1.
Inclusion body myositis and human immunodeficiency virus type 1: A new case report and literature review.
Couture, P, Malfatti, E, Morau, G, Mathian, A, Cohen-Aubart, F, Nielly, H, Amoura, Z, Cherin, P
Neuromuscular disorders : NMD. 2018;(4):334-338
Abstract
Prevalence of muscle disease in human immunodeficiency virus (HIV) infection is less than 1% of patients with acquired immune deficiency syndrome. Sporadic inclusion body myositis (IBM) is observed in a few cases of patients infected by retroviruses such as HIV-1. A Caucasian man was diagnosed with HIV when he was 30 years old. The viral load was undetectable and CD4 cell count was 600/mm3 when the diagnosis of inclusion body myositis was confirmed. Histological findings were typical of IBM. The treatment consisted of immunoglobulin therapy for three years without effect. Twenty-two patients were found in the English and French literature. They are younger than those who suffer from IBM without HIV (median age = 47, range: 30 to 59), and they are mostly men with considerable serum creatine kinase (CK) elevation (median CK level = 1322 IU/L, range: 465 to 10270), most of them were treated with Zidovudine.
2.
The polymorphic nature of HIV type 1 env V4 affects the patterns of potential N-glycosylation sites in proviral DNA at the intrahost level.
Belair, M, Dovat, M, Foley, B, Mayerat, C, Pantaleo, G, Graziosi, C
AIDS research and human retroviruses. 2009;(2):199-206
Abstract
We have previously shown that env V4 from HIV-1 plasma RNA is highly heterogeneous within a single patient, due to indel-associated polymorphism. In this study, we have analyzed the variability of V4 in proviral DNA from unfractionated PBMC and sorted T and non-T cell populations within individual patients. Our data show that the degree of sequence variability and length polymorphism in V4 from HIV provirus is even higher than we previously reported in plasma. The data also show that the sequence of V4 depends largely on the experimental approach chosen. We could observe no clear trend for compartmentalization of V4 variants in specific cell types. Of interest is the fact that some variants that had been found to be predominant in plasma were not detected in any of the cell subsets analyzed. Consistently with our observations in plasma, V3 was found to be relatively conserved at both interpatient and intrapatient level. Our data show that V4 polymorphism involving insertions and deletions in addition to point mutations results in changes in the patterns of sequons in HIV-1 proviral DNA as well as in plasma RNA. These rearrangements may result in the coexistence, within the same individual, of a swarm of different V4 regions, each characterized by a different carbohydrate surface shield. Further studies are needed to investigate the mechanism responsible for the variability observed in V4 and its role in HIV pathogenesis.