2023
Crosstalk within a brain-breast-bone axis regulates mineral and skeletal metabolism during lactation
Athonvarangkul D, Wysolmerski J. Crosstalk within a brain-breast-bone axis regulates mineral and skeletal metabolism during lactation. Frontiers In Physiology 2023, 14: 1121579. PMID: 36875035, PMCID: PMC9979219, DOI: 10.3389/fphys.2023.1121579.Peer-Reviewed Original ResearchBone lossExcess bone lossExcessive bone lossPostmenopausal osteoporosisBone turnoverRare entityMineral metabolismSkeletal metabolismNew therapiesBone qualityCalcium demandOsteoporosisMammary glandCalcium deliveryBone axisReversible physiological responseLactationHormonal signalsCurrent knowledgeMetabolismPhysiological responsesPregnancyHypothalamusPathophysiologyTherapy
2015
OPG Treatment Prevents Bone Loss During Lactation But Does Not Affect Milk Production or Maternal Calcium Metabolism
Ardeshirpour L, Dumitru C, Dann P, Sterpka J, VanHouten J, Kim W, Kostenuik P, Wysolmerski J. OPG Treatment Prevents Bone Loss During Lactation But Does Not Affect Milk Production or Maternal Calcium Metabolism. Endocrinology 2015, 156: 2762-2773. PMID: 25961842, PMCID: PMC4511126, DOI: 10.1210/en.2015-1232.Peer-Reviewed Original ResearchConceptsBone lossOPG treatmentOsteoblast numberActivated B cells ligandLactational bone lossMaternal calcium homeostasisMaternal calcium metabolismMilk calcium levelsRapid bone lossDietary calcium intakeMaternal bone lossBone resorption rateMaternal hypocalcemiaRecombinant OPGCalcium intakeMaternal deathsOsteoprotegerin levelsMaternal skeletonBone turnoverDietary calciumCalcium metabolismOsteoclast numberBone massOsteoclast activityAnabolic response
2013
Mammary-Specific Ablation of the Calcium-Sensing Receptor During Lactation Alters Maternal Calcium Metabolism, Milk Calcium Transport, and Neonatal Calcium Accrual
Mamillapalli R, VanHouten J, Dann P, Bikle D, Chang W, Brown E, Wysolmerski J. Mammary-Specific Ablation of the Calcium-Sensing Receptor During Lactation Alters Maternal Calcium Metabolism, Milk Calcium Transport, and Neonatal Calcium Accrual. Endocrinology 2013, 154: 3031-3042. PMID: 23782944, PMCID: PMC3749485, DOI: 10.1210/en.2012-2195.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornBiological TransportBone DevelopmentBone ResorptionCalciumCrosses, GeneticFemaleGene Expression RegulationLactationLactoglobulinsMammary Glands, AnimalMiceMice, KnockoutMice, TransgenicMilkParathyroid HormoneParathyroid Hormone-Related ProteinReceptors, Calcium-SensingRNA, MessengerConceptsRenal calcium excretionCalcium excretionCalcium metabolismBone resorptionCalcium transportMilk calciumMammary glandAccelerated bone resorptionMammary-specific ablationMaternal calcium metabolismDietary calcium intakeCalcium sensing receptorCalcium-sensing receptorSecretion of PTHrPSkeletal calcium storesMilk PTHrPCalcium intakePTH secretionPTHrP secretionMaternal boneBone turnoverBone metabolismOnset of lactationMaternal circulationSystemic calciumOsteocytes remove and replace perilacunar mineral during reproductive cycles
Wysolmerski JJ. Osteocytes remove and replace perilacunar mineral during reproductive cycles. Bone 2013, 54: 230-236. PMID: 23352996, PMCID: PMC3624069, DOI: 10.1016/j.bone.2013.01.025.BooksConceptsBone lossLevels of PTHrPNegative calcium balanceLevels of estrogenPrincipal bone-resorbing cellsSkeletal calcium storesBone-resorbing cellsPTHrP levelsBone turnoverBone resorptionBone massMineral metabolismCalcium balanceRole of osteocytesCalcium storesMineral homeostasisOsteocytic osteolysisReproductive cycleOsteocytesSystemic demandsPericanalicular matrixCalciumLactationBone
2010
Increased PTHrP and Decreased Estrogens Alter Bone Turnover but Do Not Reproduce the Full Effects of Lactation on the Skeleton
Ardeshirpour L, Brian S, Dann P, VanHouten J, Wysolmerski J. Increased PTHrP and Decreased Estrogens Alter Bone Turnover but Do Not Reproduce the Full Effects of Lactation on the Skeleton. Endocrinology 2010, 151: 5591-5601. PMID: 21047946, PMCID: PMC2999486, DOI: 10.1210/en.2010-0566.Peer-Reviewed Original ResearchConceptsBone mineral densityBone lossEstrogen deficiencyMineral densityInfusion of PTHrPReversible bone lossLevels of estrogenCombination of OVXLeuprolide treatmentCentral hypogonadismGnRH agonistMaternal skeletonBone turnoverOsmotic minipumpsOsteoclast numberBone metabolismBone resorptionSurgical ovariectomyNulliparous micePTHrPOVXInfusionEstrogenLeuprolideModest declineIncreased PTHrP and Decreased Estrogens Alter Bone Turnover but Do Not Reproduce the Full Effects of Lactation on the Skeleton
Ardeshirpour L, Brian S, Dann P, VanHouten J, Wysolmerski J. Increased PTHrP and Decreased Estrogens Alter Bone Turnover but Do Not Reproduce the Full Effects of Lactation on the Skeleton. Endocrine Reviews 2010, 31: 940-940. DOI: 10.1210/edrv.31.6.9976.Peer-Reviewed Original ResearchBone mineral densityBone lossEstrogen deficiencyMineral densityInfusion of PTHrPReversible bone lossLevels of estrogenCombination of OVXLeuprolide treatmentCentral hypogonadismGnRH agonistMaternal skeletonBone turnoverOsmotic minipumpsOsteoclast numberBone metabolismBone resorptionSurgical ovariectomyNulliparous micePTHrPOVXInfusionEstrogenLeuprolideModest decline
2007
Weaning Triggers a Decrease in Receptor Activator of Nuclear Factor-κB Ligand Expression, Widespread Osteoclast Apoptosis, and Rapid Recovery of Bone Mass after Lactation in Mice
Ardeshirpour L, Dann P, Adams DJ, Nelson T, VanHouten J, Horowitz MC, Wysolmerski JJ. Weaning Triggers a Decrease in Receptor Activator of Nuclear Factor-κB Ligand Expression, Widespread Osteoclast Apoptosis, and Rapid Recovery of Bone Mass after Lactation in Mice. Endocrinology 2007, 148: 3875-3886. PMID: 17495007, DOI: 10.1210/en.2006-1467.Peer-Reviewed Original ResearchConceptsBone lossBone massBone turnoverReceptor activatorOsteoclast apoptosisRapid bone lossC-telopeptide levelsNumber of osteoclastsBone formation rateNuclear factor-kappaB ligand (RANKL) mRNANuclear factor-kappaB ligand (RANKL) expressionRapid recoveryLevels of osteocalcinCessation of lactationSkeletal anabolismPTH levelsCalcium metabolismBone resorptionBone histomorphometryBone microarchitectureCalcium levelsOsteoblast numberLigand expressionReciprocal decreaseBone recovery
2005
Continuous PTH and PTHrP Infusion Causes Suppression of Bone Formation and Discordant Effects on 1,25(OH)2Vitamin D
Horwitz MJ, Tedesco MB, Sereika SM, Syed MA, Garcia‐Ocaña A, Bisello A, Hollis BW, Rosen CJ, Wysolmerski JJ, Dann P, Gundberg C, Stewart AF. Continuous PTH and PTHrP Infusion Causes Suppression of Bone Formation and Discordant Effects on 1,25(OH)2Vitamin D. Journal Of Bone And Mineral Research 2005, 20: 1792-1803. PMID: 16160737, DOI: 10.1359/jbmr.050602.Peer-Reviewed Original ResearchConceptsContinuous infusionVitamin DBone formationPhosphorus handlingRenal calciumIGF-1Anabolic skeletal responseDoses of PTHVitamin D homeostasisVitamin D metabolismPlasma IGF-1Vitamin D productionVitamin D synthesisOsteoblastic bone formationHealthy young adultsRenal PTH receptorsContinuous PTHCalcemic responseD homeostasisPrimary hyperparathyroidismHumoral hypercalcemiaSerum calciumD metabolismBone turnoverBone resorption
2003
Mammary-specific deletion of parathyroid hormone–related protein preserves bone mass during lactation
VanHouten JN, Dann P, Stewart AF, Watson CJ, Pollak M, Karaplis AC, Wysolmerski JJ. Mammary-specific deletion of parathyroid hormone–related protein preserves bone mass during lactation. Journal Of Clinical Investigation 2003, 112: 1429-1436. PMID: 14597768, PMCID: PMC228471, DOI: 10.1172/jci19504.Peer-Reviewed Original ResearchConceptsBone lossBone turnoverMammary epithelial cellsParathyroid hormone-related proteinMammary glandMammary-specific deletionPTHrP-knockout miceRapid bone lossEpithelial cellsDihydroxy vitamin DNegative calcium balanceHormone-related proteinPreserves bone massAbsence of PTHrPExpression of CreUrinary cAMPVitamin DBone resorptionLate pregnancyBone massPTHrP mRNACalcium balanceKnockout micePTHrP proteinMammary developmentLow Estrogen and High Parathyroid Hormone-Related Peptide Levels Contribute to Accelerated Bone Resorption and Bone Loss in Lactating Mice
VanHouten JN, Wysolmerski JJ. Low Estrogen and High Parathyroid Hormone-Related Peptide Levels Contribute to Accelerated Bone Resorption and Bone Loss in Lactating Mice. Endocrinology 2003, 144: 5521-5529. PMID: 14500568, DOI: 10.1210/en.2003-0892.Peer-Reviewed Original ResearchConceptsBone lossBone mineral densityBone resorptionMineral densityDual-energy X-ray absorptiometryBone resorption markersX-ray absorptiometryRegulation of calciumAge-matched virginsPamidronate treatmentPTHrP levelsResorption markersLow estrogenEstrogen deficiencyBone turnoverEstrogen levelsPregnant miceBone metabolismBone massPeptide levelsSkeletal metabolismTotal bodyBone volumeCalcium homeostasisBiochemical markers
2002
Treatment of Osteoporosis and Osteopenia in Long‐term Renal Transplant Patients with Alendronate
Cruz DN, Brickel HM, Wysolmerski JJ, Gundberg CG, Simpson CA, Kliger AS, Lorber MI, Basadonna GP, Friedman AL, Insogna KL, Bia MJ. Treatment of Osteoporosis and Osteopenia in Long‐term Renal Transplant Patients with Alendronate. American Journal Of Transplantation 2002, 2: 62-67. PMID: 12095058, DOI: 10.1034/j.1600-6143.2002.020111.x.Peer-Reviewed Original ResearchConceptsBone mineral densityHigh bone turnoverRenal transplant patientsBone lossBone turnoverTransplant patientsTotal femurLumbar spineLong-term renal transplant patientsLong-term renal transplant recipientsBiochemical markersBiochemical parametersGood renal functionGroup A patientsRenal transplant recipientsBone turnover markersRegional bone mineral densityTreatment of osteoporosisSerum alkaline phosphataseFirst yearBisphosphonate therapyTransplant recipientsAlendronate therapyRenal functionA patients