Abstract
HIV-1 escape from the cytotoxic T-lymphocyte (CTL) response leads to a weakening of viral control and is likely to be detrimental to the patient. To date, the impact of escape on viral load and CD4+ T cell count has not been quantified, primarily because of sparse longitudinal data and the difficulty of separating cause and effect in cross-sectional studies. We use two independent methods to quantify the impact of HIV-1 escape from CTLs in chronic infection: mathematical modelling of escape and statistical analysis of a cross-sectional cohort. Mathematical modelling revealed a modest increase in log viral load of 0.051 copies ml−1 per escape event. Analysis of the cross-sectional cohort revealed a significant positive association between viral load and the number of “escape events”, after correcting for length of infection and rate of replication. We estimate that a single CTL escape event leads to a viral load increase of 0.11 log copies ml−1 (95% confidence interval: 0.040–0.18), consistent with the predictions from the mathematical modelling. Overall, the number of escape events could only account for approximately 6% of the viral load variation in the cohort. Our findings indicate that although the loss of the CTL response for a single epitope results in a highly statistically significant increase in viral load, the biological impact is modest. We suggest that this small increase in viral load is explained by the small growth advantage of the variant relative to the wildtype virus. Escape from CTLs had a measurable, but unexpectedly low, impact on viral load in chronic infection.
Highlights
The cytotoxic T-lymphocyte (CTL) response is thought to play a role in firstly reducing [1,2] and controlling the level of HIV-1 viraemia
The association between high viral load and HLA-associated polymorphisms may be due to viral strains escaping the immune response which results in an increase in viral load, or it may be that high viral load and high viral replication allows for more mutations to accumulate
In order to interpret the relationships between HLA-associated polymorphisms and viral load and/ or CD4+ count, it is essential to adjust for the number of mutation events that have occurred in individuals
Summary
The CTL response is thought to play a role in firstly reducing [1,2] and controlling the level of HIV-1 viraemia. Recent work demonstrated a correlation between rate of progression to AIDS and the replication rate of the infecting strain [24,25]. This introduces another potential confounding factor into associations between HLA-associated polymorphisms and surrogate markers of disease progression. In order to interpret the relationships between HLA-associated polymorphisms and viral load and/ or CD4+ count, it is essential to adjust for the number of mutation events that have occurred in individuals
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