suitable alternative to HIV-1 p24 ELISA to quantify HIV-1 infection in the explant model and has the potential to decrease explant culture time.
Inhibitory activity of peptides on 6HB formation was tested in a temperature-controlled cell-cell fusion assay by flow cytometry using 6HB-specific mAb 2G8; on HIV-1 infection and fusion was assessed by p24 and cell-cell fusion assays.
Compared with baseline, p24 antigen production after <i>ex vivo</i> HIV-1 infection of vaginal biopsies doubled after DMPA use, but all <i>p</i>-values were >.05.