Evaluation of the putative role of C-C chemokines as protective factors of HIV-1 infection in seronegative hemophiliacs exposed to contaminated hemoderivatives.
Ver todas las publicaciones
Evaluation of the putative role of C-C chemokines as protective factors of HIV-1 infection in seronegative hemophiliacs exposed to contaminated hemoderivatives.
Background: Overproduction of beta-chemokines and genetic variations in chemokine receptors have been correlated with protection against infection by HIV-1 or slow progression to AIDS in infected individuals.
Results: Significant differences in the production and plasma levels of beta-chemokines among the three groups were not detected. Lower IL-2 and IFN-gamma production was observed in the uninfected exposed hemophiliacs than in the controls. Genetic analysis of CCR5, CCR2b, and SDF-1 showed several polymorphisms associated with resistance in some HIV-exposed uninfected hemophiliacs. However, these genetic features cannot explain the protection of all exposed hemophiliacs. In fact, only one patient, carrying two copies of CCR5 from which 32 bp was deleted, showed low CCR5 expression and low susceptibility to infection by a CCR5-using HIV-1 strain. In contrast, PBMNCs from all other individuals supported infection in vitro by both CCR5- and CXCR4-using HIV-1 strains.
Conclusion: Significant differences in the production and plasma levels of beta-chemokines among the three groups were not detected. Lower IL-2 and IFN-gamma production was observed in the uninfected exposed hemophiliacs than in the controls. Genetic analysis of CCR5, CCR2b, and SDF-1 showed several polymorphisms associated with resistance in some HIV-exposed uninfected hemophiliacs. However, these genetic features cannot explain the protection of all exposed hemophiliacs. In fact, only one patient, carrying two copies of CCR5 from which 32 bp was deleted, showed low CCR5 expression and low susceptibility to infection by a CCR5-using HIV-1 strain. In contrast, PBMNCs from all other individuals supported infection in vitro by both CCR5- and CXCR4-using HIV-1 strains.