Trends in microbiology
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Trends in microbiology · Sep 2013
ReviewProbiotic strategies for treatment of respiratory diseases.
Recent advances in next-generation sequencing and phylogenetic microarray technologies have identified diverse, niche-specific microbial communities that comprise the human superorganism. Mucosal microbiome perturbation is a prominent feature of an increasing number of chronic inflammatory disorders, including respiratory diseases, and efforts are now focused on identifying novel microbe-based strategies to treat or manage these conditions. ⋯ Although the field is still relatively nascent, the potential for identifying novel microbe-based therapeutics in the human microbiome is great. This article focuses primarily on the respiratory tract, its associated microbiome, potential interactions with the gastrointestinal microbiota, and the possibilities for microbiome-manipulation strategies in the treatment and prevention of respiratory disease.
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Trends in microbiology · Sep 2013
Historical ArticleInsights into ancient leprosy and tuberculosis using metagenomics.
Leprosy and tuberculosis were widespread in the past and remain significant diseases today. Comparison of ancient and modern genomes of Mycobacterium leprae and Mycobacterium tuberculosis gives insight into their evolution and a calibration of the timescale for observed changes. Recently, whole genome sequencing has revealed genotypes and mixed-strain infections.
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Trends in microbiology · Mar 2013
ReviewTreatment, promotion, commotion: antibiotic alternatives in food-producing animals.
Alternatives to antibiotics are urgently needed in animal agriculture. The form these alternatives should take presents a complex problem due to the various uses of antibiotics in animal agriculture, including disease treatment, disease prevention, and growth promotion, and to the relative contribution of these uses to the antibiotic resistance problem. ⋯ This is because a fundamental understanding of how antibiotics improve feed efficiency is lacking, and because an individual alternative is unlikely to embody all of the performance-enhancing functions of antibiotics. High-throughput technologies need to be applied to better understand the problem, and informed combinations of alternatives, including vaccines, need to be considered.
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Approximately 20% of the healthy human population is persistently colonized in the nasal cavity with Staphylococcus aureus, which constitutes a major risk for infection. S. aureus seems to predominantly colonize the anterior part of the nasal cavity by adhering to nasal surface structures and escaping the host innate and adaptive immune responses. Several bacterial and host factors that play a role in these processes have been identified in the past few years and were in part functionally evaluated in appropriate colonization models. However, the dynamics of host-pathogen crosstalk is only partially understood.
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The gastrointestinal tract (GIT) is lined by a layer of mucus formed by mucin glycoproteins. This layer constitutes a physical and chemical barrier between the intestinal contents and the underlying epithelia. ⋯ Although mucus-microbial interactions in the GIT play a crucial role in determining the outcome of relationships of both commensal and pathogens with the host, the adhesins and ligands involved in the interaction are poorly delineated. This review focuses on the current knowledge of microbial adhesins to gastrointestinal mucus and mucus components.