2023
Genetic variants in the vitamin D pathway and their association with vitamin D metabolite levels: Detailed studies of an inner-city pediatric population suggest a modest but significant effect in early childhood
Fu L, Wong B, Li Z, Horst R, Williams R, Lee B, Miller J, Carpenter T, Cole D. Genetic variants in the vitamin D pathway and their association with vitamin D metabolite levels: Detailed studies of an inner-city pediatric population suggest a modest but significant effect in early childhood. The Journal Of Steroid Biochemistry And Molecular Biology 2023, 233: 106369. PMID: 37490983, DOI: 10.1016/j.jsbmb.2023.106369.Peer-Reviewed Original ResearchConceptsVitamin D pathwayD binding proteinPediatric populationInner-city pediatric populationVitamin D metabolite levelsVitamin D insufficiencyRisk pediatric populationsVitamin D metabolismVitamin D binding proteinVitamin D metabolitesD pathwayMonths of ageSanger sequencing confirmationD insufficiencyHealthy infantsD metabolismD levelsD metabolitesMultivariate regression modelLarge cohortMetabolite levelsRelevant associationsPotential roleEarly childhoodInter-individual differences
2017
CYP24A1 loss of function: Clinical phenotype of monoallelic and biallelic mutations
Carpenter TO. CYP24A1 loss of function: Clinical phenotype of monoallelic and biallelic mutations. The Journal Of Steroid Biochemistry And Molecular Biology 2017, 173: 337-340. PMID: 28093352, DOI: 10.1016/j.jsbmb.2017.01.006.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCalciumFibroblast Growth Factor-23HeterozygoteHomeostasisHumansHypercalcemiaHypercalciuriaMutationVitamin DVitamin D3 24-HydroxylaseConceptsVitamin D metabolismD metabolismParathyroid hormoneActive vitamin D metaboliteVitamin D supplementationDietary calcium intakeIdiopathic infantile hypercalcemiaLikely disease-causing variantsVitamin D metabolitesVitamin D pathwayCalcium homeostatic systemCompound heterozygote mutationsFunction mutationsD supplementationSymptomatic hypercalcemiaCalcium intakeUnrecognized causeVitamin DCalcium metabolismD metabolitesInfantile hypercalcemiaDisease-causing variantsVariant mutationsLoss of functionActive metabolite
2012
Take Another CYP: Confirming a Novel Mechanism for “Idiopathic” Hypercalcemia
Carpenter TO. Take Another CYP: Confirming a Novel Mechanism for “Idiopathic” Hypercalcemia. The Journal Of Clinical Endocrinology & Metabolism 2012, 97: 768-771. PMID: 22392954, PMCID: PMC3319214, DOI: 10.1210/jc.2012-1110.Peer-Reviewed Original Research
2011
Genetic Defect in CYP24A1, the Vitamin D 24-Hydroxylase Gene, in a Patient with Severe Infantile Hypercalcemia
Dauber A, Nguyen TT, Sochett E, Cole DE, Horst R, Abrams SA, Carpenter TO, Hirschhorn JN. Genetic Defect in CYP24A1, the Vitamin D 24-Hydroxylase Gene, in a Patient with Severe Infantile Hypercalcemia. The Journal Of Clinical Endocrinology & Metabolism 2011, 97: e268-e274. PMID: 22112808, PMCID: PMC3275367, DOI: 10.1210/jc.2011-1972.Peer-Reviewed Original ResearchConceptsIdiopathic infantile hypercalcemiaInfantile hypercalcemiaSingle patientVitamin D 24-hydroxylase geneReplication cohortIntestinal calcium absorptionAcademic medical centerWhole-exome sequencingIIH patientsClinic cohortAdditional patientsDihydroxyvitamin D.Inpatient studyPatient populationCalcium absorptionCYP24A1 geneMedical CenterHypercalcemiaMAIN OUTCOMEAdditional cohortIntestinal absorptionPatientsConsanguineous parentsVivo functional studiesCohort