A17 The effect of intra-host evolution of HIV-2 capsid on disease progression

Abstract

The human immunodeficiency virus type 2 (HIV-2) is an important cause of acquired immune deficiency syndrome (AIDS) in West Africa. The virus started circulating in humans around 1938 and has spread predominantly within West Africa with an estimated 1–2 million people being infected today. Compared with the pandemic HIV-1, HIV-2 infected people have longer AIDS-free survival times, higher CD4+ counts and lower risk of vertical and horizontal transmission. Approximately 35 per cent of HIV-2 infected individuals are classified as so-called long-term non-progressors with undetectable viral loads and limited disease progression after 10 years of follow-up. It has been shown that HIV-2 is more sensitive to the host restriction factor TRIM5α when compared with HIV-1, and this has been linked to conformational changes in the retroviral capsid. TRIM5α binds at the interface between three capsid hexamers, initiates early uncoating and proteasomal degradation. TRIM5 genotype has shown only modest effects on HIV-1 disease outcomes. HIV-2 capsid sequences bearing a specific poly-proline motif have been associated with lower viral loads and presentation of protective HLA I-restricted epitopes. The major aims of this study were to (1) determine HIV-2 capsid intra-host evolutionary rates and (2) identify residues that are affected by positive selection and that can be linked to HIV-2 viral load and disease progression in conjunction with TRIM5 genotype. The Guinea-Bissau Police cohort is unique, with decades of relatively frequent follow-up. One hundred and sixty-five patients were included for genotyping of TRIM5, 62 females and 103 males. Median age at enrolment was 52.6 years (range 30–87) and 7.9 per cent of patients had a CD4 percentage < 15 per cent at enrolment. Six of these individuals were included for amplification of HIV-2 capsid from longitudinally collected samples. Viral RNA was extracted from stored blood plasma samples and capsid of the circulating viral quasispecies was amplified, cloned, and sequenced, as previously described. Bayesian analysis will be used to determine intra-host evolutionary rates, dN/dS ratios and how these parameters associate with disease progression and TRIM5 genotype.