ON THE MECHANISMS OF BONE RESORPTION: The Action of Parathyroid Hormone on the Excretion and Synthesis of Lysosomal Enzymes and on the Extracellular Release of Acid by Bone Cells

doi:10.1083/jcb.39.3.676

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CALCIUM COMPOUNDS
CALCIUM, ELEMENTAL
PARATHYROID HORMONE

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ARTICLE

ON THE MECHANISMS OF BONE RESORPTION

: The Action of Parathyroid Hormone on the Excretion and Synthesis of Lysosomal Enzymes and on the Extracellular Release of Acid by Bone Cells

Gilbert Vaes ¹

¹ From the Laboratoire de Chimie Physiologique, University of Louvain, Belgium

Bone resorption, characterized by the solubilization of boththe mineral and the organic components of the osseous matrix,was obtained in tissue culture under the action of parathyroidhormone (PTH). It was accompanied by the excretion of six lysosomalacid hydrolases, which was in good correlation with the progressof the resorption evaluated by the release of phosphate, calcium45 or hydroxyproline from the explants; there was no increasedexcretion of two nonlysosomal enzymes, alkaline phosphatase,and catalase. Balance studies and experiments with inhibitorsof protein synthesis indicated that the intracellular storesof the acid hydrolases excreted were maintained by new synthesis.The release was not due to a direct disruption of the lysosomalmembrane by PTH; it is presumed to result from an exocytosisof the whole lysosomal content and to involve mechanisms similarto those controlling the secretion of this content into digestivevacuoles.

The resorbing explants acidified their culture fluidsat a faster rate and released more lactate and citrate thanthe controls; this release was in good correlation, in the PTH-treatedcultures, with the resorption of the bone mineral, but the amountof citrate released was considerably smaller than that of lactate.The acid released could account for the resorption of the mineral.

Itis proposed, as a working hypothesis, that the acid hydrolasesof the lysosomes are active in the resorption of the organicmatrix of bone and that acid, originating possibly from thestimulation of glycolysis, cares for the concomitant solubilizationof bone mineral while also favoring the hydrolytic action ofthe lysosomal enzymes.

Submitted on March 18, 1968
Revised on August 6, 1968

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