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Aerobic glycolysis in bone: lactate production and gradients in calvaria

1978; American Physical Society; Volume: 234; Issue: 1 Linguagem: Inglês

10.1152/ajpcell.1978.234.1.c41

1522-1563

W.F. Neuman, M.W. Neuman, Robert Brommage,

Mitochondrial Function and Pathology

ARTICLESAerobic glycolysis in bone: lactate production and gradients in calvariaW. F. Neuman, M. W. Neuman, and R. BrommageW. F. Neuman, M. W. Neuman, and R. BrommagePublished Online:01 Jan 1978https://doi.org/10.1152/ajpcell.1978.234.1.C41MoreFiguresReferencesRelatedInformationPDF (2 MB)Download PDF ToolsExport citationAdd to favoritesGet permissionsTrack citations ShareShare onFacebookTwitterLinkedInWeChat Previous Back to Top Next Download PDF FiguresReferencesRelatedInformationSee PDF Cited ByNutrient uptake and metabolism in osteoblastsCurrent Opinion in Endocrine and Metabolic Research, Vol. 30Mitochondrial β-oxidation of adipose-derived fatty acids by osteoblasts fuels parathyroid hormone–induced bone formation22 March 2023 | JCI Insight, Vol. 8, No. 6Glucose metabolism in skeletal cellsBone Reports, Vol. 17Novel insights into the coupling of osteoclasts and resorption to bone formationSeminars in Cell & Developmental Biology, Vol. 123Molecular conformations and dynamics in the extracellular matrix of mammalian structural tissues: Solid-state NMR spectroscopy approachesMatrix Biology Plus, Vol. 12Dual Effects of Lipid Metabolism on Osteoblast Function23 September 2020 | Frontiers in Endocrinology, Vol. 11Bone and Metabolic ControlThe role of osteoblasts in energy homeostasis28 August 2019 | Nature Reviews Endocrinology, Vol. 15, No. 11Solid state NMR - An indispensable tool in organic-inorganic biocomposite characterization; refining the structure of octacalcium phosphate composites with the linear metabolic di-acids succinate and adipateSolid State Nuclear Magnetic Resonance, Vol. 95Cellular Bioenergetics of Bone28 September 2018Glucose metabolism in boneBone, Vol. 115Fatty acid metabolism by the osteoblastBone, Vol. 115Osteoblast‐like MC3T3‐E1 Cells Prefer Glycolysis for ATP Production but Adipocyte‐like 3T3‐L1 Cells Prefer Oxidative Phosphorylation30 March 2018 | Journal of Bone and Mineral Research, Vol. 33, No. 6Regulation of Osteoblast Metabolism by Wnt SignalingEndocrinology and Metabolism, Vol. 33, No. 3Energy Metabolism of Bone2 November 2017 | Toxicologic Pathology, Vol. 45, No. 7Fatty acid oxidation by the osteoblast is required for normal bone acquisition in a sex- and diet-dependent mannerJCI Insight, Vol. 2, No. 16Energy Metabolism of the Osteoblast: Implications for Osteoporosis1 May 2017 | Endocrine Reviews, Vol. 38, No. 3Wnt signaling and cellular metabolism in osteoblasts26 November 2016 | Cellular and Molecular Life Sciences, Vol. 74, No. 9PTH Promotes Bone Anabolism by Stimulating Aerobic Glycolysis via IGF Signaling14 July 2015 | Journal of Bone and Mineral Research, Vol. 30, No. 11Parathyroid Hormone Reprograms Osteoblast Metabolism19 October 2015 | Journal of Bone and Mineral Research, Vol. 30, No. 11PTHrp comes full circle in cancer biologyBoneKEy Reports, Vol. 4Aerobic Glycolysis in Osteoblasts9 September 2014 | Current Osteoporosis Reports, Vol. 12, No. 4Bioenergetics During Calvarial Osteoblast Differentiation Reflect Strain Differences in Bone MassEndocrinology, Vol. 155, No. 5Angiotensin Actions on the Brain Influencing Salt and Water BalanceInsulin-like growth factor I rapidly enhances acid efflux from osteoblastic cellsAnu Santhanagopal, and S. Jeffrey Dixon1 September 1999 | American Journal of Physiology-Endocrinology and Metabolism, Vol. 277, No. 3Physiological role of brain angiotensin III in drinking behavior in the ratJournal of Biomedical Science, Vol. 3, No. 3Medium pH modulates matrix, mineral, and energy metabolism in cultured chick bones and osteoblast-like cellsBone and Mineral, Vol. 24, No. 1Calcium HomeostasisLe métabolisme du lactate: données élémentaires et variations sur le thèmeScience & Sports, Vol. 8, No. 3A distributed model of exchange processes within the osteonJournal of Biomechanics, Vol. 25, No. 4Hormonal Inputs to ThirstRole of bone in regulation of systemic acid-base balanceKidney International, Vol. 39, No. 1Durstregulation bei terminaler NiereninsuffizienzKlinische Wochenschrift, Vol. 68, No. 22Perspectives: Protons and osteoclasts3 December 2009 | Journal of Bone and Mineral Research, Vol. 5, No. 11Mechanism of amphotericin B stimulation of net calcium efflux from neonatal mouse calvariae3 December 2009 | Journal of Bone and Mineral Research, Vol. 5, No. 7Lactic acid production in mouse calvaria in vitro with and without parathyroid hormone stimulation: Lack of acetazolamide effectsBone, Vol. 8, No. 2Central and Peripheral Actions of Angiotensin IIAngiotensin and Drinking: A Model for the Study of Peptide Action in the BrainBrain AngiotensinThe Neuropsychology of Drinking BehaviorBlood: Bone equilibriumCalcified Tissue International, Vol. 34, No. 1Blood:Bone disequilibrium. V. Effects of a diphosphonate (EHDP) on phosphate fluxes in rat calvariaCalcified Tissue International, Vol. 34, No. 1Blood:Bone disequilibrium. VI. Studies of the solubility characteristics of brushite: Apatite mixtures and their stabilization by noncollagenous proteins of boneCalcified Tissue International, Vol. 34, No. 1BIBLIOGRAPHYAnnals of the New York Academy of Sciences, Vol. 394, No. 1 The BrattleboThe brain renin-angiotensin systemDrug Development Research, Vol. 2, No. 3Central Effects of Taurine: Antagonistic Effects on Central Actions of AngiotensinOn the measurement of water compartments, pH, and gradients in calvariaCalcified Tissue International, Vol. 31, No. 1Electrical potential difference across bone membraneCalcified Tissue International, Vol. 32, No. 1Das Gehirn Renin-Angiotensin System: Ein Modell für die Synthese von Peptiden im GehirnMechanism of mobilization of bone mineral by 1,25-dihydroxyvitamin D3.R Brommage, and W F Neuman1 August 1979 | American Journal of Physiology-Endocrinology and Metabolism, Vol. 237, No. 2Blood:bone disequilibrium. III. Linkage between cell energetics and Ca fluxesW. F. Neuman, M. W. Neuman, and C. R. Myers1 May 1979 | American Journal of Physiology-Cell Physiology, Vol. 236, No. 5Aerobic glycolysis in bone: lactic acid production by rat calvaria cells in cultureR. Felix, W. F. Neuman, and H. Fleisch1 January 1978 | American Journal of Physiology-Cell Physiology, Vol. 234, No. 1Angiotensin stimulation of the central nervous system More from this issue > Volume 234Issue 1January 1978Pages C41-C50 Copyright & PermissionsCopyright © 1978 the American Physiological Societyhttps://doi.org/10.1152/ajpcell.1978.234.1.C41PubMed623240History Published online 1 January 1978 Published in print 1 January 1978 Metrics Downloaded 39 times 48 CITATIONS 48 Total citations 4 Recent citations n/a Field Citation Ratio 1.5 Relative Citation Ratio publications61supporting3mentioning35contrasting2Smart Citations613352Citing PublicationsSupportingMentioningContrastingView CitationsSee how this article has been cited at scite.aiscite shows how a scientific paper has been cited by providing the context of the citation, a classification describing whether it supports, mentions, or contrasts the cited claim, and a label indicating in which section the citation was made.