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| Open AccessA distinct Acyl-CoA binding protein (ACBP6) shapes tissue plasticity during nutrient adaptation in Drosophila
Plasticity in tissue function and morphology is shaped by adaptive responses to nutrient changes. Here, the authors found that a putative calibration of acyl-CoA and acetyl-CoA metabolism through ACBP6 is crucial for Drosophila intestine’s proliferative homeostasis in response to nutrient changes.
- Xiaotong Li
- & Jason Karpac
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Article
| Open AccessFNIP1 abrogation promotes functional revascularization of ischemic skeletal muscle by driving macrophage recruitment
Functional revascularization is vital to the recovery of blood flow. Here, Sun et al. show that myofiber FNIP1 is a negative regulator of muscle functional angiogenesis and revascularization after ischemia by controlling macrophage recruitment.
- Zongchao Sun
- , Likun Yang
- & Zhenji Gan
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Article
| Open AccessTranscriptional repression of beige fat innervation via a YAP/TAZ-S100B axis
Sympathetic innervation is essential for the development of functional beige fat that maintains metabolic homeostasis. Qiu and colleagues discover that YAP/TAZ can act as a brake on the beige fat innervation by blocking PRDM16-C/EBPβ-mediated S100b expression.
- Xun Huang
- , Xinmeng Li
- & Yifu Qiu
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Article
| Open AccessSpliceosome component Usp39 contributes to hepatic lipid homeostasis through the regulation of autophagy
Non-alcoholic fatty liver disease affects 25% of people worldwide. Here the authors report that spliceosome component Usp39 deletion in mice leads to spontaneous steatosis and impaired autophagy through the regulation of alternative splicing.
- Donghai Cui
- , Zixiang Wang
- & Zhaojian Liu
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Article
| Open AccessHepatocyte FBXW7-dependent activity of nutrient-sensing nuclear receptors controls systemic energy homeostasis and NASH progression in male mice
NASH, nonalcoholic steatohepatitis, a severe fatty liver disease with no cure, can manifest through loss-of-function of the E3 ligase FBXW7. Here, the authors show an underpinning of dysregulated ERRα and PPARα nuclear receptor activity, thus highlighting potential new avenues for antiNASH therapy.
- Hui Xia
- , Catherine R. Dufour
- & Vincent Giguère
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Article
| Open AccessGenome-wide association analysis of plasma lipidome identifies 495 genetic associations
The human plasma lipidome captures risk for cardiometabolic diseases. Here, the authors perform univariate and multivariate genome-wide analyses of 179 lipid species in 7174 Finnish individuals, revealing genetic links between diseases and lipid species beyond the standard lipids HDL-Cholesterol, LDL-Cholesterol, Triglycerides, and total Cholesterol.
- Linda Ottensmann
- , Rubina Tabassum
- & Matti Pirinen
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Article
| Open AccessMaternal thyroid hormone receptor β activation in mice sparks brown fat thermogenesis in the offspring
Maternal thyroid hormone is important for fetal development. Here, the authors show that hyperthyroidism during pregnancy can program the offsprings’ glucose sensitivity and response to cold via activation of maternal thyroid hormone receptor β in a sex dependent manner
- Rebecca Oelkrug
- , Lisbeth Harder
- & Jens Mittag
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Article
| Open AccessLipocalin 2 regulates mitochondrial phospholipidome remodeling, dynamics, and function in brown adipose tissue in male mice
Mitochondrial function is essential for energy metabolism in brown adipocytes. Here, the authors show that LCN2 plays a critical role as a phosphatidic acid binding protein in phospholipid acyl chain remodeling and mitochondrial bioenergetics, influencing signaling pathway activation.
- Hongming Su
- , Hong Guo
- & Xiaoli Chen
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Article
| Open AccessEndogenous renal adiponectin drives gluconeogenesis through enhancing pyruvate and fatty acid utilization
Adiponectin is a widely studied secretory protein produced by adipocytes. Here, the authors show that adiponectin is also expressed in the kidney where it is a major driver of fatty acid oxidation, from which the kidney derives energy for gluconeogenesis.
- Toshiharu Onodera
- , May-Yun Wang
- & Philipp E. Scherer
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Article
| Open AccessPPTC7 maintains mitochondrial protein content by suppressing receptor-mediated mitophagy
The mitochondrial phosphatase PPTC7 has previously been linked to the maintenance of mitochondrial content, but the mechanisms underlying this phenotype remain unclear. Here, the authors demonstrate that loss of Pptc7 results in metabolic defects and further suggest that PPTC7 is a regulator of receptor-mediated mitophagy.
- Natalie M. Niemi
- , Lia R. Serrano
- & David J. Pagliarini
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Article
| Open AccessPalmitoylation-driven PHF2 ubiquitination remodels lipid metabolism through the SREBP1c axis in hepatocellular carcinoma
Palmitoylation of proteins can have pathophysiological implications. Here, the authors show that palmitoylation enhances the proteasomal degradation of the histone demethylase PHF2, leading to increased lipogenesis and cell proliferation in an SREBP1c dependent manner and further show that PHF2 acts as an E3 ligase of SREBP1c, suppressing the growth of liver cancer cells.
- Do-Won Jeong
- , Jong-Wan Park
- & Yang-Sook Chun
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Article
| Open AccessFAM210A is essential for cold-induced mitochondrial remodeling in brown adipocytes
Mammalians rely on brown adipocytes to generate heat under cold exposure, this thermogenic function requires dynamic remodeling of the mitochondria. Here the authors identify a protein called FAM210A as a key regulator of cold-induced mitochondrial remodeling in brown adipocytes.
- Jiamin Qiu
- , Feng Yue
- & Shihuan Kuang
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Article
| Open AccessComprehensive assessment of physiological responses in women during the ESA dry immersion VIVALDI microgravity simulation
To consider the impact of sex on adaptation to space, the European Space Agency initiated VIVALDI dry immersion microgravity simulation in female subjects. Here, the authors show marked deconditioning with 5-day exposure, and propose comprehensive multi-system physiological assessment in 18 healthy women.
- Adrien Robin
- , Angelique Van Ombergen
- & Nastassia Navasiolava
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Article
| Open AccessMulti-omics profiling reveals rhythmic liver function shaped by meal timing
Post-translational modifications (PTMs) couple feed-fast cycles to circadian clocks. Here, the authors systematically profile daily rhythms of the proteome, 4 PTMs and lipidome in mouse livers under TRF, providing a comprehensive resource detailing rhythmic liver functions shaped by meal timing.
- Rongfeng Huang
- , Jianghui Chen
- & Min-Dian Li
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Article
| Open AccessTMEM135 links peroxisomes to the regulation of brown fat mitochondrial fission and energy homeostasis
Mitochondrial dynamics affect the thermogenic capacity of brown adipose tissue. Here, the authors show that TMEM135 regulates thermogenesis and energy homeostasis by mediating mitochondrial fission in brown adipocytes.
- Donghua Hu
- , Min Tan
- & Irfan J. Lodhi
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Article
| Open AccessBAP1 promotes osteoclast function by metabolic reprogramming
Here, the authors demonstrate that BRCA1-associated protein 1 (Bap1) regulates osteoclast’s capacity to degrade bone. Reprogramming of epigenetic-metabolic axis upon Bap1 loss inhibits bone degradation, preserving bone mass, making it a potential therapeutic target for osteoporosis.
- Nidhi Rohatgi
- , Wei Zou
- & Steven L. Teitelbaum
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Article
| Open AccessDeficiency of endothelial sirtuin1 in mice stimulates skeletal muscle insulin sensitivity by modifying the secretome
Endothelial Sirtuin1 downregulation in metabolic disorders causes vascular dysfunction and inflammation. Here, the authors show that deficiency of endothelial Sirtuin1, while having deleterious effects on the vasculature, stimulates skeletal muscle insulin sensitivity and improves glucose disposal.
- Qiuxia Li
- , Quanjiang Zhang
- & Kaikobad Irani
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Article
| Open AccessPeroxisomal compartmentalization of amino acid biosynthesis reactions imposes an upper limit on compartment size
Compartmentalization is thought to modulate metabolic flux by spatially segregating enzymes and their coupled reactants. Here, the authors show that peroxisomal compartmentalization of amino acid synthesis imposes an upper limit on compartment size.
- Ying Gu
- , Sara Alam
- & Snezhana Oliferenko
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Article
| Open AccessCold-activated brown fat-derived extracellular vesicle-miR-378a-3p stimulates hepatic gluconeogenesis in male mice
During cold exposure, activated brown adipose tissue takes up a large amount of circulating glucose to fuel thermogenesis. Here, the authors show that cold stress enhances the packaging of miR-378a-3p into BAT-derived EVs, which are delivered to the liver and consequently stimulates gluconeogenesis.
- Jinhong Xu
- , Le Cui
- & Xiaohong Jiang
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Article
| Open AccessMKP1 promotes nonalcoholic steatohepatitis by suppressing AMPK activity through LKB1 nuclear retention
Nonalcoholic steatohepatitis (NASH) is a devastating type of liver disease that is caused by hepatocellular death which triggers liver inflammation and fibrosis. Here, the authors show that MAP kinase phosphatase-1 promotes hepatocellular death thus, driving the development of NASH.
- Bin Qiu
- , Ahmed Lawan
- & Anton M. Bennett
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Article
| Open AccessThe interplay between dietary fatty acids and gut microbiota influences host metabolism and hepatic steatosis
Here, Schoeler et al. investigate how interaction between dietary lipids and the gut microbiota affect hepatic steatosis and host metabolism, showing that dietary lipids impact the gut microbiota composition independent on fiber intake in humans and mice.
- Marc Schoeler
- , Sandrine Ellero-Simatos
- & Robert Caesar
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Article
| Open AccessHepatic SREBP signaling requires SPRING to govern systemic lipid metabolism in mice and humans
Hendrix et al show that absence of hepatic Spring dramatically lowers levels of lipids in the liver and plasma in mice, and protects from development of diet-induced steatosis. In line, genetic variation in SPRING is associated with lipid levels in humans.
- Sebastian Hendrix
- , Jenina Kingma
- & Noam Zelcer
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Article
| Open AccessImpaired Plakophilin-2 in obesity breaks cell cycle dynamics to breed adipocyte senescence
Plakophilin-2 is a key component of desmosomes required to maintain cardiac tissue cohesion. Here the authors uncover a previously unknown defect in cell cycle and adipocyte senescence due to impaired Plakophilin-2 in subjects with obesity.
- Aina Lluch
- , Jessica Latorre
- & Francisco J. Ortega
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Article
| Open AccessEndothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle
Estrogen has anti-diabetic effects via estrogen receptor alpha (ERα). Here, authors show that via coupled nuclear and non-nuclear actions, ERα in endothelial cells promotes insulin transport to skeletal muscle to foster normal glucose homeostasis.
- Anastasia Sacharidou
- , Ken Chambliss
- & Philip W. Shaul
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Article
| Open AccessREPTOR and CREBRF encode key regulators of muscle energy metabolism
Obesity and cancer-induced cachexia are linked to an impairment in the ability of muscle to use glucose or lipids interchangeably as energy substrates. Here, the authors propose that Drosophila REPTOR and its mammalian ortholog CREBRF act as key transcriptional regulators of fuel choice in muscle.
- Pedro Saavedra
- , Phillip A. Dumesic
- & Norbert Perrimon
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Article
| Open AccessBone marrow adiposity modulation after long duration spaceflight in astronauts
Bone marrow adiposity is linked to disease, and it is unknown how it is modulated during space travel. Here, the authors show that astronauts returning from ISS missions had decreased marrow fat and increased hematopoiesis and bone formation, suggesting that adipose reserves in the bone marrow might be used as an energy source to counteract anemia and bone loss associated with space flight.
- Tammy Liu
- , Gerd Melkus
- & Guy Trudel
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Article
| Open AccessDetermining the metabolic effects of dietary fat, sugars and fat-sugar interaction using nutritional geometry in a dietary challenge study with male mice
The role of dietary fat vs sugar in the global obesity epidemic remains controversial. Using Nutritional Geometry methodology, the authors show that, in mice, both fats and sugars could lead to adverse metabolic outcomes, depending on the dietary context.
- Jibran A. Wali
- , Duan Ni
- & Stephen J. Simpson
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Article
| Open AccessThe muscle-enriched myokine Musclin impairs beige fat thermogenesis and systemic energy homeostasis via Tfr1/PKA signaling in male mice
Interorgan communications play key roles in the regulation of whole-body energy metabolism. Here, the authors report the myokine Musclin as a negative regulator of beige adipose thermogenesis and systemic energy homeostasis through Tfr1/PKA signalling mediated muscle fat crosstalk.
- Lu Jin
- , Shuang Han
- & Zhuo-Xian Meng
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Article
| Open AccessRestoration of PITPNA in Type 2 diabetic human islets reverses pancreatic beta-cell dysfunction
Type 2 diabetes (T2D) is characterized by pancreatic beta-cell failure. Here, the authors show restoration of Phosphatidylinositol transfer protein alpha (PITPNA), a mediator of PtdIns-4-phosphate synthesis in the trans-Golgi network, in human T2D islets reverses impaired insulin granule maturation, exocytosis, and ER stress.
- Yu-Te Yeh
- , Chandan Sona
- & Matthew N. Poy
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Article
| Open AccessLinker histone variant H1.2 is a brake on white adipose tissue browning
Thermogenic adipocytes are ideal targets to counteract obesity and associated metabolic disorders. Here, the authors show a regulatory role of linker histone variant H1.2 on iWAT browning and thermogenesis through an H1.2-IL10rα axis.
- Yangmian Yuan
- , Yu Fan
- & Ling Zheng
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Article
| Open AccessChronic UCN2 treatment desensitizes CRHR2 and improves insulin sensitivity
UCN2 acts as a ligand for the GPCR CRHR2 and there have been conflicting reports on whether UCN2 treatment improves or worsens glucose tolerance. Here, the authors show that acute UCN2 recruits Gs and decreases glucose uptake, while chronic treatment desensitizes CRHR2 and improves glucose uptake.
- Stephen E. Flaherty III
- , Olivier Bezy
- & Zhidan Wu
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Article
| Open AccessModeling and therapeutic targeting of inflammation-induced hepatic insulin resistance using human iPSC-derived hepatocytes and macrophages
Hepatic insulin resistance is an established driver of type 2 diabetes but is difficult to model in vitro. Here researchers use co-culture of hepatocytes and macrophages derived from the same human iPSC line to show how inflammation disrupts insulin-mediated regulation of hepatic glucose metabolism and identify targets for therapy of hepatic insulin resistance.
- Marko Groeger
- , Koji Matsuo
- & Holger Willenbring
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Article
| Open AccessMitochondrial matrix protein LETMD1 maintains thermogenic capacity of brown adipose tissue in male mice
Brown adipose tissue (BAT) has abundant mitochondria with the unique capability of generating heat via uncoupled respiration. Here, Park et al. identify LETMD1 as a mitochondrial matrix protein enriched in brown adipose tissue (BAT) and reveal a crucial role for it in maintaining brown adipocyte mitochondrial OXPHOS and thermogenesis upon cold stimulus.
- Anna Park
- , Kwang-eun Kim
- & Jae Myoung Suh
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Article
| Open AccessMitochondrial aconitase suppresses immunity by modulating oxaloacetate and the mitochondrial unfolded protein response
Mitochondrial function has been linked to immunity but the role of the Krebs’s cycle in regards the immune response is not well characterised. Here the authors show that Krebs’s cycle enzyme ACO2 suppresses immunity via modulation of oxaloacetate and the mitochondrial unfolded protein response.
- Eunah Kim
- , Andrea Annibal
- & Seung-Jae V. Lee
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Article
| Open AccessGut microbiota Turicibacter strains differentially modify bile acids and host lipids
Mechanisms by which the gut microbiota affects its host are a main research focus. Here, Lynch et al. characterize bile acid modifications performed by a prevalent bacterial taxon from the gut, the genus Turicibacter, and found they broadly altered host lipids, connecting Turicibacter functions and host physiology.
- Jonathan B. Lynch
- , Erika L. Gonzalez
- & Elaine Y. Hsiao
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Article
| Open AccessExcessive copper impairs intrahepatocyte trafficking and secretion of selenoprotein P
Selenium and copper are two essential trace elements whose homeostasis and distribution is regulated by hepatic release of selenoprotein P (SELENOP) and ceruloplasmin, respectively. Here, the authors show that excessive copper results in hepatic SELENOP accumulation in the trans Golgi which might limit the selenium transport to peripheral organs.
- Maria Schwarz
- , Caroline E. Meyer
- & Anna P. Kipp
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Article
| Open AccessEmbryonic vitamin D deficiency programs hematopoietic stem cells to induce type 2 diabetes
Environmental conditions during pregnancy contribute to offspring metabolic disease. Here, the authors show that immune cells reprogrammed in utero by maternal vitamin D deficiency increase lifetime diabetes risk in the offspring and are sufficient to transplant diabetes.
- Jisu Oh
- , Amy E. Riek
- & Carlos Bernal-Mizrachi
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Article
| Open AccessA multicentric consortium study demonstrates that dimethylarginine dimethylaminohydrolase 2 is not a dimethylarginine dimethylaminohydrolase
While dimethylarginine dimethylaminohydrolase 1 (DDAH1) is known to metabolize the endogenous inhibitor of nitric oxide synthases, asymmetric dimethylarginine (ADMA), the function of DDAH2 has remained controversial. Here, the authors present several lines of evidence that DDAH2 does not hydrolyze ADMA.
- Vinitha N. Ragavan
- , Pramod C. Nair
- & Roman N. Rodionov
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Article
| Open AccessStructural mechanism of intracellular autoregulation of zinc uptake in ZIP transporters
Zinc uptake and regulation are vital in all life forms. Here, authors describe a dimer of a ZIP-family zinc transporter in an inward-facing, inhibited conformation. A built-in zinc sensor is proposed to sense the intracellular zinc content to autoregulate zinc uptake across membranes.
- Changxu Pang
- , Jin Chai
- & Qun Liu
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Article
| Open AccessM1BP is an essential transcriptional activator of oxidative metabolism during Drosophila development
The transcriptional regulation of mitochondrial oxidative phosphorylation gene expression is poorly understood. Using the developing Drosophila flight muscle, the authors identify the transcription factor M1BP as a new major regulator of this process.
- Gabriela Poliacikova
- , Marine Barthez
- & Andrew J. Saurin
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Article
| Open AccessTranscriptional coactivation by EHMT2 restricts glucocorticoid-induced insulin resistance in a study with male mice
Glucocorticoids are known to induce insulin resistance via transcriptional activation of genes related to liver gluconeogenesis and insulin resistance. Here the authors report that in male mice treated with glucocorticoids, the transcriptional co-regulator EHMT2 is involved in the induction of Irs2 (a gene promoting insulin action) to restrict the extent of insulin resistance in the liver.
- Rebecca A. Lee
- , Maggie Chang
- & Jen-Chywan Wang
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Article
| Open AccessUsing mass spectrometry imaging to map fluxes quantitatively in the tumor ecosystem
Isotopologue spectral analysis was originally designed to assess metabolic fluxes from bulk samples. Here, the authors adapted this approach to infer fluxes from discrete regions in tissue by using mass spectrometry imaging, showing increased fatty acid synthesis flux in brain tumors of mice.
- Michaela Schwaiger-Haber
- , Ethan Stancliffe
- & Gary J. Patti
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Article
| Open AccessEndothelial cell-derived stem cell factor promotes lipid accumulation through c-Kit-mediated increase of lipogenic enzymes in brown adipocytes
Although it is known that cellular crosstalk between endothelial cells and brown adipocytes is essential, it remains poorly understood. Here the authors show that SCF derived from the surrounding endothelial cells promotes lipid accumulation in BAT by enhancing lipogenic enzymes in through c-Kit activation.
- Hyuek Jong Lee
- , Jueun Lee
- & Gou Young Koh
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Article
| Open AccessGenetically prolonged beige fat in male mice confers long-lasting metabolic health
Beige adipocytes quickly transition into white adipocytes upon the removal of stimuli, limiting their therapeutic potential for chronic metabolic diseases. In this study, the authors show that inhibiting Cdkn2a-Becn1 mediated autophagy can maintain beige adipocytes and provide long term metabolic health benefits in mice.
- Ruifan Wu
- , Jooman Park
- & Yuwei Jiang
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Article
| Open AccessSpectro-spatial features in distributed human intracranial activity proactively encode peripheral metabolic activity
How human brain activity relates to peripheral metabolism is not known. Here, the authors find that intracranial activity is strongly coupled to peripheral glucose variations across multiple brain regions and is sufficient for decoding of glucose levels.
- Yuhao Huang
- , Jeffrey B. Wang
- & Casey H. Halpern
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Article
| Open AccessMale reproductive traits are differentially affected by dietary macronutrient balance but unrelated to adiposity
We know that nutrition and obesity can impact male fertility, but specific dietary guidelines for men trying to conceive don’t exist. Here the authors show that diet composition is likely more important than body fat in influencing reproductive traits and each macronutrient has different impacts.
- A. J. Crean
- , S. Afrin
- & T. Pini
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Article
| Open AccessIdentification of biomarkers for glycaemic deterioration in type 2 diabetes
There is an urgent need for biomarkers for type 2 diabetes progression that provide a deeper understanding of the disease process. Here, the authors identify biomarkers in three molecular classes, replicate them in other cohorts and explore top protein biomarkers in detail in functional studies.
- Roderick C. Slieker
- , Louise A. Donnelly
- & Guy A. Rutter
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Article
| Open AccessReduced hepatic bradykinin degradation accounts for cold-induced BAT thermogenesis and WAT browning in male mice
Adipose tissue thermogenesis plays a role in appropriate response to cold exposure through incompletely understood mechanisms. Here the authors report that acute cold exposure increases the serum levels of bradykinin, which induces brown adipose tissue thermogenesis and white adipose tissue browning in male mice.
- Fei Xiao
- , Haizhou Jiang
- & Feifan Guo
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Article
| Open AccessMitochondrial complex III deficiency drives c-MYC overexpression and illicit cell cycle entry leading to senescence and segmental progeria
Mitochondria modulate both normal and premature aging, yet if primary oxidative phosphorylation deficiency can cause progeria has been unclear. Here, the authors show that mice with severe isolated respiratory complex III deficiency display cellular senescence and juvenile-onset segmental progeria.
- Janne Purhonen
- , Rishi Banerjee
- & Jukka Kallijärvi