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Optimization of energy and carbon–nitrogen allocation maximizes the proliferation and functionality of chimeric antigen receptor (CAR)-T cells. Lakhani et al. report that tonic signalling elements (scFvs) affect CAR-T cell metabolic fitness in an antigen-independent manner. A modest carbon–nitrogen emission (overflow) and resilient metabolic phenotype (compatibility) are associated with effective CAR-T cell therapy.
In this issue of Nature Metabolism, the research team of Mitchell Lazar reveals unexpected consequences of double loss of the coregulators NCOR1 and NCOR2 (NCOR1/2) in hepatocytes of adult mice, which affects chromatin functioning and glucocorticoid receptor (GR)-mediated gene transcription.
A new engineering strategy for improving the biosynthesis of secondary metabolites in Streptomyces has been developed through the analysis of genes co-evolved with biosynthetic gene clusters. This strategy has been verified in 11 Streptomyces strains to enhance production of 16,385 metabolites, showing potential applications in drug discovery and industrial production.
Thiazolidinediones (TZDs) are potent insulin-sensitizing drugs, but their use is accompanied by adverse side-effects. Rohm et al. now report that TZD-stimulated macrophages release miR-690-containing vesicles that improve insulin sensitization and bypass unwanted side-effects.
Maternal circadian rhythms influence the health of infants. Cui, Xu and colleagues find that disruption of maternal rhythms impairs neonatal immune cell function and aggravates neonatal inflammatory disorders, which can be rescued by the administration of docosahexaenoic acid (a metabolite found in breast milk).
A new sensor that detects optoacoustic signals generated by mid-infrared light enables measurement of glucose concentration from intracutaneous tissue rich in blood. This technology does not rely on glucose measurements in interstitial fluid or blood sampling and might yield the next generation of non-invasive glucose-sensing devices for improved diabetes management.
AMPK directly phosphorylates the mitochondrial protein SYNJ2BP to facilitate its interaction with the RNA-binding protein SYNJ2a, which transports Pink1 mRNA into neurites. AMPK inhibition downstream of insulin signalling untethers Pink1 mRNA from neuronal mitochondria and favours PINK1-dependent mitophagy in neurons. ApoE4-induced insulin receptor internalization reverses the process by stabilizing Pink1 mRNA binding to neuronal mitochondria.
The mechanisms that drive cancer cachexia are unclear. Adipocyte activation of GPR81 by high levels of lactate is now shown to drive adipose tissue browning, thermogenesis and a loss of body weight in mouse models of cancer.
The mechanism by which metformin affects food intake remains controversial. Now, two studies link metformin treatment with the induction of the appetite-suppressing metabolite N-lactoyl-phenylalanine, which is produced by the intestine.
Eating requires the sensing in the stomach of not only nutrients, but also volume. A study in Nature Metabolism shows that stretch activation of PIEZO1 on X/A-like cells of the stomach reduces ghrelin production and secretion, which consequently reduces food intake.
Sharma et al. review the regulation and biological functions of apparently ‘futile’ dynamic lipid cycle in regulating whole-body metabolic homeostasis.
A recent study in Nature Metabolism uncovers a mechanism for pain sensitization that involves a regulatory protein of glycogen metabolism in spinal astrocytes. Targeting this protein, or the lactate fluxes linked to glycogen breakdown, may provide novel opportunities for pain management.
In this study in humans, the authors describe distinct phases of adaptions in the plasma proteome to seven days without food, and identify limited associations of protein changes with weight loss.
In this issue of Nature Metabolism, it is shown that the abundance of Caenorhabditis elegans branched-chain aminotransferase-1 (BCAT-1) — which catalyses the first step of branched-chain amino acid (BCAA) catabolism — declines sharply in aged wild-type nematodes but not in slowly ageing mutants, and that stimulating BCAA catabolism extends reproductive longevity.
The microbiome is implicated in a study that involves the metabolism of dietary fibre into short-chain fatty acids, which provides a biochemical link to the poorly understood histone butyrylation.
Resistant starch is a prebiotic fibre that is fermented by the gut microbiota and leads to benefits for host physiology. A clinical trial in Nature Metabolism demonstrates weight loss when resistant starch was given to individuals with excess weight.
Individuals with osteoporosis have increased risk of Alzheimer’s disease or cognitive impairment during ageing. We elucidated a partial explanation for bone dysmetabolism’s association with such cognitive decline, by demonstrating how elevated sclerostin secretion from osteocytes in bone impaired cognitive function in aged mice and in an Alzheimer’s disease mouse model.