Interaction Between the Microbiota, Epithelia, and Immune Cells in the Intestine

Kayama, Hisako; Okumura, Ryu

doi:10.1146/annurev-immunol-070119-115104

Cited by 339 publications

(270 citation statements)

References 196 publications

(222 reference statements)

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“…Until recently, gut health was mainly assessed through histological observations. The development of 16S RNA based on high throughput sequencing techniques has enabled the precise detection of complex microbial communities in animals gastrointestinal tract (GIT), named microbiota, which has been closely linked not only to digestion but also to immunity and resistance of the animals to diseases (Egerton et al, 2018;Kayama et al, 2020;McCarville et al, 2020). Diet composition is recognised as one of the major factors affecting this gut microbiota and dietary insects may subsequently modulate the gut microbiota of the animals feeding on these insects (Vogel et al, 2018).…”

Section: Microbiota Modulation and Gut Healthmentioning

confidence: 99%

Beyond the protein concept: health aspects of using edible insects on animals

Gasco

Józefiak

Henry

2021

JIFF

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There is an increasing interest in the use of insects in animal feed since they contain high proteins levels, lipids, vitamins and minerals. In particular, insect-derived proteins are seen as one of the potential solution to face the increasing protein shortage and are able to fully substitute soybean meal or fishmeal in aquaculture or livestock feeds. However, beside their interesting nutritional composition, insects are also rich in bioactive compounds such as chitin, antimicrobial peptides or specific fatty acids with immunostimulating, antimicrobial and/or anti-inflammatory properties able to sustain animal health, increase their resistance to diseases. Further studies will also have to investigate whether insects share similarities with bacterial or parasitical pathogens and may act as immunostimulants. These recent findings may launch insects beyond the protein concept into healthy animal feeds. This review presents the effects of insects and their bioactive compounds on fish and crustaceans, poultry, pigs and rabbits immune system, gut health, microbiota and resistance to diseases.

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Section: Microbiota Modulation and Gut Healthmentioning

confidence: 99%

Beyond the protein concept: health aspects of using edible insects on animals

Gasco

Józefiak

Henry

2021

JIFF

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“…In addition to these direct effects on epithelial cells, SCFAs also profoundly impact on the differentiation of mucosal T cells and induce T regs (40), which are involved in mucosal wound healing as described below. Further details on this emerging field are reviewed elsewhere [reviewed in (41,42)].…”

Section: Intestinal Epithelial Wound Healingmentioning

confidence: 99%

Intestinal Mucosal Wound Healing and Barrier Integrity in IBD–Crosstalk and Trafficking of Cellular Players

et al. 2021

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The intestinal epithelial barrier is carrying out two major functions: restricting the entry of potentially harmful substances while on the other hand allowing the selective passage of nutrients. Thus, an intact epithelial barrier is vital to preserve the integrity of the host and to prevent development of disease. Vice versa, an impaired intestinal epithelial barrier function is a hallmark in the development and perpetuation of inflammatory bowel disease (IBD). Besides a multitude of genetic, molecular and cellular alterations predisposing for or driving barrier dysintegrity in IBD, the appearance of intestinal mucosal wounds is a characteristic event of intestinal inflammation apparently inducing breakdown of the intestinal epithelial barrier. Upon injury, the intestinal mucosa undergoes a wound healing process counteracting this breakdown, which is controlled by complex mechanisms such as epithelial restitution, proliferation and differentiation, but also immune cells like macrophages, granulocytes and lymphocytes. Consequently, the repair of mucosal wounds is dependent on a series of events including coordinated trafficking of immune cells to dedicated sites and complex interactions among the cellular players and other mediators involved. Therefore, a better understanding of the crosstalk between epithelial and immune cells as well as cell trafficking during intestinal wound repair is necessary for the development of improved future therapies. In this review, we summarize current concepts on intestinal mucosal wound healing introducing the main cellular mediators and their interplay as well as their trafficking characteristics, before finally discussing the clinical relevance and translational approaches to therapeutically target this process in a clinical setting.

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“…These gut microbiota maintain the integrity of the epithelial barrier and shape the intestinal immune system, balancing host defense with microbial metabolites, components, and attachment to host cells 96 . Concomitantly, intestinal mucosa contains a large number of different immune cells that participate in the maintenance of a healthy microbiota community, as well as reinforce epithelial barrier functions 97 . Mounting evidence has underpinned the essential roles of the gut microbiome as critical regulatory elements in host immune responses.…”

Section: The Role Of Gut Microbiota In Iga/gd-iga1 Immunitymentioning

confidence: 99%

Perspectives on how mucosal immune responses, infections and gut microbiome shape IgA nephropathy and future therapies

He¹,

Zhou²,

Lv³

et al. 2020

Theranostics

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Infections have been considered to play a critical role in the pathogenesis of IgA nephropathy (IgAN) because synpharyngitic hematuria is a common feature in IgAN. However, how infections participate in this process is still debated. More recent studies have also revealed that the alteration of the gut microbiome exerts a profound effect on host immune responses, contributing to the etiology or progression of autoimmunity. Considering IgA as the first line of defense against bacterial and viral antigens, this review evaluates the relationships among intestinal infections, gut microbiome, and IgA for a better understanding of the pathogenesis of IgAN. Moreover, as a prototype of IgA immunity, we provide detailed clarification of IgAN pathogenesis to shed light on other diseases in which IgA plays a role. Finally, we discuss potential therapies focusing on microbes and mucosal immune responses in IgAN.

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Interaction Between the Microbiota, Epithelia, and Immune Cells in the Intestine

Cited by 339 publications

References 196 publications

Beyond the protein concept: health aspects of using edible insects on animals

Beyond the protein concept: health aspects of using edible insects on animals

Intestinal Mucosal Wound Healing and Barrier Integrity in IBD–Crosstalk and Trafficking of Cellular Players

Perspectives on how mucosal immune responses, infections and gut microbiome shape IgA nephropathy and future therapies

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