Your search keyword '"Matthew L. Albert"' showing total 5 results

1. Integrative genetic and immune cell analysis of plasma proteins in healthy donors identifies novel associations involving primary immune deficiency genes

Author

Barthelemy Caron, Etienne Patin, Maxime Rotival, Bruno Charbit, Matthew L. Albert, Lluis Quintana-Murci, Darragh Duffy, Antonio Rausell, and the Milieu Intérieur Consortium

Subjects

pQTL, Plasma proteins, Immune cells, Immune variability, Medicine, Genetics, QH426-470

Abstract

Abstract Background Blood plasma proteins play an important role in immune defense against pathogens, including cytokine signaling, the complement system, and the acute-phase response. Recent large-scale studies have reported genetic (i.e., protein quantitative trait loci, pQTLs) and non-genetic factors, such as age and sex, as major determinants to inter-individual variability in immune response variation. However, the contribution of blood-cell composition to plasma protein heterogeneity has not been fully characterized and may act as a mediating factor in association studies. Methods Here, we evaluated plasma protein levels from 400 unrelated healthy individuals of western European ancestry, who were stratified by sex and two decades of life (20–29 and 60–69 years), from the Milieu Intérieur cohort. We quantified 229 proteins by Luminex in a clinically certified laboratory and their levels of variation were analyzed together with 5.2 million single-nucleotide polymorphisms. With respect to non-genetic variables, we included 254 lifestyle and biochemical factors, as well as counts of seven circulating immune cell populations measured by hemogram and standardized flow cytometry. Results Collectively, we found 152 significant associations involving 49 proteins and 20 non-genetic variables. Consistent with previous studies, age and sex showed a global, pervasive impact on plasma protein heterogeneity, while body mass index and other health status variables were among the non-genetic factors with the highest number of associations. After controlling for these covariates, we identified 100 and 12 pQTLs acting in cis and trans, respectively, collectively associated with 87 plasma proteins and including 19 novel genetic associations. Genetic factors explained the largest fraction of the variability of plasma protein levels, as compared to non-genetic factors. In addition, blood-cell fractions, including leukocytes, lymphocytes, monocytes, neutrophils, eosinophils, basophils, and platelets, had a larger contribution to inter-individual variability than age and sex and appeared as confounders of specific genetic associations. Finally, we identified new genetic associations with plasma protein levels of five monogenic Mendelian disease genes including two primary immunodeficiency genes (Ficolin-3 and FAS). Conclusions Our study identified novel genetic and non-genetic factors associated to plasma protein levels which may inform health status and disease management.

Published

2022

2. A comprehensive assessment of demographic, environmental, and host genetic associations with gut microbiome diversity in healthy individuals

Author

Petar Scepanovic, Flavia Hodel, Stanislas Mondot, Valentin Partula, Allyson Byrd, Christian Hammer, Cécile Alanio, Jacob Bergstedt, Etienne Patin, Mathilde Touvier, Olivier Lantz, Matthew L. Albert, Darragh Duffy, Lluis Quintana-Murci, Jacques Fellay, and The Milieu Intérieur Consortium

Subjects

Microbiome, Gut, Human, Genomics, 16S rRNA gene sequencing, GWAS, Microbial ecology, QR100-130

Abstract

Abstract Background The gut microbiome is an important determinant of human health. Its composition has been shown to be influenced by multiple environmental factors and likely by host genetic variation. In the framework of the Milieu Intérieur Consortium, a total of 1000 healthy individuals of western European ancestry, with a 1:1 sex ratio and evenly stratified across five decades of life (age 20–69), were recruited. We generated 16S ribosomal RNA profiles from stool samples for 858 participants. We investigated genetic and non-genetic factors that contribute to individual differences in fecal microbiome composition. Results Among 110 demographic, clinical, and environmental factors, 11 were identified as significantly correlated with α-diversity, ß-diversity, or abundance of specific microbial communities in multivariable models. Age and blood alanine aminotransferase levels showed the strongest associations with microbiome diversity. In total, all non-genetic factors explained 16.4% of the variance. We then searched for associations between > 5 million single nucleotide polymorphisms and the same indicators of fecal microbiome diversity, including the significant non-genetic factors as covariates. No genome-wide significant associations were identified after correction for multiple testing. A small fraction of previously reported associations between human genetic variants and specific taxa could be replicated in our cohort, while no replication was observed for any of the diversity metrics. Conclusion In a well-characterized cohort of healthy individuals, we identified several non-genetic variables associated with fecal microbiome diversity. In contrast, host genetics only had a negligible influence. Demographic and environmental factors are thus the main contributors to fecal microbiome composition in healthy individuals. Trial registration ClinicalTrials.gov identifier NCT01699893

Published

2019

3. Human genetic variants and age are the strongest predictors of humoral immune responses to common pathogens and vaccines

Author

Petar Scepanovic, Cécile Alanio, Christian Hammer, Flavia Hodel, Jacob Bergstedt, Etienne Patin, Christian W. Thorball, Nimisha Chaturvedi, Bruno Charbit, Laurent Abel, Lluis Quintana-Murci, Darragh Duffy, Matthew L. Albert, Jacques Fellay, and for The Milieu Intérieur Consortium

Subjects

Infection, Vaccination, GWAS, Serology, Human genomics, HLA, Medicine, Genetics, QH426-470

Abstract

Abstract Background Humoral immune responses to infectious agents or vaccination vary substantially among individuals, and many of the factors responsible for this variability remain to be defined. Current evidence suggests that human genetic variation influences (i) serum immunoglobulin levels, (ii) seroconversion rates, and (iii) intensity of antigen-specific immune responses. Here, we evaluated the impact of intrinsic (age and sex), environmental, and genetic factors on the variability of humoral response to common pathogens and vaccines. Methods We characterized the serological response to 15 antigens from common human pathogens or vaccines, in an age- and sex-stratified cohort of 1000 healthy individuals (Milieu Intérieur cohort). Using clinical-grade serological assays, we measured total IgA, IgE, IgG, and IgM levels, as well as qualitative (serostatus) and quantitative IgG responses to cytomegalovirus, Epstein-Barr virus, herpes simplex virus 1 and 2, varicella zoster virus, Helicobacter pylori, Toxoplasma gondii, influenza A virus, measles, mumps, rubella, and hepatitis B virus. Following genome-wide genotyping of single nucleotide polymorphisms and imputation, we examined associations between ~ 5 million genetic variants and antibody responses using single marker and gene burden tests. Results We identified age and sex as important determinants of humoral immunity, with older individuals and women having higher rates of seropositivity for most antigens. Genome-wide association studies revealed significant associations between variants in the human leukocyte antigen (HLA) class II region on chromosome 6 and anti-EBV and anti-rubella IgG levels. We used HLA imputation to fine map these associations to amino acid variants in the peptide-binding groove of HLA-DRβ1 and HLA-DPβ1, respectively. We also observed significant associations for total IgA levels with two loci on chromosome 2 and with specific KIR-HLA combinations. Conclusions Using extensive serological testing and genome-wide association analyses in a well-characterized cohort of healthy individuals, we demonstrated that age, sex, and specific human genetic variants contribute to inter-individual variability in humoral immunity. By highlighting genes and pathways implicated in the normal antibody response to frequently encountered antigens, these findings provide a basis to better understand disease pathogenesis. Trials registration ClinicalTrials.gov, NCT01699893

Published

2018

4. Mechanisms of immune-related adverse events associated with immune checkpoint blockade: using germline genetics to develop a personalized approach

Author

Zia Khan, Christian Hammer, Ellie Guardino, G. Scott Chandler, and Matthew L. Albert

Subjects

Medicine, Genetics, QH426-470

Abstract

Editorial summary Personalized care of cancer patients undergoing treatment with immune checkpoint inhibitors will require approaches that can predict their susceptibility to immune-related adverse events. Understanding the role of germline genetic factors in determining individual responses to immunotherapy will deepen our understanding of immune toxicity and, importantly, it may lead to tools for identifying patients who are at risk.

Published

2019

5. Cell and tissue tropisms of Chikungunya virus and its dissemination to the central nervous system

Author

Thérèse Couderc, Fabrice Chrétien, Olivier Disson, Alain Michault, Marc Lecuit, Clémentine Schilte, and Matthew L. Albert

Subjects

lcsh:R, medicine, lcsh:Medicine, lcsh:Q, General Medicine, Chikungunya, Biology, medicine.disease_cause, lcsh:Science, Virology, General Biochemistry, Genetics and Molecular Biology, Virus

Abstract

Address: 1Groupe "Microorganismes et Barrieres de l'Hote", Institut Pasteur, Paris, France, 2Equipe Avenir INSERM U604, Paris, France, 3Unite "Cellules souches et Developpement", CNRS URA 2578, Institut Pasteur, Paris, France, 4Groupe "Immunobiologie des Cellules Dendritiques", Institut Pasteur, Paris, France, 5INSERM U818, Paris, France, 6Service de Microbiologie, Groupe Hospitalier Sud-Reunion, Saint-Pierre, La Reunion, France and 7Service des Maladies Infectieuses et Tropicales, Hopital Necker-Enfants malades, Universite Paris Descartes, Paris, France

Published

2008