2009
AMP‐activated protein kinase: a core signalling pathway in the heart
Kim AS, Miller EJ, Young LH. AMP‐activated protein kinase: a core signalling pathway in the heart. Acta Physiologica 2009, 196: 37-53. PMID: 19239414, DOI: 10.1111/j.1748-1716.2009.01978.x.BooksConceptsProtein kinaseEssential cellular processesTumor suppressor LKB1Downstream AMPK targetsProduction of ATPProtein phosphataseAMPK targetsActivated AMPKIntracellular glycogen accumulationCellular processesUpstream kinaseFatty acid metabolismCardiac myocyte hypertrophyAMPK activationAMPK activityImportant intracellularMolecular mechanismsMajor regulatorAMPKProtein synthesisKinaseAcid metabolismOral hypoglycaemic drugsGlycogen accumulationType 2 diabetes
1999
Insulin-like growth factor I stimulates cardiac myosin heavy chain and actin synthesis in the awake rat
Young L, Renfu Y, Hu X, Chong S, Hasan S, Jacob R, Sherwin R. Insulin-like growth factor I stimulates cardiac myosin heavy chain and actin synthesis in the awake rat. American Journal Of Physiology 1999, 276: e143-e150. PMID: 9886960, DOI: 10.1152/ajpendo.1999.276.1.e143.Peer-Reviewed Original ResearchConceptsInsulin-like growth factor IGrowth factor IAwake ratsMyosin heavy chainFactor IContractile protein synthesisIGF-I infusionLow-dose IGFMixed cardiac proteinsCardiac myosin heavy chainMyosin synthesisBlood pressureOvernight fastIntravenous infusionRight ventricleHeavy chainHeart rateHypoglycemic effectFed ratsIGFRatsDirect actionProtein synthesisSalineCardiac proteins
1996
IGF-I stimulation of muscle protein synthesis in the awake rat: permissive role of insulin and amino acids
Jacob R, Hu X, Niederstock D, Hasan S, McNulty PH, Sherwin RS, Young LH. IGF-I stimulation of muscle protein synthesis in the awake rat: permissive role of insulin and amino acids. American Journal Of Physiology 1996, 270: e60-e66. PMID: 8772474, DOI: 10.1152/ajpendo.1996.270.1.e60.Peer-Reviewed Original ResearchConceptsMuscle protein synthesisInsulin replacementPlasma insulinAwake ratsInsulin-like growth factor ICapacity of IGFIGF-I infusionInfusion of IGFAction of IGFSaline control valuesGrowth factor IIGF-I stimulationProtein synthesisIntravenous infusionPlasma concentrationsInsulin concentrationsAmino acid concentrationsIGFPermissive roleInfusionFactor IControl valuesInsulinRatsAmino acids
1995
Hyperinsulinemia inhibits myocardial protein degradation in patients with cardiovascular disease and insulin resistance.
McNulty P, Louard R, Deckelbaum L, Zaret B, Young L. Hyperinsulinemia inhibits myocardial protein degradation in patients with cardiovascular disease and insulin resistance. Circulation 1995, 92: 2151-6. PMID: 7554195, DOI: 10.1161/01.cir.92.8.2151.Peer-Reviewed Original ResearchConceptsMyocardial protein degradationInsulin infusionCardiovascular diseaseMyocardial protein synthesisInsulin resistancePhenylalanine balanceMyocardial hypertrophyWhole-body glucose metabolismCoronary artery diseaseIschemic heart diseasePlasma insulin concentrationNet phenylalanine balanceWhole-body carbohydrate metabolismEffect of insulinMyocardial protein metabolismArtery diseaseAcute hyperinsulinemiaProtein synthesisHeart diseaseInsulin concentrationsPlasma concentrationsAntiproteolytic actionHyperinsulinemiaGlucose metabolismConstant infusion
1994
Effect of insulin on rat heart and skeletal muscle phenylalanyl-tRNA labeling and protein synthesis in vivo
Young LH, Stirewalt W, McNulty PH, Revkin JH, Barrett EJ. Effect of insulin on rat heart and skeletal muscle phenylalanyl-tRNA labeling and protein synthesis in vivo. American Journal Of Physiology 1994, 267: e337-e342. PMID: 8074214, DOI: 10.1152/ajpendo.1994.267.2.e337.Peer-Reviewed Original ResearchConceptsMuscle protein synthesisAcid-soluble poolFemoral venous plasmaSkeletal muscleSkeletal muscle protein synthesisEffect of insulinMuscle protein hydrolysateProtein synthesisContinuous infusionVenous plasmaHyperinsulinemic clampSaline infusionAnesthetized ratsArterial plasmaRat heartInsulin effectInsulinHormonal regulationHeartInfusionMuscleSpecific activityMinVivo measurementsLabeling
1993
Response of rat heart and skeletal muscle protein in vivo to insulin and amino acid infusion
McNulty PH, Young LH, Barrett EJ. Response of rat heart and skeletal muscle protein in vivo to insulin and amino acid infusion. American Journal Of Physiology 1993, 264: e958-e965. PMID: 8333520, DOI: 10.1152/ajpendo.1993.264.6.e958.Peer-Reviewed Original ResearchConceptsAmino acid infusionMuscle protein synthesisContinuous infusionAcid infusionNet muscle protein synthesisSaline-treated ratsSkeletal muscle protein synthesisInfusion of insulinPlasma specific activitySkeletal muscle proteinsProtein synthesisAmino acid solutionMature ratsInfusionRat heartInsulinBolusTracer infusionHeart muscleSkeletal muscleTracer infusion methodRatsPhysiological concentrationsAmino acidsProtein synthesis in pulmonary arteries from rats exposed to hyperoxia
Stirewalt WS, Coflesky JT, Young LH, Evans JN. Protein synthesis in pulmonary arteries from rats exposed to hyperoxia. American Journal Of Physiology 1993, 264: l74-l79. PMID: 8430819, DOI: 10.1152/ajplung.1993.264.1.l74.Peer-Reviewed Original Research
1992
Physiological hyperinsulinemia inhibits myocardial protein degradation in vivo in the canine heart.
Young LH, Dahl DM, Rauner D, Barrett EJ. Physiological hyperinsulinemia inhibits myocardial protein degradation in vivo in the canine heart. Circulation Research 1992, 71: 393-400. PMID: 1628395, DOI: 10.1161/01.res.71.2.393.Peer-Reviewed Original ResearchConceptsMyocardial protein degradationProtein degradationProtein synthesisMyocardial protein turnoverAmino acid replacementsAcid replacementsProtein turnoverEssential amino acidsAmino acidsPhenylalanine balanceAmino acid concentrationsNet myocardial releaseSpecific activityPhenylalanineVivoDegradationAnimalsBasal rateIsotopic steady statePhysiological hyperinsulinemiaTurnover
1991
Myocardial protein turnover in patients with coronary artery disease. Effect of branched chain amino acid infusion.
Young LH, McNulty PH, Morgan C, Deckelbaum LI, Zaret BL, Barrett EJ. Myocardial protein turnover in patients with coronary artery disease. Effect of branched chain amino acid infusion. Journal Of Clinical Investigation 1991, 87: 554-560. PMID: 1991838, PMCID: PMC296343, DOI: 10.1172/jci115030.Peer-Reviewed Original ResearchConceptsBranched-chain amino acid infusionCoronary artery diseaseAmino acid infusionProtein turnoverBCAA infusionProtein synthesisArtery diseaseAcid infusionAmino acidsMyocardial protein turnoverCardiac double productCoronary blood flowPlasma insulin levelsMyocardial oxygen consumptionHuman heartProtein degradationNegative protein balanceEssential amino acidsMyocardial balanceInsulin levelsDouble productPhenylalanine balanceAnabolic effectsMyocardial uptakePostabsorptive patients
1987
An isotopic method for measurement of muscle protein synthesis and degradation in vivo
Barrett EJ, Revkin JH, Young LH, Zaret BL, Jacob R, Gelfand RA. An isotopic method for measurement of muscle protein synthesis and degradation in vivo. Biochemical Journal 1987, 245: 223-228. PMID: 3663148, PMCID: PMC1148103, DOI: 10.1042/bj2450223.Peer-Reviewed Original ResearchConceptsNet amino acid releaseFemoral venous plasmaTissue blood flowAmino acid releaseMuscle protein synthesisHindlimb flowTissue protein degradationSpecific radioactivityContinuous infusionUptake of leucineMuscle bedArterial circulationClinical studiesPlasma concentrationsDog hindlimbBlood flowProtein synthesisAcid releaseHindlimbProtein turnoverTissue proteinsPhenylalanine incorporationRemoval of tracerMuscle tissueDogs