A Branched-Chain Amino Acid-Related Metabolic Signature that Differentiates Obese and Lean Humans and Contributes to Insulin Resistance

Newgard, Christopher B.; An, Jing; Bain, James R.; Muehlbauer, Michael J.; Stevens, Robert; Lien, Lillian F.; Haqq, Andrea M.; Shah, Svati H.; Arlotto, Michelle; Slentz, Cris A.; Rochon, James; Gallup, Dianne; Ilkayeva, Olga; Wenner, Brett R.; Yancy, William S.; Eisenson, Howard; Musante, Gerald; Surwit, Richard S.; Millington, David S.; Butler, Mark D.; Svetkey, Laura P.

doi:10.1016/j.cmet.2009.02.002

Cited by 2,624 publications

(2,497 citation statements)

References 61 publications

(79 reference statements)

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“…In addition, we studied 3 major groups along the HF spectrum; used large cohort sizes compared with previous HF metabolomic analyses; used a targeted metabolomic approach permitting metabolite quantitation; and used state‐of‐the‐art assessment and analytic techniques 18, 30, 31, 32…”

Section: Discussionmentioning

confidence: 99%

“…Three conventional metabolites (ketones, nonesterified fatty acids, and 3‐hydroxybutyrate) were assayed using a Beckman‐Coulter DXC600 analyzer and reagents from Wako Chemicals (Richmond, VA). More‐detailed methodology and coefficients of variation have been previously reported 32, 33, 34, 35, 36. Metabolite measurements were performed at the Sarah W. Stedman Nutrition Center and Metabolomics Core Laboratory at the Duke Molecular Physiology Institute.…”

Section: Methodsmentioning

confidence: 99%

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Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Hunter

Kelly

McGarrah

et al. 2016

JAHA

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BackgroundMetabolic impairment is an important contributor to heart failure (HF) pathogenesis and progression. Dysregulated metabolic pathways remain poorly characterized in patients with HF and preserved ejection fraction (HFpEF). We sought to determine metabolic abnormalities in HFpEF and identify pathways differentially altered in HFpEF versus HF with reduced ejection fraction (HFrEF).Methods and ResultsWe identified HFpEF cases, HFrEF controls, and no‐HF controls from the CATHGEN study of sequential patients undergoing cardiac catheterization. HFpEF cases (N=282) were defined by left ventricular ejection fraction (LVEF) ≥45%, diastolic dysfunction grade ≥1, and history of HF; HFrEF controls (N=279) were defined similarly, except for having LVEF <45%. No‐HF controls (N=191) had LVEF ≥45%, normal diastolic function, and no HF diagnosis. Targeted mass spectrometry and enzymatic assays were used to quantify 63 metabolites in fasting plasma. Principal components analysis reduced the 63 metabolites to uncorrelated factors, which were compared across groups using ANCOVA. In basic and fully adjusted models, long‐chain acylcarnitine factor levels differed significantly across groups (P<0.0001) and were greater in HFrEF than HFpEF (P=0.0004), both of which were greater than no‐HF controls. We confirmed these findings in sensitivity analyses using stricter inclusion criteria, alternative LVEF thresholds, and adjustment for insulin resistance.ConclusionsWe identified novel circulating metabolites reflecting impaired or dysregulated fatty acid oxidation that are independently associated with HF and differentially elevated in HFpEF and HFrEF. These results elucidate a specific metabolic pathway in HF and suggest a shared metabolic mechanism in HF along the LVEF spectrum.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Hunter

Kelly

McGarrah

et al. 2016

JAHA

Self Cite

186

125

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“…Plasma amino acids were measured by flow injection tandem mass spectrometry using stable isotope dilution techniques as described previously (Haqq et al., 2005; Laferrère et al., 2011; Lien et al., 2009; Newgard et al., 2009). Data were acquired using a Waters triple quadrupole detector equipped with Acquity UPLC system and controlled by the MassLynx 4.1 MS software platform (Waters, Milford, MA).…”

Section: Methodsmentioning

confidence: 99%

Perinatal western‐type diet and associated gestational weight gain alter postpartum maternal mood

et al. 2017

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IntroductionThe role of perinatal diet in postpartum maternal mood disorders, including depression and anxiety, remains unclear. We investigated whether perinatal consumption of a Western‐type diet (high in fat and branched‐chain amino acids [BCAA]) and associated gestational weight gain (GWG) cause serotonin dysregulation in the central nervous system (CNS), resulting in postpartum depression and anxiety (PPD/A).MethodsMouse dams were fed one of four diets (high‐fat/high BCAA, low‐fat/high BCAA, high‐fat, and low‐fat) prior to mating and throughout gestation and lactation. Postpartum behavioral assessments were conducted, and plasma and brain tissues assayed. To evaluate potential clinical utility, we conducted preliminary human studies using data from an extant sample of 17 primiparous women with high GWG, comparing across self‐reported postpartum mood symptoms using the Edinburgh Postnatal Depression Scale (EPDS) for percent GWG and plasma amino acid levels.ResultsMouse dams fed the high‐fat/high BCAA diet gained more weight per kcal consumed, and BCAA‐supplemented dams lost weight more slowly postpartum. Dams on BCAA‐supplemented diets exhibited increased PPD/A‐like behavior, decreased dopaminergic function, and decreased plasma tyrosine and histidine levels when assessed on postnatal day (P)8. Preliminary human data showed that GWG accounted for 29% of the variance in EPDS scores. Histidine was also lower in women with higher EPDS scores.ConclusionsThese findings highlight the role of perinatal diet and excess GWG in the development of postpartum mood disorders.

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“…Additionally, a primary hallmark of calorie restriction (CR) in rodents, which leads to inhibition of the mTORC1 pathway, is a dramatic reduction in age-associated cancer incidence and growth rate (Spindler, 2005), implying that enhanced mTOR signalling plays a central role in cancer progression. In rats, the mTOR pathway has also been implicated in both Type 1 and Type 2 diabetes, with chronic activity of mTORC1 contributing to obesity and insulin insensitivity (Newgard et al, 2009). Because reduced mTOR signalling in model organisms extends lifespan and is associated with better metabolic health, we postulated that a similar reduction in this signalling pathway may also contribute to longevity and healthy aging in humans.…”

Section: Introductionmentioning

confidence: 99%

Gene expression analysis of mTOR pathway: association with human longevity

et al. 2012

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SummarymTOR signalling is implicated in the development of disease and in lifespan extension in model organisms. This pathway has been associated with human diseases such as diabetes and cancer, but has not been investigated for its impact on longevity per se. Here, we investigated whether transcriptional variation within the mTOR pathway is associated with human longevity using whole‐blood samples from the Leiden Longevity Study. This is a unique cohort of Dutch families with extended survival across generations, decreased morbidity and beneficial metabolic profiles in middle‐age. By comparing mRNA levels of nonagenarians and middle‐aged controls, the mTOR signalling gene set was found to associate with old age (P = 4.6 × 10−7). Single gene analysis showed that seven of 40 mTOR pathway genes had a significant differential expression of at least 5%. Of these, the RPTOR (Raptor) gene was found to be differentially expressed also when the offspring of nonagenarians was compared with their spouses, indicating association with familial longevity in middle‐age. This association was not explained by variation between the groups in the prevalence of type 2 diabetes and cancer or glucose levels. Thus, the mTOR pathway not only plays a role in the regulation of disease and aging in animal models, but also in human health and longevity.

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A Branched-Chain Amino Acid-Related Metabolic Signature that Differentiates Obese and Lean Humans and Contributes to Insulin Resistance

Cited by 2,624 publications

References 61 publications

Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Perinatal western‐type diet and associated gestational weight gain alter postpartum maternal mood

Gene expression analysis of mTOR pathway: association with human longevity

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