Branched‐chain ketoacids secreted by glioblastoma cells via
            <scp>MCT</scp>
            1 modulate macrophage phenotype

Silva, Lidia Santos; Poschet, Gernot; Nonnenmacher, Yannic; Becker, Holger M.; Sapcariu, Sean C.; Gaupel, Ann Christin; Schlotter, Magdalena; Wu, Yonghe; Kneisel, Niclas; Seiffert, Martina; Hell, Rüdiger; Hiller, Karsten; Lichter, Peter; Radlwimmer, Bernhard

doi:10.15252/embr.201744154

Cited by 71 publications

(92 citation statements)

References 47 publications

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“…mTOR plays a key role in macrophages, providing a link between amino-acid availability, coupling this to growth, proliferation, and protein synthesis. Branched-chain ketoacids (BCKAs), a product of BCAA catabolism, has been shown to directly regulate macrophage function by reducing the phagocytic ability of TAMs ( 140 ). Further evidence for a role for BCAA comes from data demonstrating that BCAT1, the enzyme responsible for the first step in BCAA catabolism, regulates the metabolic reprogramming in human macrophages.…”

Section: Amino-acid Metabolismmentioning

confidence: 99%

Metabolic Modulation in Macrophage Effector Function

2018

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Traditionally cellular respiration or metabolism has been viewed as catabolic and anabolic pathways generating energy and biosynthetic precursors required for growth and general cellular maintenance. However, growing literature provides evidence of a much broader role for metabolic reactions and processes in controlling immunological effector functions. Much of this research into immunometabolism has focused on macrophages, cells that are central in pro- as well as anti-inflammatory responses—responses that in turn are a direct result of metabolic reprogramming. As we learn more about the precise role of metabolic pathways and pathway intermediates in immune function, a novel opportunity to target immunometabolism therapeutically has emerged. Here, we review the current understanding of the regulation of macrophage function through metabolic remodeling.

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Section: Amino-acid Metabolismmentioning

confidence: 99%

Metabolic Modulation in Macrophage Effector Function

2018

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“…Administration of the selective BCAT1 inhibitor ERG240 (a leucine analogue) to mice resulted in reduced severity of immune-mediated inflammation in vivo, indicating that BCAT1 inhibition could also be of potential therapeutic interest [ 118 ]. A second study on the role of BCAT1 in macrophages found that glioblastoma cells secrete BCKAs via the monocarboxylate carrier 1 (MCT1) and that these BCKAs are taken up by tumor-associated macrophages [ 119 ]. BCKA uptake is potentially mediated by the MCT1 and/or MCT4 carriers, both of which are expressed in macrophages.…”

Section: Branched-chain Aminotransferasementioning

confidence: 99%

Biochemistry of proinflammatory macrophage activation

Nonnenmacher

Hiller

2018

Cell. Mol. Life Sci.

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In the last decade, metabolism has been recognized as a major determinant of immunological processes. During an inflammatory response, macrophages undergo striking changes in their metabolism. This metabolic reprogramming is governed by a complex interplay between metabolic enzymes and metabolites of different pathways and represents the basis for proper macrophage function. It is now evident that these changes go far beyond the well-known Warburg effect and the perturbation of metabolic targets is being investigated as a means to treat infections and auto-immune diseases. In the present review, we will aim to provide an overview of the metabolic responses during proinflammatory macrophage activation and show how these changes modulate the immune response.

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“…Through the overexpression of branched chain amino acid transaminase 1 (BCAT1), glioma tumors excrete elevated levels of branched-chain ketoacids (BCKA) through MCT1. Which influx into TAMs and blunt their phagocytic activity ( 61 ). GBM TAMs were also shown to drive T cell dysfunction through elevated expression of the ectonucleosidase CD39 that, together with CD73, induces the production of the immunosuppressive metabolite adenosine ( 48 ).…”

Section: Metabolic Remodeling Of the Gbm Tumor Microenvironmentmentioning

confidence: 99%

Glioblastoma Immune Landscape and the Potential of New Immunotherapies

et al. 2020

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Glioblastoma (GBM) are the most common tumors of the central nervous system and among the deadliest cancers in adults. GBM overall survival has not improved over the last decade despite optimization of therapeutic standard-of-care. While immune checkpoint inhibitors (ICI) have revolutionized cancer care, they unfortunately have little therapeutic success in GBM. Here, we elaborate on normal brain and GBM-associated immune landscapes. We describe the role of microglia and tumor-associated macrophages (TAMs) in immune suppression and highlight the impact of energy metabolism in immune evasion. We also describe the challenges and opportunities of immunotherapies in GBM and discuss new avenues based on harnessing the anti-tumor activity of myeloid cells, vaccines, chimeric antigen receptors (CAR)-T and -NK cells, oncolytic viruses, nanocarriers, and combination therapies.

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Branched‐chain ketoacids secreted by glioblastoma cells via MCT 1 modulate macrophage phenotype

Cited by 71 publications

References 47 publications

Metabolic Modulation in Macrophage Effector Function

Metabolic Modulation in Macrophage Effector Function

Biochemistry of proinflammatory macrophage activation

Glioblastoma Immune Landscape and the Potential of New Immunotherapies

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