Abstract
After the initial signaling action of parathyroid hormone (PTH) on bone was shown to be activation of adenylyl cyclase, its target was found to be cells of the osteoblast lineage, to the exclusion of osteoclasts and their precursors. This led to the view that the osteoblast lineage regulated osteoclast formation, a proposal that was established when the molecular mechanisms of osteoclast formation were discovered. This is in addition to the effect of PTH1Rv signaling throughout the osteoblast differentiation process to favour the formation of bone-forming osteoblasts. Initial signaling in the PTH target cells through cAMP and protein kinase A (PKA) activation is extremely rapid, and marked by an amplification process in which the later event, PKA activation, precedes cAMP accumulation in time and is achieved at lower concentrations. All of this is consistent with the existence of “spare receptors”, as is the case with several other peptide hormones. PTH-related protein (PTHrP), that was discovered as a cancer product, shares structural similarity with PTH in the amino-terminal domain that allows the hormone, PTH, and the autocrine/paracrine agent, PTHrP, to share actions upon a common G protein coupled receptor, PTH1R, through which they activate adenylyl cyclase with equivalent potencies. Studies of ligand-receptor kinetics have revealed that the PTH/PTH1R ligand-receptor complex, after initial binding and adenylyl cyclase activation at the plasma membrane, is translocated to the endosome, where adenylyl cyclase activation persists for a further short period. This behavior of the PTH1R resembles that of a number of hormones and other agonists that undergo such endosomal translocation. It remains to be determined whether and to what extent the cellular effects through the PTH1R might be influenced when endosomal is added to plasma membrane activation.
Highlights
The adenylyl cyclase (AC) complex is an essential component of information transfer to the interior of cells
One is a direct effect to favour osteoblast differentiation, beginning early and acting throughout the mesenchymal osteoblast lineage, the other is an indirect effect on the hemopoietic lineage mediated predominantly by increased production of Receptor Activator of Nuclear Factor kB Ligand (RANKL) and decreased production of OPG in osteoblast lineage cells that are near to hemopoietic precursors of osteoclasts (Figure 1)
Prompted by the findings that a parathyroid hormone (PTH) structural analog (M-PTH) could prolong cyclic AMP (cAMP) production in target cells in vitro and pharmacological effects in vivo [89], studies of protein - protein interactions and trafficking induced in cells overexpressing PTH1 receptor (PTH1R) showed that PTH [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34] and PTH1R in complex were internalized to the endosome where cAMP production from adenylyl cyclase was maintained [86] (Figure 5)
Summary
The adenylyl cyclase (AC) complex is an essential component of information transfer to the interior of cells. Under the influence of specific receptor-related events it catalyses the formation of cAMP, a process that is regulated by either stimulatory or inhibitory guanine nucleotides [1]. A wide range of intracellular processes are influenced by cAMP, mainly through activation of cAMP-dependent protein kinase (PKA) [2]. In this manuscript the initial actions of parathyroid hormone (PTH) on. PTH1R Actions in Bone cAMP through the PTH1 receptor (PTH1R), a G proteincoupled receptor (GPCR), will be considered, with the aim of relating these to later events in target cells. Work describing the effects and attempting to determine molecular mechanisms will be discussed, as well as the conclusions from those studies and their how they fit into modern concepts developed as a result of new methods of studying the trafficking and actions of proteins in cells
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