The gut microbial metabolite trimethylamine N-oxide aggravates GVHD by inducing M1 macrophage polarization in mice

Wu, Kunpeng; Yuan, Yan; Yu, Huihui; Dai, Xin; Wang, Shu; Sun, Zhengxu; Wang, Fen; He, Fangping; Lin, Qiwang; Jiang, Hua; Chen, Tong

doi:10.1182/blood.2019003990

Cited by 173 publications

(151 citation statements)

References 55 publications

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“…88 Recently, it has been demonstrated that a soluble microbiome-derived metabolite, trimethylamine N-oxide (TMAO), can drive murine macrophage polarization in an NLRP3 inflammasome-dependent manner. 89 Innate lymphoid cells (ILCs) are a more recently discovered heterogenous innate immune cell population specialized in the rapid secretion of polarized cytokines and chemokines to combat infection and promote mucosal tissue repair. 90 ILCs have been categorized into three distinct types based on transcription factors and cytokine signatures.…”

Section: Interaction Between Microbiota and Immune System In Homeostasismentioning

confidence: 99%

Interaction between microbiota and immunity in health and disease

2020

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The interplay between the commensal microbiota and the mammalian immune system development and function includes multifold interactions in homeostasis and disease. The microbiome plays critical roles in the training and development of major components of the host's innate and adaptive immune system, while the immune system orchestrates the maintenance of key features of host-microbe symbiosis. In a genetically susceptible host, imbalances in microbiota-immunity interactions under defined environmental contexts are believed to contribute to the pathogenesis of a multitude of immune-mediated disorders. Here, we review features of microbiome-immunity crosstalk and their roles in health and disease, while providing examples of molecular mechanisms orchestrating these interactions in the intestine and extra-intestinal organs. We highlight aspects of the current knowledge, challenges and limitations in achieving causal understanding of host immune-microbiome interactions, as well as their impact on immune-mediated diseases, and discuss how these insights may translate towards future development of microbiometargeted therapeutic interventions.

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Section: Interaction Between Microbiota and Immune System In Homeostasismentioning

confidence: 99%

Interaction between microbiota and immunity in health and disease

2020

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“…Recently, a study from China reported that the gut microbial metabolite choline-metabolized trimethylamine N-oxide exacerbates GvHD by inducing M1 macrophage polarization, and the underlying mechanism also involves NLRP3 inflammasome activation [ 145 ]. Therefore, further understanding the activation mechanism of the inflammasome in different types of cells and their roles in GvHD will help to effectively prevent and treat GvHD in the clinic.…”

Section: Inflammasomes In Hematological Diseasesmentioning

confidence: 99%

Inflammasomes and the Maintenance of Hematopoietic Homeostasis: New Perspectives and Opportunities

Yang

et al. 2021

Molecules

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Hematopoietic stem cells (HSCs) regularly produce various blood cells throughout life via their self-renewal, proliferation, and differentiation abilities. Most HSCs remain quiescent in the bone marrow (BM) and respond in a timely manner to either physiological or pathological cues, but the underlying mechanisms remain to be further elucidated. In the past few years, accumulating evidence has highlighted an intermediate role of inflammasome activation in hematopoietic maintenance, post-hematopoietic transplantation complications, and senescence. As a cytosolic protein complex, the inflammasome participates in immune responses by generating a caspase cascade and inducing cytokine secretion. This process is generally triggered by signals from purinergic receptors that integrate extracellular stimuli such as the metabolic factor ATP via P2 receptors. Furthermore, targeted modulation/inhibition of specific inflammasomes may help to maintain/restore adequate hematopoietic homeostasis. In this review, we will first summarize the possible relationships between inflammasome activation and homeostasis based on certain interesting phenomena. The cellular and molecular mechanism by which purinergic receptors integrate extracellular cues to activate inflammasomes inside HSCs will then be described. We will also discuss the therapeutic potential of targeting inflammasomes and their components in some diseases through pharmacological or genetic strategies.

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“…Wu et al recently reported the role of choline-derived trimethylamine N-oxide (TMAO) in the HSCT context [ 16 ]. This metabolite is already well known to play an important role in vascular inflammation and endothelial dysfunction, contributing to the genesis of atherosclerosis and thrombosis [ 60 ].…”

Section: Amino Acid-derived Metabolitesmentioning

confidence: 99%

“…The main involved bacterial strains are Anaerococcus hydrogenalis , Clostridium asparagiforme , Clostridium hathewayi , Clostridium sporogenes , Edwardsiella tarda , Escherichia fergusonii , Proteus penneri and Providencia rettgeri [ 62 ]. Both TMAO and choline were found to be associated in mouse model with an enhanced allogeneic GvHD reaction [ 16 ]. Furthermore, the authors demonstrate that TMAO induces the expression of M1 macrophages and M1-like cytokines both in tissues and in bone marrow in an NLRP3-dependent fashion [ 16 , 63 ].…”

Section: Amino Acid-derived Metabolitesmentioning

confidence: 99%

Microbiome-Derived Metabolites in Allogeneic Hematopoietic Stem Cell Transplantation

Masetti¹,

Zama²,

Leardini³

et al. 2021

IJMS

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The gut microbiome has emerged as a major character in the context of hematopoietic stem cell transplantation. The biology underpinning this relationship is still to be defined. Recently, mounting evidence has suggested a role for microbiome-derived metabolites in mediating crosstalk between intestinal microbial communities and the host. Some of these metabolites, such as fiber-derived short-chain fatty acids or amino acid-derived compounds, were found to have a role also in the transplant setting. New interesting data have been published on this topic, posing a new intriguing perspective on comprehension and treatment. This review provides an updated comprehensive overview of the available evidence in the field of gut microbiome-derived metabolites and hematopoietic stem cell transplantation.

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The gut microbial metabolite trimethylamine N-oxide aggravates GVHD by inducing M1 macrophage polarization in mice

Cited by 173 publications

References 55 publications

Interaction between microbiota and immunity in health and disease

Interaction between microbiota and immunity in health and disease

Inflammasomes and the Maintenance of Hematopoietic Homeostasis: New Perspectives and Opportunities

Microbiome-Derived Metabolites in Allogeneic Hematopoietic Stem Cell Transplantation

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