In this Perspective, Janelle Ayres argues for a paradigm shift in how we think about “health,” toward viewing it as an active process involving mechanisms distinct from those of disease.
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NOMIS Researcher(s)
Published in Cell
In this Perspective, Janelle Ayres argues for a paradigm shift in how we think about “health,” toward viewing it as an active process involving mechanisms distinct from those of disease.
Research field(s)
Health Sciences, Biomedical Research, Developmental Biology
NOMIS Researcher(s)
Published in Cell
Animal defense strategies against microbes are most often thought of as a function of the immune system, the primary function of which is to sense and kill microbes through the execution of resistance mechanisms. However, this antagonistic view creates complications for our understanding of beneficial host-microbe interactions. Pathogenic microbes are described as employing a few common behaviors that promote their fitness at the expense of host health and fitness. Here, a complementary framework is proposed to suggest that, in addition to pathogens, beneficial microbes have evolved behaviors to manipulate host processes in order to promote their own fitness and do so through the promotion of host health and fitness. In this Perspective, I explore the idea that patterns or behaviors traditionally ascribed to pathogenic microbes are also employed by beneficial microbes to promote host tolerance defense strategies. Such strategies would promote host health without having a negative impact on microbial fitness and would thereby yield cooperative evolutionary dynamics that are likely required to drive mutualistic co-evolution of hosts and microbes.
Research field(s)
Health Sciences, Biomedical Research, Developmental Biology
NOMIS Researcher(s)
Published in Cell Host and Microbe
Host defense responses against microbes are most often thought of in terms of effectors of microbial destruction. However, recent evidence demonstrates that the more complex interactions between the microbiota and innate immune mechanisms, such as the inflammasome-mediated response, cannot be readily explained within just the traditional paradigms of microbial killing mechanisms. In this review, the concepts of both resistance and tolerance are applied to inflammasome-microbiota interactions, and the various physiological consequences of this interplay, including roles in inflammation, tissue repair, tumorigenesis, and metabolism, are discussed. © 2013 Elsevier Inc.
Research field(s)
Health Sciences, Clinical Medicine, Immunology