Gut Microbiota Promotes Immune Tolerance by Regulating RORγt+ Treg Cells in Food Allergy

Ning, Xixi; Lei, Zengjie; Rui, Binqi; Li, Yuyuan; Li, Ming

doi:10.1155/2022/8529578

Cited by 4 publications

(2 citation statements)

References 91 publications

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“…Healthy and diverse gut microbiota acts as a protective barrier against harmful pathogens, preventing them from establishing themselves in the gut. By inhibiting the growth of pathogens, the gut microbiota reduces the need for a heightened immune response [76,77]. Some gut microbes can produce substances that have an immunomodulatory effect.…”

Section: Gut Microbiota and Immunomodulationmentioning

confidence: 99%

Diffusion Idiopathic Skeletal Hyperostosis (DISH), a Link between Gut Microbiota and Spinal Degenerative Diseases<strong> </strong>

Ibrahim,

Ayariga,

et al. 2023

Preprint

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The interplay between Diffuse Idiopathic Skeletal Hyperostosis (DISH) and the gut microbiota represents a compelling area of research, offering insights into the relationship between spinal degenerative diseases and the gut's microbial inhabitants. This comprehensive review seeks to unravel the complex connection, shedding light on its implications for human health and potential therapeutic avenues. A crucial section dives into the world of gut microbiota (GM), exploring its impact on human health, featuring its defining characteristics, and highlighting its role in metabolism, immunomodulation, host interaction, and how its composition changes over time. The subsequent portion delves into the relationship between microbiome composition and pathological bone development, including the link between Intervertebral Disc Degeneration (IDD) and gut inflammation, emphasizing how gut inflammation and GM dysbiosis play pivotal roles. Further dissecting the interconnections, various axes of influence, including the gut-spine axis, gut-bone axis, gut-joint axis, gut-disc axis (specific to DISH), gut-ligament axis, and gut-muscle axis, are discussed. Of particular interest is the section on the impact of GM on DISH-derived pain, addressing a critical aspect of the condition's manifestation. The review discusses the potential of GM modulation as a treatment for DISH, providing hope for therapeutic advancements. Additionally, it highlights the positive impact of lifestyle interventions, such as dietary modifications, sleep optimization, and exercise regimens, in mitigating GM dysbiosis and potentially improving DISH outcomes. Lastly, the intriguing prospect of fecal microbiome transplant and its implications for DISH management is examined, opening new avenues for research and therapeutic interventions. In conclusion, this comprehensive review underscores the intricate interplay between DISH and the gut microbiota, offering a fresh perspective on the impact of GM on spinal degenerative diseases. It emphasizes the potential for innovative treatments, such as GM modulation and lifestyle interventions, and presents fecal microbiome transplant as an exciting area for future exploration.

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Section: Gut Microbiota and Immunomodulationmentioning

confidence: 99%

Diffusion Idiopathic Skeletal Hyperostosis (DISH), a Link between Gut Microbiota and Spinal Degenerative Diseases<strong> </strong>

Ibrahim,

Ayariga,

et al. 2023

Preprint

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“…The mammalian target of rapamycin (mTOR) is a serine/threonine kinase, which can sense a variety of signals, including environmental and intracellular signals from nutrients, growth factors, and so on. Then, mTOR works as a regulatory center, integrating these signals and starting to regulate various important vital movements ( Ning et al, 2022 ; Wolfe et al, 2023 ). Due to its powerful regulatory function, the mTOR signaling pathway plays an important role in regulating cell growth, proliferation, metabolism, and so on ( Saxton and Sabatini, 2017 ).…”

Section: Introductionmentioning

confidence: 99%

Regulation of hematopoietic stem cells differentiation, self-renewal, and quiescence through the mTOR signaling pathway

Bai

Qian

et al. 2023

Front. Cell Dev. Biol.

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Hematopoietic stem cells (HSCs) are important for the hematopoietic system because they can self-renew to increase their number and differentiate into all the blood cells. At a steady state, most of the HSCs remain in quiescence to preserve their capacities and protect themselves from damage and exhaustive stress. However, when there are some emergencies, HSCs are activated to start their self-renewal and differentiation. The mTOR signaling pathway has been shown as an important signaling pathway that can regulate the differentiation, self-renewal, and quiescence of HSCs, and many types of molecules can regulate HSCs’ these three potentials by influencing the mTOR signaling pathway. Here we review how mTOR signaling pathway regulates HSCs three potentials, and introduce some molecules that can work as the regulator of HSCs’ these potentials through the mTOR signaling. Finally, we outline the clinical significance of studying the regulation of HSCs three potentials through the mTOR signaling pathway and make some predictions.

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In vivo biological analysis of cold plasma on allergenicity reduction of tropomyosin in shrimp

Cheng,

Li,

Sun

2024

Food Chemistry

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Gut Microbiota Promotes Immune Tolerance by Regulating RORγt+ Treg Cells in Food Allergy

Cited by 4 publications

References 91 publications

Diffusion Idiopathic Skeletal Hyperostosis (DISH), a Link between Gut Microbiota and Spinal Degenerative Diseases<strong> </strong>

Diffusion Idiopathic Skeletal Hyperostosis (DISH), a Link between Gut Microbiota and Spinal Degenerative Diseases<strong> </strong>

Regulation of hematopoietic stem cells differentiation, self-renewal, and quiescence through the mTOR signaling pathway

In vivo biological analysis of cold plasma on allergenicity reduction of tropomyosin in shrimp

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