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Higher milk intake is associated with lower type 2 diabetes risk in lactase non-persistent individuals, partly through gut microbiome and blood metabolites.

Electron transfer flavoprotein dehydrogenase (ETFDH), respiratory chain complex III and the coenzyme Q10 synthesis regulator COQ2 interact as a protein complex that is disrupted in ETFDH deficiency, with potential implications for disease therapy.

During ageing, S-adenosylmethionine (SAM) is depleted from muscle stem cells (MuSCs) because of increased synthesis of the polyamine spermidine, leading to loss of heterochromatin and dysfunction of MuSCs. SAM restoration rescues the mouse MuSC defects.

Electron-transfer flavoprotein dehydrogenase (ETFDH) is shown to associate with mitochondrial complex III (CIII) physically and functionally, thereby promoting electron channelling to increase CIII efficiency.

Following one’s passion and curiosity are major drivers for a successful career in science, and finding the right mentors and collaborators is essential in this journey. In the thirteenth part of our Career pathways series, Alexis Jourdain and Feilong Wang share their experience.

Yu et al. show that inhibition of p21-activated kinase 4 (PAK4) ameliorates insulin resistance and enhances lipolysis by reducing phosphorylation of fatty acid-binding protein 4 (FABP4) and hormone-sensitive lipase (HSL). In parallel, PAK4 inhibition increases energy expenditure.

Bone resorption by osteoclasts requires tight control, as overactivation reduces bone mass and strength. Stegen et al. demonstrate that α-ketoglutarate produced during serine synthesis promotes osteoclast development via metabolic–epigenetic coupling and could be a therapeutic target.

Stegen et al. show that serine metabolism is transiently upregulated during osteoclastogenesis, and it drives osteoclast differentiation via epigenetic regulation of NFATc1 expression.

Using several orthogonal loss-of-function approaches, Huang et al. provide a detailed assessment of the quantitative contribution of δ cell paracrine signalling to the glycaemic set point in mice.

Zhang et al. show that in mice, an adipocyte population with high expression of the transcription factor JunB in the brown adipose tissue shows reduced thermogenic capacity. Depletion of JunB increases the fraction of adipocytes with high thermogenic capacity and ameliorates diet-induced insulin resistance.

Systematic evaluation of glucose control, body mass index, blood pressure, insulin secretion and insulin resistance is leveraged to identify patients who are likely to receive the greatest metabolic benefit from common antidiabetic drugs.

Murine blastocysts and embryonic stem cells mimicking the pre-implantation epiblast import extracellular protein through macropinocytosis and engage a robust lysosomal digestive programme to meet their nutrient demands. We found that as development proceeds, post-implantation epiblast-like cells downregulate protein digestion, increase expression of amino acid transporters and become dependent on soluble amino acids.

Todorova et al. characterize the strategies through which embryos secure amino acid supply during the early phases of development. Their findings show that, in the preimplantation phase, embryos uptake whole proteins through macropinocytosis and, over time, they shift towards soluble amino acid uptake. This strategy may contribute to protecting embryos from nutrient fluctuations.

In nature, organisms constantly face a variety of stresses in the environment. An organism’s ability to resolve a stressful state is crucial in maintaining homeostasis. In this issue of Nature Metabolism, Wei et al. report that redox-dependent caspase cleavage of fatty acid synthase triggers a global cue for stress resolution in Caenorhabditis elegans.

Calcium sensing receptor (CaSR) and peptide transporter 1 (PepT1) have been implicated in protein sensing in the gut, although the mechanisms are poorly understood. We find that, in the small intestine, CasR and PepT1 are necessary for protein sensing to regulate gut peptide release, feeding and glucose tolerance in rats in vivo.

Wei et al. show that proteolytic cleavage of fatty acid synthase (FASN) upon stress contributes to stress resolution. This role in stress resolution of the resulting C-terminal fragment of FASN is independent of its canonical function in fatty acid synthesis.

Li, Barros et al. decipher how distinct mechanisms of protein sensing in the upper small intestine and ileum regulate food intake, glucose homeostasis and gut hormone release in male rats.

A study in Nature Metabolism shows that the thyroid gland contains two subtypes of thyrocytes (the cells that produce thyroid hormones) and reveals a role for Notch signalling in regulating thyrocyte homeostasis and activity, as reduced Notch activity results in hypothyroidism.

Mosteiro et al. show that inhibition of Notch, a signaling pathway frequently associated with cell-fate decisions during development, impairs thyrocyte homeostasis in an active subset of thyrocytes in adult mice through mitochondrial dysfunction and decreased ROS, thereby causing hypothyroidism.