Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain
the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in
Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles
and JavaScript.
Brown adipocytes are increasingly recognized as a promising therapeutic target for metabolic disorders. Research published in Advanced Science now presents evidence that these cells might also be useful for leukaemia therapy. The study demonstrates that activation of brown adipocytes deprives leukaemia cells of glucose, which reveals a potential new avenue for leukaemia treatment.
Exploring the glymphatic system across neurological and metabolic diseases might help us to better define the link between obesity and neurological disorders. Recent studies have identified metabolic dysfunction as a risk factor for cognitive decline and neurological disorders through disruption of the glymphatic system.
Pharmacological therapies with incretin-based ‘multi-agonists’ are rapidly advancing the therapeutic landscape for obesity. The loss of skeletal muscle mass with these potent weight-loss agents is emerging as a possible side effect. It is therefore important to determine whether multi-agonists increase the risk of sarcopenia in susceptible patients.
Mechanistic and clinical data indicate that DNA damage contributes to the pathogenesis and progression of diabetic complications. Thus, DNA damage and its signalling are entering the field of diabetology.
Type 1 diabetes mellitus affects 8.5 million people globally and is characterized by autoimmune destruction of pancreatic β cells. This Review discusses cell replacement therapies for T1DM and outlines the challenges and future directions
Gene therapy holds tremendous promise for treating a wide range of hereditary and acquired diseases by delivering exogenous therapeutic nucleotide sequences into specific cells or tissues. Recent advances support the notion that gene therapy could offer a long-term cure for diabetes mellitus, something that current conventional pharmacotherapies cannot achieve.
Two recent studies have unravelled novel modes of glucose-dependent insulinotropic polypeptide receptor (GIPR) signalling regulation. Kizilkaya et al. characterized the effect of changes in β-arrestin 2 coupling with naturally occurring GIPR coding variants, whereas Regmi et al. investigated GIPR expression profiles and functional regulation in adipocytes.
Thyroid nodules are common; the majority are benign and asymptomatic, and therefore the main aim of the diagnostic process is to determine their clinical significance without leading to overdiagnosis and, consequently, overtreatment, as outlined in this article.
Phaeochromocytomas and paragangliomas (PPGL) are rare endocrine tumours that can affect paediatric patients as well as adults. In this first international Consensus Statement on PPGL in paediatric patients, the authors discuss the diagnosis, management and long-term surveillance of these tumours in children and adolescents.
Medically not yet explained symptoms (MNYES) are an important consideration in patients treated for hypothyroidism who experience persistent symptoms. This Perspective brings attention to the issue of MNYES in hypothyroidism and considers effective management.
Climate change is causing human populations to be exposed to increasingly higher ambient temperatures and more frequent and extreme heatwaves than previously observed. This Perspective considers the available evidence on the endocrine effects of heat exposure, and maps out a path for future research into this field.
Nutritional imbalances (such as overnutrition in obesity) alter many properties of the neurovascular system, including neurovascular coupling and blood–brain barrier permeability. This Perspective examines how lifestyle interventions targeting weight loss, including intermittent fasting, caloric restriction and physical activity, affect the neurovascular system and neuronal networks.