Rafael Zioni scite author profile

HIV-1 integrase is the third enzymatic target of antiretroviral (ARV) therapy. However, few data have been published on the distribution of naturally occurring amino acid variation in this enzyme. We therefore characterized the distribution of integrase variants among more than 1,800 published group M HIV-1 isolates from more than 1,500 integrase inhibitor (INI)-naïve individuals. Polymorphism rates equal or above 0.5% were found for 34% of the central core domain positions, 42% of the C-terminal domain positions, and 50% of the N-terminal domain positions. Among 727 ARV-naïve individuals in whom the complete pol gene was sequenced, integrase displayed significantly decreased inter-and intra-subtype diversity and a lower Shannon's entropy than protease or RT. All primary INI-resistance mutations with the exception of E157Q -which was present in 1.1% of sequences -were nonpolymorphic. Several accessory INI-resistance mutations including L74M, T97A, V151I, G163R, and S230N were also polymorphic with polymorphism rates ranging between 0.5% to 2.0%.

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Compartmentalization of Human Immunodeficiency Virus Type 1 between Blood Monocytes and CD4⁺T Cells during Infection

Fulcher¹,

Hwangbo²,

Zioni³

et al. 2004

J Virol

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Human immunodeficiency virus type 1 (HIV-1) gene sequences develop a large degree of variation between and within infected individuals (4,13,14,19,20,34,43,45,48,54,55,83,85,97,(103)(104)(105)112). In the initial period after infection, most individuals evaluated to date have shown homogeneous sequence populations of the HIV-1 surface envelope glycoprotein gene (env) (54,64,106,109,112) and a low level of variation in other structural genes, including gag p17 (109, 112) and gp41/nef (112). However, some individuals, especially women, have relatively diverse HIV-1 populations at or before seroconversion (49,63,68,69,112,114). After this initial period, divergent HIV-1 variants with different but related genetic sequences emerge and turn over throughout the course of infection (4,

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HIV-1 Envelope Subregion Length Variation during Disease Progression

et al. 2010

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The V3 loop of the HIV-1 Env protein is the primary determinant of viral coreceptor usage, whereas the V1V2 loop region is thought to influence coreceptor binding and participate in shielding of neutralization-sensitive regions of the Env glycoprotein gp120 from antibody responses. The functional properties and antigenicity of V1V2 are influenced by changes in amino acid sequence, sequence length and patterns of N-linked glycosylation. However, how these polymorphisms relate to HIV pathogenesis is not fully understood. We examined 5185 HIV-1 gp120 nucleotide sequence fragments and clinical data from 154 individuals (152 were infected with HIV-1 Subtype B). Sequences were aligned, translated, manually edited and separated into V1V2, C2, V3, C3, V4, C4 and V5 subregions. V1-V5 and subregion lengths were calculated, and potential N-linked glycosylation sites (PNLGS) counted. Loop lengths and PNLGS were examined as a function of time since infection, CD4 count, viral load, and calendar year in cross-sectional and longitudinal analyses. V1V2 length and PNLGS increased significantly through chronic infection before declining in late-stage infection. In cross-sectional analyses, V1V2 length also increased by calendar year between 1984 and 2004 in subjects with early and mid-stage illness. Our observations suggest that there is little selection for loop length at the time of transmission; following infection, HIV-1 adapts to host immune responses through increased V1V2 length and/or addition of carbohydrate moieties at N-linked glycosylation sites. V1V2 shortening during early and late-stage infection may reflect ineffective host immunity. Transmission from donors with chronic illness may have caused the modest increase in V1V2 length observed during the course of the pandemic.

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Env length and N-linked glycosylation following transmission of human immunodeficiency virus Type 1 subtype B viruses

et al. 2008

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Whether there is selection for specific viral Env variants upon HIV-1 transmission is controversial. We examined the V1V2 and V1V4 regions of Env in 10 new and 8 previously described transmission pairs infected with HIV-1 subtype B, including a total of 9 pairs in which the infecting partner had developed substantial viral diversity prior to transmission. We found that during transmission of HIV-1 subtype B, as well as for other subtypes reported in the past, viral populations in recipients undergo substantial genetic bottlenecks, as well as weak evidence for a propensity to replicate viruses with shorter variable loops and fewer potential N-linked glycosylation sites.

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Continued evolution of HIV-1 circulating in blood monocytes with antiretroviral therapy: genetic analysis of HIV-1 in monocytes and CD4+ T cells of patients with discontinued therapy

Llewellyn

Zioni

Zhu

et al. 2006

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The role of blood monocytes in HIV-1 infection is a relatively new field of interest. What happens to HIV-1 in monocytes and their relationship to CD4+ T cells before, during, and after suppressive antiretroviral therapy (ART) is largely unstudied. Here, considering that diversity is a good indicator of continued replication over time, we evaluated the effect of ART on HIV-1 in blood monocytes and CD4+ T cells by examining the diversity of HIV-1 from 4 infected patients who underwent and stopped therapy. We determined diversity and compartmentalization of HIV-1 between blood monocytes and CD4+ T cells in each patient in relationship to their ART regimens. Our data indicate that the rate of HIV-1 diversity increase in monocytes during therapy was significantly higher than in CD4+ T cells (P<0.05), suggesting that HIV-1 present in monocytes diversify more during therapy than in CD4+ T cells. Increased rates of HIV-1 compartmentalization between monocytes and CD4+ T cells while on therapy were also observed. These results suggest that ART inhibits HIV-1 replication in CD4+ T cells more than in blood monocytes and that better treatments to combat HIV-1 in monocytes/macrophages may be needed for a more complete suppression of HIV replication.

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Rafael Zioni

Natural variation of HIV-1 group M integrase: Implications for a new class of antiretroviral inhibitors

Compartmentalization of Human Immunodeficiency Virus Type 1 between Blood Monocytes and CD4⁺T Cells during Infection

HIV-1 Envelope Subregion Length Variation during Disease Progression

Env length and N-linked glycosylation following transmission of human immunodeficiency virus Type 1 subtype B viruses

Continued evolution of HIV-1 circulating in blood monocytes with antiretroviral therapy: genetic analysis of HIV-1 in monocytes and CD4+ T cells of patients with discontinued therapy

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Rafael Zioni

Natural variation of HIV-1 group M integrase: Implications for a new class of antiretroviral inhibitors

Compartmentalization of Human Immunodeficiency Virus Type 1 between Blood Monocytes and CD4+T Cells during Infection

HIV-1 Envelope Subregion Length Variation during Disease Progression

Env length and N-linked glycosylation following transmission of human immunodeficiency virus Type 1 subtype B viruses

Continued evolution of HIV-1 circulating in blood monocytes with antiretroviral therapy: genetic analysis of HIV-1 in monocytes and CD4+ T cells of patients with discontinued therapy

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Product

Resources

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Compartmentalization of Human Immunodeficiency Virus Type 1 between Blood Monocytes and CD4⁺T Cells during Infection