Yasmin Köller scite author profile

SummaryMicrobial exposure following birth profoundly impacts mammalian immune system development. Microbiota alterations are associated with increased incidence of allergic and autoimmune disorders with elevated serum IgE as a hallmark. The previously reported abnormally high serum IgE levels in germ-free mice suggests that immunoregulatory signals from microbiota are required to control basal IgE levels. We report that germ-free mice and those with low-diversity microbiota develop elevated serum IgE levels in early life. B cells in neonatal germ-free mice undergo isotype switching to IgE at mucosal sites in a CD4 T-cell- and IL-4-dependent manner. A critical level of microbial diversity following birth is required in order to inhibit IgE induction. Elevated IgE levels in germ-free mice lead to increased mast-cell-surface-bound IgE and exaggerated oral-induced systemic anaphylaxis. Thus, appropriate intestinal microbial stimuli during early life are critical for inducing an immunoregulatory network that protects from induction of IgE at mucosal sites.

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IL-2 is a critical regulator of group 2 innate lymphoid cell function during pulmonary inflammation

Roediger

Kyle

Tay

et al. 2015

Journal of Allergy and Clinical Immunology

130

119

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The interplay between the gut microbiota and the immune system

Geuking¹,

Köller²,

et al. 2014

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The impact of the gut microbiota on immune homeostasis within the gut and, importantly, also at systemic sites has gained tremendous research interest over the last few years. The intestinal microbiota is an integral component of a fascinating ecosystem that interacts with and benefits its host on several complex levels to achieve a mutualistic relationship. Host-microbial homeostasis involves appropriate immune regulation within the gut mucosa to maintain a healthy gut while preventing uncontrolled immune responses against the beneficial commensal microbiota potentially leading to chronic inflammatory bowel diseases (IBD). Furthermore, recent studies suggest that the microbiota composition might impact on the susceptibility to immune-mediated disorders such as autoimmunity and allergy. Understanding how the microbiota modulates susceptibility to these diseases is an important step toward better prevention or treatment options for such diseases.

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The bilateral responsiveness between intestinal microbes and IgA

Macpherson¹,

Köller²,

McCoy³

2015

Trends in Immunology

128

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Yasmin Köller

Intestinal Microbial Diversity during Early-Life Colonization Shapes Long-Term IgE Levels

IL-2 is a critical regulator of group 2 innate lymphoid cell function during pulmonary inflammation

The interplay between the gut microbiota and the immune system

The bilateral responsiveness between intestinal microbes and IgA

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