François Schächter

Genomewide association study of an AIDS-nonprogression cohort emphasizes the role played by HLA genes (ANRS genomewide association study 02)

To elucidate the genetic factors predisposing to AIDS progression, we analyzed a unique cohort of 275 human immunodeficiency virus (HIV) type 1-seropositive nonprogressor patients in relation to a control group of 1352 seronegative individuals in a genomewide association study (GWAS). The strongest association was obtained for HCP5 rs2395029 (P=6.79x10(-10); odds ratio, 3.47) and was possibly linked to an effect of sex. Interestingly, this single-nucleotide polymorphism (SNP) was in high linkage disequilibrium with HLA-B, MICB, TNF, and several other HLA locus SNPs and haplotypes. A meta-analysis of our genomic data combined with data from the previously conducted Euro-CHAVI (Center for HIV/AIDS Vaccine Immunology) GWAS confirmed the HCP5 signal (P=3.02x10(-19)) and identified several new associations, all of them involving HLA genes: MICB, TNF, RDBP, BAT1-5, PSORS1C1, and HLA-C. Finally, stratification by HCP5 rs2395029 genotypes emphasized an independent role for ZNRD1, also in the HLA locus, and this finding was confirmed by experimental data. The present study, the first GWAS of HIV-1 nonprogressors, underscores the potential for some HLA genes to control disease progression soon after infection.

Genomewide Association Study of a Rapid Progression Cohort Identifies New Susceptibility Alleles for AIDS (ANRS Genomewide Association Study 03)

BACKGROUND Previous genomewide association studies (GWASs) of AIDS have targeted end points based on the control of viral load and disease nonprogression. The discovery of genetic factors that predispose individuals to rapid progression to AIDS should also reveal new insights into the molecular etiology of the pathology. METHODS We undertook a case-control GWAS of a unique cohort of 85 human immunodeficiency virus type 1 (HIV-1)-infected patients who experienced rapid disease progression, using Illumina HumanHap300 BeadChips. The case group was compared with a control group of 1352 individuals for the 291,119 autosomal single-nucleotide polymorphisms (SNPs) passing the quality control tests, using the false-discovery rate (FDR) statistical method for multitest correction. RESULTS Novel associations with rapid progression (FDR, < or = 25%) were identified for PRMT6 (P = 6.1 x 10(-7); odds ratio [OR], 0.24), SOX5 (P = 1.8 x 10(-6); OR, 0.45), RXRG (P = 3.9 x 10(-6); OR, 3.29), and TGFBRAP1 (P = 7 x 10(-6); OR, 0.34). The haplotype analysis identified exonic and promoter SNPs potentially important for PRMT6 and TGFBRAP1 function. CONCLUSIONS The statistical and biological relevance of these associations and their high ORs underscore the power of extreme phenotypes for GWASs, even with a modest sample size. These genetic results emphasize the role of the transforming growth factor beta pathway in the pathogenesis of HIV-1 disease. Finally, the wealth of information provided by this study should help unravel new diagnostic and therapeutic targets.

32 bp CCR-5 gene deletion and resistance to fast progression in HIV-1 infected heterozygotes

there are known racial differences in the frequencies of the PM phenotype: about 3% of whites and in 13–23% of orientals. 3 Poor metabolism results from a defect in the gene associated with the cytochrome P450 isoenzyme, CYP2C19. Two genetic defects, m1 and m2, have been identified: the former accounts for 75–83% of the defective alleles in both white and Japanese PMs, while the latter was found only in Japanese. 4 We determined the distribution of the two CYP2C19 mutations in two Vanuatu islands. In March, 1996, malariometric surveys were conducted on Tanna and Malakula islands. The survey included finger prick sampling of blood for PCR from a capillary tube (75 µL) on to a filter paper. Dried filter-paper samples were collected from 493 people. DNA was extracted from a quarter of a dried blood spot. PCR was conducted as described by de Morais et al, 4 with PCR amplification of exon 5 followed by Sma1 digestion (CYP2C19m1) and amplification of exon 4 followed by BamH1 digestion (CYP2C19m2). The genotypes of the 493 villagers are shown in the table. Remarkably high frequencies of the two mutations were found. The overall frequency of the m1 alleles was 0·708 (698/986), and that of the m2 alleles was 0·133 (131/986). Only 145 individuals had at least one wild-type allele (wt). The observed genotype distribution corresponded well with those estimated from the allele frequencies of CYP2C19m1 and m2 in the study group, in accordance with a Hardy-Weinberg equilibrium (␹ 2-test, p>0·5, power >99%). The population of Tanna Island showed higher frequency of m1 and lower frequency of m2 than that of Malakula Island (p<0·05). In a separate study we correlated proguanil and cycloguanil concentration profiles in whole blood with genotypes in patients with malaria from the same area (unpublished). The results confirm that the genotyping predicted the phenotypes in all 20 patients tested. Thus, the data in the table suggest that 348 (70·6%) individuals have PM phenotype, which may have major implications for the efficacy of proguanil in this population. CYP2C19 is also involved in the metabolism of other drugs such as imipramine, omeprazole, and diazepam. 3 Anthropological evidences suggest that Melanesians are of Mongoloid origin, and the ancestors of the people in Vanuatu may have migrated from Papua New Guinea about 4000 years ago. 5 Therefore, the finding of m2 mutation in Vanuatu is not surprising. However the reasons for the high frequency …

Prospects for the genetics of human longevity

Longevity varies between and within species. The existence of species-specific limit to human life-span and its partial heritability indicate the existence of genetic factors that influence the ageing process. Insight into the nature of these genetic factors is provided by evolutionary studies, notably the disposable soma theory, which suggests a central role of energy metabolism in determining life-span. Energy is important in two ways. First, the disposable soma theory indicates that the optimum energy investment in cell maintenance and repair processes will be tuned through natural selection to provide adequate, but not excessive, protection against random molecular damages (e.g. to DNA, proteins). All that is required is that the organism remains in a sound condition through its natural expectation of life in the wild environment, where accidents are the predominant cause of mortality. Secondly, energy is implicated because of the intrinsic vulnerability of mitochondria to damage that may interfere with the normal supply of energy to the cell via the oxidative phosphorylation pathways. Oxidative phosphorylation produces ATP, and as a by-product also produces highly reactive oxygen radicals that can damage many cell structures, including the mitochondria themselves. Several lines of evidence link, on the one hand, oxidative damage to cell ageing, and on the other hand, energy-dependent antioxidant defences to the preservation of cellular homeostasis, and hence, longevity. Models of cellular ageing in vitro allow direct investigation of mechanisms, such as oxidative damage, that contribute to limiting human life-span. The genetic substratum of inter-individual differences in longevity may be unraveled by a two-pronged reverse genetics approach: sibling pair analysis applied to nonagenarian and centenarian siblings, combined with association studies of centenarians, may lead to the identification of genetic influences upon human longevity. These studies have become practicable thanks to recent progress in human genome mapping, especially to the development of microsatellite markers and the integration of genetic and physical maps.

Dominant Effects of CCR2-CCR5 Haplotypes in HIV-1 Disease Progression

Three haplotypes for the CCR2-CCR5 region previously have been shown to affect AIDS progression; however, it is not known if the protective and accelerating effects of the haplotypes are relatively constant throughout infection or exert their effects early or late in HIV type 1 infection. The authors report the relative contributions to AIDS progression of CCR2 64I, CCR5 Δ32, and the CCR5 promoter haplotype +.P1.+ in the GRIV cohort, which included patients representing the extremes of the distribution for AIDS progression: rapid progressors (RP) who developed CD4+ T-cell counts of <300/ mm3 within 3 years after the last HIV-1-seronegative test and slow progressors (SP) who were HIV-1 infected for ≥8 years with CD4+ T-cell counts of >500/mm3. Comparing the RP with a seroconverter control group including intermediate progressors to AIDS, we observed the early protective effect of CCR5 Δ32 (odds ratio = 0.25; P = 0.007) was similar in strength to the early susceptible effect of CCR5 +.P1.+ (odds ratio = 2.1, P = 0.01). Comparison of the intermediate control group to the SP showed weaker and less significant odd ratios, suggesting that the effect of these factors tended to be stronger on early progession; the tendency towards a disproportionately early effect was significant for CCR5 Δ32 (P = 0.04) but not for CCR5 +.P1.+ (P = 0.12). Follow-up of SP demonstrated that these polymorphisms have little effect after 8 years, because the subset of SP who had progression after study entry had the same genotype distribution as the global population of SP, suggesting that factors other than CCR5 or CCR2 genetic variants must be responsible for the long-term maintenance of nonprogression.

SCREENING LOW FREQUENCY SNPS FROM GENOME WIDE ASSOCIATION STUDY REVEALS A NEW RISK ALLELE FOR PROGRESSION TO AIDS

Background: Seven genome-wide association studies (GWAS) have been published in AIDS, and only associations in the HLA region on chromosome 6 and CXCR6 have passed genome-wide significance. Methods: We reanalyzed the data from 3 previously published GWAS, targeting specifically low-frequency SNPs (minor allele frequency <5%). Two groups composed of 365 slow progressors and 147 rapid progressors from Europe and the United States were compared with a control group of 1394 seronegative individuals using Eigenstrat corrections. Results: Of the 8584 SNPs with minor allele frequency <5% in cases and controls (Bonferroni threshold = 5.8 × 10−6), 4 SNPs showed statistical evidence of association with the slow progressor phenotype. The best result was for HCP5 rs2395029 [P = 8.54 × 10−15, odds ratio (OR) = 3.41] in the HLA locus, in partial linkage disequilibrium with 2 additional chromosome 6 associations in C6orf48 (P = 3.03 × 10−10, OR = 2.9) and NOTCH4 (9.08 × 10−07, OR = 2.32). The fourth association corresponded to rs2072255 located in RICH2 (P = 3.30 × 10−06, OR = 0.43) in chromosome 17. Using HCP5 rs2395029 as a covariate, the C6orf48 and NOTCH4 signals disappeared, but the RICH2 signal still remained significant. Conclusions: Besides the already known chromosome 6 associations, the analysis of low-frequency SNPs brought up a new association in the RICH2 gene. Interestingly, RICH2 interacts with BST-2 known to be a major restriction factor for HIV-1 infection. Our study has thus identified a new candidate gene for AIDS molecular etiology and confirms the interest of singling out low-frequency SNPs to exploit GWAS data.

Multicohort Genomewide Association Study Reveals a New Signal of Protection Against HIV-1 Acquisition

BACKGROUND To date, only mutations in CCR5 have been shown to confer resistance to human immunodeficiency virus type 1 (HIV-1) infection, and these explain only a small fraction of the observed variability in HIV susceptibility. METHODS We performed a meta-analysis between 2 independent European genomewide association studies, each comparing HIV-1 seropositive cases with normal population controls known to be HIV uninfected, to identify single-nucleotide polymorphisms (SNPs) associated with the HIV-1 acquisition phenotype. SNPs exhibiting P < 10(-5) in this first stage underwent second-stage analysis in 2 independent US cohorts of European descent. RESULTS After the first stage, a single highly significant association was revealed for the chromosome 8 rs6996198 with HIV-1 acquisition and was replicated in both second-stage cohorts. Across the 4 groups, the rs6996198-T allele was consistently associated with a significant reduced risk of HIV-1 infection, and the global meta-analysis reached genomewide significance: P(combined) = 7.76 × 10(-8). CONCLUSIONS We provide strong evidence of association for a common variant with HIV-1 acquisition in populations of European ancestry. This protective signal against HIV-1 infection is the first identified outside the CCR5 nexus. First clues point to a potential functional role for a nearby candidate gene, CYP7B1, but this locus warrants further investigation.

Contribution of cohort studies in understanding HIV pathogenesis: introduction of the GRIV cohort and preliminary results

In the present paper we review studies performed on HIV-infected patients cohorts in order to understand AIDS disease development. The interplay between diverse factors such as the HIV envelope proteins, cellular co-receptors, the immune response with chemokines and cytokines production define the viral tropism, cytopathicity and progression of HIV disease. We present the trends of the research particularly in the domain concerning host genetics. In this context, we describe the GRIV cohort of fast and slow/non-progressors, and its use for understanding basic features of the yet unknown HIV pathogenesis mechanisms.

Evidence After Imputation for a Role of MICA Variants in Nonprogression and Elite Control of HIV Type 1 Infection

Past genome-wide association studies (GWAS) involving individuals with AIDS have mainly identified associations in the HLA region. Using the latest software, we imputed 7 million single-nucleotide polymorphisms (SNPs)/indels of the 1000 Genomes Project from the GWAS-determined genotypes of individuals in the Genomics of Resistance to Immunodeficiency Virus AIDS nonprogression cohort and compared them with those of control cohorts. The strongest signals were in MICA, the gene encoding major histocompatibility class I polypeptide-related sequence A (P = 3.31 × 10(-12)), with a particular exonic deletion (P = 1.59 × 10(-8)) in full linkage disequilibrium with the reference HCP5 rs2395029 SNP. Haplotype analysis also revealed an additive effect between HLA-C, HLA-B, and MICA variants. These data suggest a role for MICA in progression and elite control of human immunodeficiency virus type 1 infection.

Homeostasis of chemokines, interferon production and lymphocyte subsets: implications for AIDS pathogenesis

Certain individuals with elevated levels of macrophage inflammatory protein (MIP)1 alpha, MIP1 beta and RANTES expression appear to be resistant to human immunodeficiency virus (HIV) infection. In this work, we demonstrate that chemokines production by peripheral blood mononuclear cells (PBMCs) are homeostatic parameters varying from one individual to another, and we define optimized experimental conditions to reproducibly assess these parameters. We also studied alpha- and gamma-interferons (IFN alpha and IFN gamma, respectively) which have been implicated in the pathogenesis of acquired immunodeficiency syndrome (AIDS). The kinetics of production of all these cytokines by fresh PBMCs were determined upon stimulation with phytohemagglutinin (PHA), staphylococcus enterotoxin b (SEB) and purified protein derivative (PPD). RANTES and MIP1 alpha are produced early in response to activation, followed by MIP1 beta, (alpha-interferon, gamma-interferon, alpha IFN, gamma-IFN alpha and IFN alpha and gamma. These results suggest that using our methodology, chemokines levels can be reliably determined, permitting the performance of accurate genetic studies using PBMCs from various cohorts (siblings or AIDS related cohorts).