grant

Puberty, diabetes, and the kidneys, when eustress becomes distress

Organization SEATTLE CHILDREN'S HOSPITALLocation SEATTLE, UNITED STATESPosted 19 Jul 2024Deadline 30 Jun 2027
NIHUS FederalResearch GrantFY202521+ years old7S Gamma GlobulinAccelerationActive Follow-upAddressAdolescentAdolescent YouthAdultAdult HumanAdult-Onset Diabetes MellitusBiological MarkersBody TissuesBrittle Diabetes MellitusCarrier ProteinsCessation of lifeChargeComplexComplicationConceptionsContinuous Glucose MonitorDataDeathDevelopmentDextransDiabetes MellitusDiabetic Kidney DiseaseDiabetic NephropathyDiagnosisDialysisDialysis procedureDistressEnergy ExpenditureEnergy MetabolismEnrollmentEpidemiological dataEpidemiology dataEvaluationExhibitsExperimental DesignsFrequenciesFunctional MRIFunctional Magnetic Resonance ImagingGeneralized GrowthGlomerular Filtration RateGlucose tolerance testGlycohemoglobin AGlycosylated hemoglobin AGonadal Steroid HormonesGrowthGrowth AgentsGrowth FactorGrowth HormoneGrowth Hormone 1Growth SubstancesHb A1Hb A1a+bHb A1cHbA1HbA1cHealthHeartHeightHemoglobin A(1)HyperglycemiaIDDMIPGTTIVGTTIgGIgG4Immunoglobulin GImpairmentInjury to KidneyInsulin ResistanceInsulin-Dependent Diabetes MellitusIntermediary MetabolismIohexolIohexol 350Juvenile-Onset Diabetes MellitusKetosis-Prone Diabetes MellitusKetosis-Resistant Diabetes MellitusKidneyKidney DiseasesKidney Urinary SystemKnowledgeLinkLongitudinal StudiesMR ImagingMR TomographyMRIMRIsMachine LearningMagnetic Resonance ImagingMaturity-Onset Diabetes MellitusMeasurementMedical Imaging, Magnetic Resonance / Nuclear Magnetic ResonanceMetabolicMetabolic ProcessesMetabolismMethodsMitochondriaModelingNIDDMNMR ImagingNMR TomographyNephropathyNon-Insulin Dependent DiabetesNon-Insulin-Dependent Diabetes MellitusNoninsulin Dependent DiabetesNoninsulin Dependent Diabetes MellitusNuclear Magnetic Resonance ImagingO elementO2 elementObesityOrganism-Level ProcessOrganismal ProcessOxygenOxygen ConsumptionPathogenesisPhenotypePhysiologicPhysiologic ProcessesPhysiologicalPhysiological ProcessesPhysiologyPituitary Growth HormonePrediabetesPrediabetes syndromePrediabetic StatePredispositionProteins Growth FactorsPubertyRenal DiseaseRenal Plasma FlowRenal functionRiskRisk FactorsSeveritiesSex HormonesSex Steroid HormonesSlow-Onset Diabetes MellitusSomatotropinStable Diabetes MellitusStructureSudden-Onset Diabetes MellitusSusceptibilityT1 DMT1 diabetesT1DT1DMT2 DMT2DT2DMTissue GrowthTissuesTransport Protein GeneTransport ProteinsTransporter ProteinType 1 Diabetes MellitusType 1 diabetesType 2 Diabetes MellitusType 2 diabetesType I Diabetes MellitusType II Diabetes MellitusType II diabetesWeight maintenance regimenYouthYouth 10-21Zeugmatographyactive followupadiposityadult onset diabetesadulthoodbio-markersbiologic markerbiomarkercontinuous blood glucose monitorcontinuous blood sugar monitorcontinuous glucose measurementcontinuous sugar monitorcorpulencedesigndesigningdevelopmentaldextrandiabetesdialysis therapyenrollepidemiologic dataexperiencefMRIfollow upfollow-upfollowed upfollowupgirlsgonadal steroidshemodynamicshemoglobin A1chigh dimensional datahigh riskhigh risk grouphigh risk individualhigh risk peoplehigh risk populationhyperglycemicimage-based methodimaging methodimaging modalityinjury to organsinsulin dependent diabetesinsulin dependent type 1insulin resistantinsulin sensitivityinsulin toleranceintraperitoneal glucose tolerance testintravenous glucose toleranceintravenous glucose tolerance testjuvenilejuvenile diabetesjuvenile diabetes mellitusjuvenile humanketosis prone diabetesketosis resistant diabeteskidney disorderkidney dysfunctionkidney functionkidney hypoxiakidney injurylife-time risklifetime risklong-term studylongitudinal designlongitudinal experimental designlongitudinal outcome studieslongitudinal research designlongitudinal study designmachine based learningmalleable riskmaturity onset diabetesmetabolism measurementmetabolomicsmetabonomicsmitochondrialmodifiable riskmultidimensional datamultidimensional datasetsnew drug treatmentsnew drugsnew pharmacological therapeuticnew therapeuticsnew therapynext generation therapeuticsnovelnovel drug treatmentsnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel therapeuticsnovel therapyobesity developmentontogenyorgan developmentorgan growthorgan injurypre-diabetespre-diabeticprediabeticprematureprematuritypreservationrenalrenal disorderrenal dysfunctionrenal hypoxiarenal injuryreproductivesex steroidsomatotropic hormonetherapeutic targettype 1 and type 2 diabetestype 2 DMtype I and type II diabetestype I diabetestype II DMtype one diabetestype two diabetesweight controlweight managementyouth age
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Full Description

PROJECT SUMMARY / ABSTRACT:
Diabetic kidney disease (DKD) is a common and serious complication in youth with 2 diabetes (T2D).
Epidemiological data implicate puberty as a major accelerator of kidney injury in youth with obesity and
diabetes, yet the mechanisms by which reproductive maturation results in kidney disease remain unknown.
A better understanding of the pubertal mechanisms contributing to kidney disease is needed to promote
preservation of native kidney function, especially in high-risk youth with obesity and/or T2D.
We hypothesize that youth with obesity and/or T2D experience relative kidney hypoxia during puberty due to
a metabolic mismatch between increased renal energy expenditure and impaired substrate metabolism. In
turn, the kidney hypoxia results in loss of glomerular charge and size selectivity with increased
transglomerular transport of protein, and kidney dysfunction. To address these hypotheses, we propose to
design an accelerated longitudinal study in which we will enroll adolescents (8-14 years, 50% girls) with
obesity and elevated hemoglobin A1c (HbA1c ≥6%) [n=60], and healthy normal weight controls [n=40] at
Tanner (pubertal) stages 1-4 and examine them at baseline, 1 and 2-year follow-up. We will combine state-of-
the-art magnetic resonance imaging (MRI) methods for quantifying kidney growth, oxygen availability and
hemodynamic function with gold-standard measurements of glomerular filtration rate (iohexol clearance),
renal plasma flow (p-aminohippurate clearance), glomerular size and charge selectivity (dextran and
IgG/IgG4 clearance) and assessments of insulin sensitivity and mitochondrial function (intravenous glucose
tolerance test and metabolomics). These experiments are designed to define the mechanisms contributing to
kidney injury during puberty and identify novel risk factors and therapeutic targets to mitigate the
development of obesity and diabetes-related nephropathy.

Grant Number: 5R01DK129211-05
NIH Institute/Center: NIH
Principal Investigator: Petter Bjornstad

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