A genome-wide association study of pulmonary tuberculosis in Morocco

Grant, Audrey V.; Sabri, Ayoub; Abid, A.; Rhorfi, I.A.; Benkirane, Majid; Souhi, H.; Amrani, Hicham Naji; Alaoui-Tahiri, K.; Gharbaoui, Y.; Lazrak, Faouzia; Sentissi, Ilham; Manessouri, M; Belkheiri, S.; Zaid, Syed; Bouraqadi, A.; Amraoui, N; Hakam, M.; Belkadi, Abdelaziz; Orlova, Marianna; Boland, Anne; Deswarte, Caroline; Amar, Laurence; Bustamante, Jacinta; Boisson–Dupuis, Stéphanie; Casanova, Jean‐Laurent; Schurr, Erwin; Baghdadi, Jamila El; Abel, Laurent

doi:10.1007/s00439-016-1633-2

Cited by 58 publications

(50 citation statements)

References 43 publications

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“…However, the power to detect a common variant with an odds ratio of 2 was 98%. Validation of these results in other case-control cohorts as well as the inclusion of recent GWAS results [5,12,14] is desirable, but complicated by the lack of available TB case-control cohorts with a similar genetic structure to that of the SAC population. In addition, since there was a priori evidence for an association, replication is arguably not necessary as this study attempted to fine-map the potential causal variants in loci identified by previous TB GWAS.…”

Section: Discussionmentioning

confidence: 99%

A post-GWAS analysis of predicted regulatory variants and tuberculosis susceptibility

et al. 2017

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Utilizing data from published tuberculosis (TB) genome-wide association studies (GWAS), we use a bioinformatics pipeline to detect all polymorphisms in linkage disequilibrium (LD) with variants previously implicated in TB disease susceptibility. The probability that these variants had a predicted regulatory function was estimated using RegulomeDB and Ensembl’s Variant Effect Predictor. Subsequent genotyping of these 133 predicted regulatory polymorphisms was performed in 400 admixed South African TB cases and 366 healthy controls in a population-based case-control association study to fine-map the causal variant. We detected associations between tuberculosis susceptibility and six intronic polymorphisms located in MARCO, IFNGR2, ASHAS2, ACACA, NISCH and TLR10. Our post-GWAS approach demonstrates the feasibility of combining multiple TB GWAS datasets with linkage information to identify regulatory variants associated with this infectious disease.

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Section: Discussionmentioning

confidence: 99%

A post-GWAS analysis of predicted regulatory variants and tuberculosis susceptibility

et al. 2017

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“…The authors concluded that ADA2 might be important for the regulation of the innate immune responses against MTB infection. Interestingly a recent genome wide association studies (GWAS) failed to identify ADA2 as a common susceptibility locus for MTB infection . However, it is prudent to say that GWAS typically interrogate polymorphisms and that rare variants may be overlooked.…”

Section: The Human Adenosine Deaminase Enzymes: a Historical Perspectivementioning

confidence: 99%

“…Interestingly a recent genome wide association studies (GWAS) failed to identify ADA2 as a common susceptibility locus for MTB infection. 33 However, it is prudent to say that GWAS typically interrogate polymorphisms and that rare variants may be overlooked. On the viral side, plasma ADA2 has been used as a marker for HIV-1 seroconversion and HTLV infection.…”

Section: The Discovery Of Ada2 and The Genes That Encode It In Invementioning

confidence: 99%

Human adenosine deaminase 2 deficiency: A multi‐faceted inborn error of immunity

Moens

Hershfield

Arts

et al. 2018

Immunological Reviews

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Human adenosine deaminase 1 deficiency was described in the 1970s to cause severe combined immunodeficiency. The residual adenosine deaminase activity in these patients was attributed to adenosine deaminase 2. Human adenosine deaminase type 2 deficiency (DADA2), due to biallelic deleterious mutations in the ADA2 gene, is the first described monogenic type of small‐ and medium‐size vessel vasculitis. The phenotype of DADA2 also includes lymphoproliferation, cytopenia, and variable degrees of immunodeficiency. The physiological role of ADA2 is still enigmatic hence the pathophysiology of the condition is unclear. Preliminary data showed that in the absence of ADA2, macrophage differentiation is skewed to a pro‐inflammatory M1 subset, which is detrimental for endothelial integrity. The inflammatory phenotype responds well to anti‐TNF therapy with etanercept and that is the first‐line treatment for prevention of severe vascular events including strokes. The classic immunosuppressive drugs are not successful in controlling the disease activity. However, hematopoietic stem cell transplantation (HSCT) has been shown to be a definitive cure in DADA2 patients who present with a severe cytopenia. HSCT can also cure the vascular phenotype and is the treatment modality for patients’ refractory to anti‐cytokine therapies. In this review, we describe what is currently known about the molecular mechanisms of DADA2. Further research on the pathophysiology of this multifaceted condition is needed to fine‐tune and steer future therapeutic strategies.

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“…A case-control GWAS in a Russian population replicated the chromosome 11 locus, but not the chromosome 18 locus; it also detected significant association with the ASAP1 gene [44]. While a GWAS conducted in a Moroccan population did not detect any genome-wide significant associations, it replicated results from chromosomes 11 and 18 at a nominal significance (p<0.05) [45]. A GWAS in an Indonesian population did not detect any loci that were significant after multiple testing correction, although it did identify suggestively associated loci involved in immune signaling; the previous GWAS associations were not explicitly tested in this study [46].…”

Section: Previous Genetic Studies Of Tbmentioning

confidence: 99%

Genomics of Human Pulmonary Tuberculosis: from Genes to Pathways

et al. 2017

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Purpose of review Tuberculosis (TB), caused by Mycobacterium tuberculosis (MTB), remains a major public health threat globally. Several lines of evidence support a role for host genetic factors in resistance/susceptibility to TB disease and MTB infection. However, results across candidate gene and genome-wide association studies (GWAS) are largely inconsistent, so a cohesive genetic model underlying TB risk has not emerged. Recent Findings Despite the difficulties in identifying consistent genetic associations, genetic studies of TB and MTB infection have revealed a few well-documented loci. These well validated genes are presented in this review, but there remains a large gap in how these genes translate into better understanding of TB. To address this, we present a pathway based extension of standard association analyses, seeding the results with the best validated genes from candidate gene and GWAS studies. Summary Several pathways were significantly enriched using pathway analyses that may help to explain population patterns of TB risk. In conclusion, we advocate for novel approaches to the study of host genetic analysis of TB that extend traditional association approaches.

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A genome-wide association study of pulmonary tuberculosis in Morocco

Cited by 58 publications

References 43 publications

A post-GWAS analysis of predicted regulatory variants and tuberculosis susceptibility

A post-GWAS analysis of predicted regulatory variants and tuberculosis susceptibility

Human adenosine deaminase 2 deficiency: A multi‐faceted inborn error of immunity

Genomics of Human Pulmonary Tuberculosis: from Genes to Pathways

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