Abstract
Cytotoxic T lymphocytes (CTL) recognize viral peptidic antigens presented by major histocompatibility complex (MHC) class I molecules on the surface of infected cells. The CTL response is critical in clearance and prevention of HIV infection. Yet, there are no descriptions of physiological peptides derived from the viral envelope protein. In the few reports on endogenous MHC class I viral peptidic ligands from HIV internal proteins, definitive positive identification by mass spectrometry is lacking. The HIV-1 envelope glycoprotein gp160 induces a strong specific CTL response restricted by several human and murine MHC class I molecules, including H-2Dd. Previous analyses showed that this response can be optimally mimicked with the synthetic decameric peptide 318RGPGRAFVTI327. We aim to identify the endogenous natural peptides mediating the response to this epitope. Our data indicate the presence of, at least, two peptidic species of different length and sharing the same antigenic core, which are associated with the Dd presenting molecule in infected cells. One species is at least, probably, the optimal decapeptide. The second species, identified by mass spectrometry for the first time in HIV, is, unexpectedly, a nonamer, which lacks the correctly positioned N-terminal group to bind to Dd. And yet, it is present in similar amounts and, notably, is equally antigenic. Thus, the physiological set of HIV-derived MHC class I ligands is richer and different than expected from studies with synthetic peptides. This may help raise the plasticity and thus the effectiveness of the immune response against the viral infection. These data have implications for HIV vaccine development.
Highlights
HIV-1 infection [1, 2]
In order to confirm that the presentation of the envelope glycoprotein in L/Dd cells requires endogenous processing, cytotoxicity assays were performed in the presence of brefeldin A (BFA)
The results reported here demonstrate that the endogenous processing of the HIV-1 envelope glycoprotein generates, at least, two different peptidic species that are bound to and presented by the H-2Dd molecule in infected cells
Summary
HIV-1 infection [1, 2]. There is a temporal correlation between vigorous CTL responses and initial control of HIV replication during primary infection [3, 4]. Additional experiments described the short 318RGPGRAFVTI327 synthetic peptide ( named R10I) as the most antigenic within this sequence [17,18,19,20,21] This region is interesting because it contains epitopes for at least 13 different MHC class I molecules from various species (6 murine, 5 human, 1 chimpanzee, and 1 macaque), including HLA alleles frequent in the human population (HLA-A2, -A3, -A24, -A11, and -A30) [22]. This viral region, known as V3, is recognized by CTL from an important fraction of patients, which is a paradox because it is one of the regions of the HIV genome that is more variable among virus strains. These results underscore the need to study the peptides resulting from physiological processing, because the natural situation can be more complex than the optimum detected with synthetic peptides
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