Human immunodeficiency virus type-2-A milder, kinder virus: An update.

Human immunodeficiency virus type-2 (HIV-2) belongs to the family retroviridae which is phylogenetically clusters with SIV SM from sooty mangabeys. This virus is morphologically similar to human immunodeficiency virus type-1 (HIV-1) but has got only a 40% homology at the nucleotide level. There is a distinct geographical distribution of HIV-2 unlike HIV-1. There are currently eight subtypes/groups identified with subtype/group A responsible for the majority of infections. HIV-2 shows a considerable difference in the course of the disease. Clinical, haematological and immunological evaluation of individuals infected with HIV-2 has shown the virus to be less pathogenic than HIV-1 although the exact mechanism underlying this difference is not well defined. Similar to HIV-1, the HIV-2 isolates also showed distinct replicative and cytopathic characteristics. The transmission rate for HIV-2 compared to HIV-1 is very low both by heterosexual route and mother to child transmission. The clinical signs and symptoms of immunodeficiency associated with HIV-2 are similar to the ones seen among the HIV-1-infected individuals and they can also progress to AIDS. It is naturally resistant to NNRTI and hence the diagnosis become important as it affects the treatment strategy. Similar to HIV-1, HIV-2 strains of infected individuals also show mutations that can cause drug resistance. The current evidence suggests that there is no protective effective for HIV-2 against HIV-1.

Impact of genetic diversity of HIV-1 on diagnosis, antiretroviral therapy & vaccine development.

HIV-1 strains have diversified extensively through mutation and recombination since their initial transmission to human beings many decades ago in central Africa. The high error rate of HIV reverse transcriptase combined with the estimated in vivo HIV-1 replication rate of ten billion new virions each day leads to extraordinary genetic diversity of HIV. Twenty seven circulating genetic forms of the HIV-1 group M are presently recognized, including 11 subtypes and sub-subtypes, and 16 circulating recombinant forms (CRF). Genotypic analyses have provided a better understanding of the molecular diversity of HIV-1, enabling the detection of emerging HIV-1 variants and improving the tracking of the epidemic worldwide. The rapid evolution of HIV within infected hosts contributes significantly to the elusiveness of this pathogen from host antiviral responses. The complex nature of HIV envelope glycoprotein that is inherently resistant to neutralization, the selective infection, progressive destruction and impaired regeneration of CD4+ T helper cells, generation of cytotoxic T lymphocyte (CTL) escape mutants, together with high genetic diversity with continually evolving HIV variants worldwide, makes design of an effective vaccine a formidable task. Given the rapidity and unpredictability with which HIV-1 genetic forms may propagate in future, a vaccine protective against all major HIV-1 circulating genetic forms is desirable, which could require multivalent formulations. Understanding the kinetics and directions of this continuing adaptation and its impact on viral fitness, immunogenicity and pathogenicity are crucial to the successful design of effective HIV vaccines. In this review, we focus on extensive diversity of HIV-1, emergence of recombinant forms and their impact on diagnosis, antiretroviral therapy, disease progression, transmission, and vaccine development.

Isolation & preliminary characterization of two HIV-2 strains from Pune, India.

Two HIV-2 strains were isolated from peripheral blood mononuclear cells of two HIV-2 seropositive patients with pulmonary tuberculosis by co-cultivating the cells with phytohaemagglutinin-P stimulated heterologous normal lymphocytes. Biological characterization of the isolates indicated that both isolates were syncytium inducing and induced cytopathic effect in the form of giant cells and syncytia formation in four T lymphoid cell lines. The isolates differed in their replication pattern. The isolates were confirmed as HIV-2 by nested PCR using HIV-1 and HIV-2 specific oligonucleotide primers from the env region and by supplementary tests like indirect immunofluorescence assay, syncytium inhibition assay using reference and HIV-2 reactive patients' sera, western blot and electron microscopy. Neutralization of one isolate (TB1) with two Senegal reference sera also indicated that the isolate may be related to the Senegal strain. To our knowledge, this is the first report of isolation of HIV-2 in India.