Regulation of mitochondrial metabolism in murine skeletal muscle by the medium‐chain fatty acid receptor Gpr84

Montgomery, Magdalene K; Osborne, Brenna; Brandon, Amanda E.; O’Reilly, Liam; Fiveash, Corrine E; Brown, Simon H. J.; Wilkins, Brendan P.; Samsudeen, Azrah; Yu, Jung Hum; Devanapalli, Beena; Hertzog, Ashley; Tolun, Adviye A.; Kavanagh, Tomas; Cooper, Antony A.; Mitchell, Todd W.; Biden, Trevor J.; Smith, Nicola J.; Cooney, Gregory J.; Turner, Nigel

doi:10.1096/fj.201900234r

Cited by 41 publications

(40 citation statements)

References 79 publications

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“…Gpr84 upregulation in the brain, bone marrow, and kidney in NOD mice, and in the aortae of ApoE -/high-fat diet mice suggests an involvement in inflammation associated with diabetes and atherosclerosis. Mice fed a MCFAenriched high-fat diet for 8 weeks did not reveal a significant increase of GPR84 in quadriceps muscle, but mice on methionine-and choline-deficient diets and choline-deficient, l-amino acid-defined, high-fat diets showed higher GPR84 expression in the liver (Montgomery et al, 2019;Puengel et al, 2020). These studies imply GPR84 has a role in inflammatory processes underlying various chronic noncommunicable conditions such as diabetes, atherosclerosis, and nonalcoholic fatty liver disease, and that long-term GPR84 expression might be relevant under pathological conditions.…”

Section: Mcfa-gpr84 Kinetic Disconnectmentioning

confidence: 85%

“…Gpr84 was undetected in a direct analysis of the four chambers of hearts in mice (Moore-Morris et al, 2009). In skeletal muscle, Montgomery et al (2019) highlight that Gpr84 transcripts are present across more mouse tissue types, including skeletal muscle, when considered relative to total RNA rather than normalized to Gapdh. Despite repeated doubts about GPR84 antibody specificity (Recio et al, 2018), Western blots indicated receptor protein was present in skeletal muscle and adipose tissue, and at low levels in the heart (Montgomery et al, 2019).…”

Section: Heart and Skeletal Muscle Expressionmentioning

confidence: 89%

“…Both the high-fat diets caused an increase in body mass and impaired glucose tolerance, but these changes were not affected by genetic deletion of Gpr84. The global Gpr84 KO utilized by Montgomery et al (2019) showed no genotype effect in MCFA-diet induced body weight and fat mass increases, but KO mice did have mild impairments in glucose tolerance. This can be contrasted with experiments on FFARs in mice; FFA3 KO mice have an increased body fat content (Bellahcene et al, 2013), as do FFA4 KO mice on a high-fat diet (Oh et al, 2010;Ichimura et al, 2012).…”

Section: Diet-induced Adipositymentioning

confidence: 93%

“…In skeletal muscle, Montgomery et al (2019) highlight that Gpr84 transcripts are present across more mouse tissue types, including skeletal muscle, when considered relative to total RNA rather than normalized to Gapdh. Despite repeated doubts about GPR84 antibody specificity (Recio et al, 2018), Western blots indicated receptor protein was present in skeletal muscle and adipose tissue, and at low levels in the heart (Montgomery et al, 2019). Moreover, radiolabeling studies detected specific binding to GPR84 in mouse liver, but not in mouse heart (Köse et al, 2019).…”

Section: Heart and Skeletal Muscle Expressionmentioning

confidence: 99%

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20 Years an Orphan: Is GPR84 a Plausible Medium-Chain Fatty Acid-Sensing Receptor?

Luscombe

Lucy

Bataille

et al. 2020

DNA and Cell Biology

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GPR84 is an inflammation-induced receptor highly expressed on immune cells, yet its endogenous ligand is still unknown. This makes any interpretation of its physiological activity in vivo difficult. However, experiments with potent synthetic agonists have highlighted what the receptor can do, namely, enhance proinflammatory signaling and macrophage effector functions such as phagocytosis. Developing drugs to block these effects has attracted interest from the scientific community with the aim of decreasing disease activity in inflammatory disorders or enhancing inflammation resolution. In this review, we critically reassess the widely held belief that the major role of GPR84 is that of being a medium-chain fatty acid (MCFA) receptor. While MCFAs have been shown to activate GPR84, it remains to be demonstrated that they are present in relevant tissues at appropriate concentrations. In contrast to four other ''full-time'' free fatty acid receptor subtypes, GPR84 is not expressed by enteroendocrine cells and has limited expression in the gastrointestinal tract. Across multiple tissues and cell types, the highest expression levels of GPR84 are observed hours after exposure to an inflammatory stimulus. These factors obscure the relationship between ligand and receptor in the human body and do not support the exclusive physiological pairing of MCFAs with GPR84. To maximize the chances of developing efficacious drugs for inflammatory diseases, we must advance our understanding of GPR84 and what it does in vivo.

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Section: Mcfa-gpr84 Kinetic Disconnectmentioning

confidence: 85%

Section: Heart and Skeletal Muscle Expressionmentioning

confidence: 89%

Section: Diet-induced Adipositymentioning

confidence: 93%

Section: Heart and Skeletal Muscle Expressionmentioning

confidence: 99%

See 2 more Smart Citations

20 Years an Orphan: Is GPR84 a Plausible Medium-Chain Fatty Acid-Sensing Receptor?

Luscombe

Lucy

Bataille

et al. 2020

DNA and Cell Biology

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“…Many lipid metabolism-related genes were in cluster 2 in both inoculum cohorts. This includes: PLA2G4A, which encodes a phospholipase involved in membrane lipid remodeling and biosynthesis of lipid mediators of the in ammatory response (32,33); GPR84, which serves as a receptor for free fatty acid (34); CD5L, which encodes a regulator of lipid synthesis that in turn regulates in ammatory response mechanisms and T cell activities (35); and ALOX15, which encodes a lipoxygenase that catalyzes the deoxygenation of polyunsaturated fatty acids and has known roles in red cell maturation and the in ammatory immune response (36). Several lipid metabolism-related genes that were in cluster 2 in the low inoculum cohort were in cluster 3 in the high, indicating that they continued to increase expression levels throughout infection and recovery.…”

Section: Metabolismmentioning

confidence: 99%

Experimental Babesia Rossi Infection Induces Hemolytic, Metabolic, and Viral Response Pathways in the Canine Host

Smith

Goddard

Boddapati

et al. 2021

Preprint

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Background: Babesia rossi is a leading cause of morbidity and mortality among the canine population of sub-Saharan Africa, but pathogenesis remains poorly understood. Previous studies of B. rossi infection were derived from clinical cases, in which neither the onset of infection nor the infectious inoculum was known. Here, we performed controlled B. rossi inoculations in canines and evaluated disease progression through clinical tests and whole blood transcriptomic profiling.Results: Three subjects were administered a low inoculum (104 parasites) while two received a high (109 parasites). Subjects were monitored for 8 consecutive days; anti-parasite treatment with diminazene aceturate was administered on day 4. Blood was drawn prior to inoculation as well as every experimental day for assessment of clinical parameters and transcriptomic profiles. The model recapitulated natural disease manifestations including anemia, acidosis, inflammation and behavioral changes. Rate of disease onset and clinical severity were proportional to the inoculum. To analyze the temporal dynamics of the transcriptomic host response, we sequenced mRNA extracted from whole blood drawn on days 0, 1, 3, 4, 6, and 8. Differential gene expression, hierarchical clustering, and pathway enrichment analyses identified genes and pathways involved in response to hemolysis, metabolic changes, and several arms of the immune response including innate immunity, adaptive immunity, and response to viral infection. Conclusions: This work comprehensively characterizies the clinical and transcriptomic progression of B. rossi infection in canines, thus establishing a large mammalian model of severe hemoprotozoal disease to facilitate the study of host-parasite biology and in which to test novel anti-disease therapeutics. The knowledge gained from the study of B. rossi in canines will not only improve our understanding of this emerging infectious disease threat in domestic dogs, but also provide insight into the pathobiology of human diseases caused by Babesia and Plasmodium species.

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Targeting metabolic sensing switch GPR84 on macrophages for cancer immunotherapy

Li,

Ma,

Zhang

et al. 2024

Cancer Immunol Immunother

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Introduction As one of the major components of the tumor microenvironment, tumor-associated macrophages (TAMs) possess profound inhibitory activity against T cells and facilitate tumor escape from immune checkpoint blockade therapy. Converting this pro-tumorigenic toward the anti-tumorigenic phenotype thus is an important strategy for enhancing adaptive immunity against cancer. However, a plethora of mechanisms have been described for pro-tumorigenic differentiation in cancer, metabolic switches to program the anti-tumorigenic property of TAMs are elusive. Materials and methods From an unbiased analysis of single-cell transcriptome data from multiple tumor models, we discovered that anti-tumorigenic TAMs uniquely express elevated levels of a specific fatty acid receptor, G-protein-coupled receptor 84 (GPR84). Genetic ablation of GPR84 in mice leads to impaired pro-inflammatory polarization of macrophages, while enhancing their anti-inflammatory phenotype. By contrast, GPR84 activation by its agonist, 6-n-octylaminouracil (6-OAU), potentiates pro-inflammatory phenotype via the enhanced STAT1 pathway. Moreover, 6-OAU treatment significantly retards tumor growth and increases the anti-tumor efficacy of anti-PD-1 therapy. Conclusion Overall, we report a previously unappreciated fatty acid receptor, GPR84, that serves as an important metabolic sensing switch for orchestrating anti-tumorigenic macrophage polarization. Pharmacological agonists of GPR84 hold promise to reshape and reverse the immunosuppressive TME, and thereby restore responsiveness of cancer to overcome resistance to immune checkpoint blockade.

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Regulation of mitochondrial metabolism in murine skeletal muscle by the medium‐chain fatty acid receptor Gpr84

Cited by 41 publications

References 79 publications

20 Years an Orphan: Is GPR84 a Plausible Medium-Chain Fatty Acid-Sensing Receptor?

20 Years an Orphan: Is GPR84 a Plausible Medium-Chain Fatty Acid-Sensing Receptor?

Experimental Babesia Rossi Infection Induces Hemolytic, Metabolic, and Viral Response Pathways in the Canine Host

Targeting metabolic sensing switch GPR84 on macrophages for cancer immunotherapy

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