FcγRIIIa receptor polymorphism influences NK cell mediated ADCC activity against HIV.

BACKGROUND: HIV-specific Antibody Dependent Cell Cytotoxicity (ADCC) has shown to be important in HIV control and resistance. The ADCC is mediated primarily by natural killer cell activated through the binding of FcγRIIIa receptor to the Fc portion of antibody bound to the antigen expressed on the infected cells. However, no data is available on the influence of the polymorphism in FcγRIIIa receptor on HIV-specific ADCC response. METHODS: The Sanger's method of sequencing was used to sequence the exon of FcγRIIIa receptor while the ADCC activity was determined using NK cell activation assay. The polymorphism in FcγRIIIa receptor was assessed in HIV-infected Indian individuals with or without HIV-specific ADCC antibodies and its influence on the magnitude of HIV-specific ADCC responses was analyzed. RESULTS: Two polymorphisms: V176F (rs396991) and Y158H (rs396716) were observed. The Y158H polymorphism is reported for the first time in Indian population. Both, V176F (V/V genotype) (p = 0.004) and Y158H (Y/H genotype) (p = 0.032) were found to be significantly associated with higher magnitude of HIV-specific ADCC response. CONCLUSION: The study underscores the role of polymorphism in the FcγRIIIa receptor on HIV-specific ADCC response and suggests that the screening of the individuals for FcγRIIIa-V176F and Y158H polymorphisms could be useful for prediction of efficient treatment in monoclonal antibody-based therapies aimed at ADCC in HIV infection.

Polymorphisms in Toll-Like Receptors (TLRs)-7 and 9 Genes in Indian Population with Progressive and Nonprogressive HIV-1 Infection.

The polymorphisms in Toll-like receptor (TLR) 7 and 9 genes are shown to influence HIV-1 infection. We studied HIV-1-infected Indian individuals for presence and association of TLR7 and 9 gene polymorphism with different disease outcomes. Genomic DNA from 65 HIV-infected individuals (35 long-term nonprogressors and 30 progressors) and 89 uninfected healthy donors was isolated, amplified, and sequenced for the reported polymorphisms in TLR7 [Gln11Leu (A/T); rs179008] and TLR9 (1635A/G; rs352140) genes. Of these, only the reported TLR9 single-nucleotide polymorphism [SNP; p = .017, odds ratio (OR) = 0.20] and its allele A frequency (p = .038, OR = 0.41) were found to be associated with slow disease progression. Of the new SNPs observed (three TLR7 and two TLR9), the TLR7 rs2074109 G allele showed less likely association with HIV-1 acquisition (p = .019, OR = 0.27). These findings indicate that TLR7 SNP (rs2074109) could be one of the factors for predisposition to HIV-1 and TLR9 1635A/G genotype and allele might have a role in HIV-1 disease progression in Indian population.

HECT Domain and RCC1-Like Domain-Containing Protein 5 (HERC-5) Gene Polymorphisms in HIV-1-Infected Individuals: A Study from India.

HECT domain and RCC1-like domain-containing protein 5 (HERC-5) is one of the novel host restriction factors that is known to inhibit HIV release in vitro. Polymorphisms in other host restriction factors have been associated with HIV infection and disease progression. However, no report is available on the HERC-5 polymorphism in HIV-infected individuals. We studied the HERC-5 gene polymorphism in HIV-infected individuals and explored whether it is associated with different disease outcomes. Genomic DNA was isolated from 41 HIV-1 progressors, 39 long-term nonprogressors, and 74 HIV seronegative healthy donors for amplification of HERC5 Exon-18 and other regulatory regions followed by sequencing. We found no genetic variation in the known single-nucleotide polymorphism (SNP)-rs34457268 (Exon-18) of HERC-5 in HIV-infected individuals. Instead, a synonymous mutation at rs6857425 (T-C) was present in the same region among all study groups (p > .05), irrespective of their HIV status. We further noted two novel SNPs in Intron-18 region. To the best of our knowledge, this is first study to report the HERC5 gene polymorphism among HIV-infected groups.

Utility of the point of care CD4 analyzer, PIMA, to enumerate CD4 counts in the field settings in India.

BACKGROUND: In resource limited settings non-availability of CD4 count facility at the site could adversely affect the ART roll out programme. Point of care CD4 enumerating equipments can make the CD4 count available at the site of care and improve the patients' management considerably. This study is aimed at determining the utility of a Point of Care PIMA CD4 analyzer (Alere, Germany) in the field settings in India. METHOD: The blood samples were collected from 1790 participants at 21 ART centers from different parts of the country and tested using PIMA and the reference methods (FACSCalibur, FACSCount and CyFlow SL3). The paired finger prick and venous blood samples from 175 participants were tested by the PIMA CD4 Analyzer and then by FACSCalibur. RESULT: The CD4 counts obtained by PIMA CD4 analyzer showed excellent correlation with the counts obtained by the reference methods; for venous blood the Pearson's r was 0.921, p < 0.001 and the relative bias was 0.2% (range: -42 to 42%) and for finger prick samples, the Pearson's r was 0.856 and the relative bias was -9.1% (range: -46% to 27%). For CD4 ranges; <250, 251-350, 351-500 and >500 cells/mm3, the differences in the median CD4 counts obtained by the reference method and the PIMA analyzer were not significant (P > 0.05) and the relative bias were low (-7 to 5.1%). The Intermachine comparison showed variation within the acceptable limit of%CV of 10%. CONCLUSION: In the field settings, the POC PIMA CD4 analyzer gave CD4 counts comparable to the reference methods for all CD4 ranges. The POC equipment could identify the patients eligible for ART in 91% cases. Adequate training is necessary for finger prick sample collection for optimum results. Decentralization of CD4 testing by making the CD4 counts available at primary health centers, especially in remote areas with minimum or no infrastructure would reduce the missed visits and improve adherence of the patients.