Lactate Suppresses Macrophage Pro-Inflammatory Response to LPS Stimulation by Inhibition of YAP and NF-κB Activation via GPR81-Mediated Signaling

Yang, Kun; Xu, Jingjing; Fan, Min; Tu, Fei; Wang, Xiaohui; Ha, Tuanzhu; Williams, David L.; Li, Chuanfu

doi:10.3389/fimmu.2020.587913

Cited by 107 publications

(104 citation statements)

References 54 publications

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“…These findings suggested that GPR81 had a potential protective effect on atherosclerosis and targeting GPR81 may inhibit OSS-induced endothelial inflammation and dysfunction [99]. In 2020, KunYang discovered a new mechanism, found that lactic acid inhibited the activation of YAP and NF-κB during inflammation through GPR81-mediated signal transduction, and inhibited the pro-inflammatory response of macrophages stimulated by LPS [89].…”

Section: Effects Of Lactic Acid Signaling On Inflammatory Responsementioning

confidence: 97%

“…The concentration of physiological lactic acid is approximately 1.5-3mM, inncreasing to 10 mM in blood and healthy tissues, and reaching as high as 25 mM after strenuous exercise. In inflammatory diseases, such as atherosclerotic plaques or rheumatic synovial fluid, the concentration of lactic acid can be around 10 mM, and in cancer tissues it can even reach to 20-40mM [19,89]. The accumulation of lactic acid had a great impact on the macrophages that had infiltrated and were staying in the tissue, which fur ther inf luenced disease progression.…”

Section: Effect Of Lactic Acid On Macrophage Polarizationmentioning

confidence: 99%

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Lactic acid in macrophage polarization: The significant role in inflammation and cancer

Zhou

Yan

et al. 2021

International Reviews of Immunology

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Metabolite lactic acid has always been regarded as a metabolic by-product rather than a bioactive molecule. Recently, this view has changed since it was discovered that lactic acid can be used as a signal molecule and has novel signal transduction functions both intracellular and extracellular, which can regulate key functions in the immune system. in recent years, more and more evidence has shown that lactic acid is closely related to the metabolism and polarization of macrophages. During inflammation, lactic acid is a regulator of macrophage metabolism, and it can prevent excessive inflammatory responses; in malignant tumors, lactic acid produced by tumor tissues promotes the polarization of tumor-associated macrophages, which in turn promotes tumor progression. in this review, we examined the relationship between lactic acid and macrophage metabolism. we further discussed how lactic acid plays a role in maintaining the homeostasis of macrophages, as well as the biology of macrophage polarization and the M1/M2 imbalance in human diseases. Potential methods to target lactic acid in the treatment of inflammation and cancer will also be discussed so as to provide new strategies for the treatment of diseases.

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Section: Effects Of Lactic Acid Signaling On Inflammatory Responsementioning

confidence: 97%

Section: Effect Of Lactic Acid On Macrophage Polarizationmentioning

confidence: 99%

Lactic acid in macrophage polarization: The significant role in inflammation and cancer

Zhou

Yan

et al. 2021

International Reviews of Immunology

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“…The endogenously produced lactate in the established tumors has been identified as a driver of angiogenesis, immune evasion, metastasis, and resistance to therapy [ 106 ]. On the other hand, lactate delivered by postbiotic supplementation may serve as an inhibitor of carcinogenesis through the maintenance of the epithelial integrity and downregulation of the tissue inflammation [ 11 , 107 , 108 , 109 , 110 , 111 ].…”

Section: Lactic Acidmentioning

confidence: 99%

Postbiotics, Metabolic Signaling, and Cancer

2021

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Postbiotics are health-promoting microbial metabolites delivered as a functional food or a food supplement. They either directly influence signaling pathways of the body or indirectly manipulate metabolism and the composition of intestinal microflora. Cancer is the second leading cause of death worldwide and even though the prognosis of patients is improving, it is still poor in the substantial part of the cases. The preventable nature of cancer and the importance of a complex multi-level approach in anticancer therapy motivate the search for novel avenues of establishing the anticancer environment in the human body. This review summarizes the principal findings demonstrating the usefulness of both natural and synthetic sources of postbotics in the prevention and therapy of cancer. Specifically, the effects of crude cell-free supernatants, the short-chain fatty acid butyrate, lactic acid, hydrogen sulfide, and β-glucans are described. Contradictory roles of postbiotics in healthy and tumor tissues are highlighted. In conclusion, the application of postbiotics is an efficient complementary strategy to combat cancer.

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“…In our study, the biofilm CM of SA and SE contained high amounts of bacterial lactate. In general, extracellular lactate is associated with an inhibitory effect on the pro-inflammatory immune response of macrophages (44)(45)(46). In a recent study, the group of Tammy Kielian compared the effects of biofilm environments from wild-type and a mutant SA strain deficient in the production of Land D-lactate on IL-10 induction (47).…”

Section: Discussionmentioning

confidence: 99%

Bacterial and metabolic factors of staphylococcal planktonic and biofilm environments differentially regulate macrophage immune activation

Seebach

Elschner

Kraus

et al. 2021

Preprint

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Implant-related bone infections are a major complication in orthopedic surgery that lead to inflammation and bone destruction. Bacterial biofilm formation on the implant is discussed to polarize the immune response towards tolerance and to facilitate bacterial persistence. In addition to their role in the early immune response, macrophages are osteoclast precursor cells. Therefore, macrophages can link inflammation and RANKL-mediated osteoclastogenic bone destruction. We investigated the influence of Staphylococcus aureus (SA) and epidermidis (SE) biofilm formation on immune function and osteoclastogenesis using RAW264.7 cells and conditioned media (CM) of planktonic and biofilm cultures in the presence and absence of the osteoclastogenic transcription factor RANKL. Analysis of immune cell activation, metabolic activity and osteoclast formation revealed that a planktonic environment causes a pro-inflammatory response. This was also partially induced by biofilm CM. Simultaneous stimulation with CM and RANKL suppressed osteoclast formation in favor of a long-term immune activation. While the early macrophage response towards CM was dominated by glycolysis, the CM and RANKL approach shifted metabolism towards increased mitochondrial biomass and activity. This was most evident in biofilm CM. We further showed that planktonic CM effects are mediated through activation of TLR signaling and induction of IFN-β production. In biofilm CM, high lactate levels seem to significantly contribute to the modulation of macrophages. Our results can contribute to find targets for therapeutic intervention that restore an effective pro-inflammatory immune response, which could help to control implant-related bone infections.

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Lactate Suppresses Macrophage Pro-Inflammatory Response to LPS Stimulation by Inhibition of YAP and NF-κB Activation via GPR81-Mediated Signaling

Cited by 107 publications

References 54 publications

Lactic acid in macrophage polarization: The significant role in inflammation and cancer

Lactic acid in macrophage polarization: The significant role in inflammation and cancer

Postbiotics, Metabolic Signaling, and Cancer

Bacterial and metabolic factors of staphylococcal planktonic and biofilm environments differentially regulate macrophage immune activation

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