An integrative Bayesian Dirichlet-multinomial regression model for the analysis of taxonomic abundances in microbiome data

Wadsworth, W. Duncan; Argiento, Raffaele; Guindani, Michele; Galloway-Pena, Jessica; Shelbourne, Samuel A.; Vannucci, Marina

An integrative Bayesian Dirichlet-multinomial regression model for the analysis of taxonomic abundances in microbiome data

Files

12859_2017_Article_1516.pdf (928.54 KB)

Date

2017

Authors

Wadsworth, W. Duncan

Argiento, Raffaele

Guindani, Michele

Galloway-Pena, Jessica

Shelbourne, Samuel A.

Vannucci, Marina

Publisher

BioMed Central

Abstract

            Background
            The Human Microbiome has been variously associated with the immune-regulatory mechanisms involved in the prevention or development of many non-infectious human diseases such as autoimmunity, allergy and cancer. Integrative approaches which aim at associating the composition of the human microbiome with other available information, such as clinical covariates and environmental predictors, are paramount to develop a more complete understanding of the role of microbiome in disease development.
          
          
            Results
            In this manuscript, we propose a Bayesian Dirichlet-Multinomial regression model which uses spike-and-slab priors for the selection of significant associations between a set of available covariates and taxa from a microbiome abundance table. The approach allows straightforward incorporation of the covariates through a log-linear regression parametrization of the parameters of the Dirichlet-Multinomial likelihood. Inference is conducted through a Markov Chain Monte Carlo algorithm, and selection of the significant covariates is based upon the assessment of posterior probabilities of inclusions and the thresholding of the Bayesian false discovery rate. We design a simulation study to evaluate the performance of the proposed method, and then apply our model on a publicly available dataset obtained from the Human Microbiome Project which associates taxa abundances with KEGG orthology pathways. The method is implemented in specifically developed R code, which has been made publicly available.
          
          
            Conclusions
            Our method compares favorably in simulations to several recently proposed approaches for similarly structured data, in terms of increased accuracy and reduced false positive as well as false negative rates. In the application to the data from the Human Microbiome Project, a close evaluation of the biological significance of our findings confirms existing associations in the literature.

Type

Journal article

Citation

Wadsworth, W. Duncan, Argiento, Raffaele, Guindani, Michele, et al.. "An integrative Bayesian Dirichlet-multinomial regression model for the analysis of taxonomic abundances in microbiome data." BMC Bioinformatics, (2017) BioMed Central: http://dx.doi.org/10.1186/s12859-017-1516-0.

Published Version

http://dx.doi.org/10.1186/s12859-017-1516-0

Rights

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