Host factors which control replication and clearance of human immunodeficiency virus (HIV) are poorly understood. RANTES (regulated on activation, normal T cell expressed and secreted) and other beta-chemokines may be HIV-1-suppressive factors but their role in the progression of HIV-1 infection is a subject of controversy. We investigated the relationship between production of RANTES and correlates of disease progression in 15 patients infected with HIV-1. We used whole blood culture to study the production of RANTES, interferon (IFN)-gamma, interleukin (IL)-4 and IL-13 in response to supernatant of T cells infected with HIV-1. A defect of RANTES production was associated with a predominant type 2 and decreased type 1 cytokine profile (IL-4 and/or IL- 13 > IFN-gamma). We obtained a positive correlation between RANTES and IFN-gamma (P = 0.004) and the ratio of type 1 and type 2 cytokines IFN-gamma/IL-4 (P = 0.04) and IFN-gamma/IL-13 (P = 0.003), and a negative correlation between RANTES production and HIV-1 RNA copy number in plasma (P = 0.01). The same pattern of correlation was observed between HIV-1 p24-stimulated production of RANTES and the plasma viral load (P = 0.02, n = 15). The measurement of RANTES produced by heparinized whole blood in response to HIV-1 antigens appears as a potentially valuable tool to assess the defect of type 1 immune response in individuals infected with HIV-1 and to define whether the absence of a RANTES response may play a role in the increased rate of HIV-1 replication.
Interferon‐α (IFN‐α) is an important molecule in the antiviral response, but cells from HIV‐1‐infected individuals show a reduced ability to secrete IFN‐α. We investigated an association between an imbalance of type 1/type 2 cytokines and the production of IFN‐α in HIV‐1 infection. We used whole blood culture to study the cytokine production profile, interferon‐γ (IFN‐γ) and interleukin‐4 (IL‐4), in response to HIV‐1 antigens and to study the Sendai Virus and HSV‐1‐induced‐production of IFN‐α in seven HIV‐1‐infected patients. An impaired synthesis of IFN‐α was obtained in patients with a predominant IL‐4 production (IL‐4 > IFN‐γ), and we found a positive correlation between the ex vivo production of IFN‐α and the IFN‐γ/IL‐4 ratio but not with the HIV RNA copy number in plasma. We investigated the role of T‐cell‐derived cytokines in the in vitro production of IFN‐α by PBMC from eight healthy donors, activated with Sendai Virus or HSV‐1. Whereas type 2 cytokines (IL‐4, IL‐13) inhibited virus‐induced IFN‐α synthesis, on the contrary, type 1 cytokines (IL‐2, IFN‐γ) enhanced it. A disarray in the T‐cell‐derived cytokine response may play a role in the defect of IFN‐α production in HIV‐1‐infected individuals. Further investigations are needed to explore this hypothesis.
We studied the in vitro HIV-1 antigen-stimulated production of IFN-gamma and IL-4 in HIV-1-infected patients and its relationship with viral replication as assessed through the plasma level of HIV-1 RNA. The levels of IFN-gamma and IL-4 were higher in supernatants of stimulated whole blood cultures than in stimulated peripheral blood mononuclear cell cultures, therefore whole blood cultures were used in the rest of the study. Specific IFN-gamma and IL-4 responses to HIV-1 p24 antigen were observed in HIV-1-infected patients but not in healthy controls (n = 23). A lower proportion of individuals with a positive IFN-gamma response to HIV-1 p24 was observed in patients at a declining clinical stage: 62% in asymptomatic patients (CDC group A, n = 16) versus 19% in symptomatic patients (CDC groups B and C, n = 21; P = 0.007, chi2 testing), whereas the proportion of individuals with a positive IL-4 response to HIV-1 p24 was almost similar in both groups of patients (25% versus 23.8%). Increased IL-4 production by HIV-1 p24-activated immunocompetent cells of patients and a predominant IL-4 response to HIV-1 p24 (with IL-4/IFN-gamma > 1) were positively correlated with an increased viral load. In contrast, there was no correlation between the mitogen-stimulated production of IL-4 and IFN-gamma and the viral load in plasma. The CD8 T cells from whole blood of patients, but not from controls played a significant role in the HIV-1 p24-activated production of IFN-gamma and IL-4. In conclusion, HIV-1-antigen-stimulated whole blood appears to be a valuable tool to study the production of IL-4 in HIV-1-infected patients. The cytokine profile pattern in response to epitopes of HIV-1 gag p24 may play an important role in the host immune response to HIV-1.
The pattern of human immunodeficiency virus (HIV)-1 antigen-activated production of interferon (IFN)-gamma by immunocompetent cells of HIV-1 infected patients has been studied using a simplified assay combining a small volume (25 microliter) of whole blood stimulation with various HIV-1 antigens, and cytokine measurement in the same wells of microtitre plates (enzyme-linked immunotrapping assay, ELITA). The levels of IFN-gamma were higher using this assay than in the supernatant from stimulated whole blood cultures, therefore ELITA was used in the rest of the study. Specific immune responses to HIV-1 proteins (gp120, p24) and synthetic peptides derived from these proteins and from gp41 were detected in patients, but not in healthy controls. Decreased levels of IFN-gamma were observed in CDC class B (n = 5) and C (n = 4), compared with CDC class A (n = 5), following HIV-1 antigen-specific challenge. The positive response of cells from different patients to overlapping peptides of p25 (amino acids 329-344 and 335-351) was suggestive of a new epitope of HIV-1 gag recognized by T cells in the overlap region. In conclusion, the difference in in vitro antigen-specific T-cell responses of HIV-1-infected patients was shown using the ELITA method. Our results raise the possibility of using this method in screening specific antigens in HIV-1 infection.
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