The protein kinase-C activation domain of the parathyroid hormone.

Jouishomme, Hervé; Whitfield, J. F.; Chakravarthy, Balu; Durkin, Jon P.; Gagnon, Lyne; Isaacs, Richard; MacLean, Susanne; Neugebauer, Witold; Willick, Gordon E.; Rixon, R. H.

doi:10.1210/endo.130.1.1727720

Cited by 123 publications

(55 citation statements)

References 29 publications

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“…As expected, stimulation of PLC by hPTHrP(1-36) was equivalent to that of hPTH(1-34) in both HKRKB28 (at 4 minutes) and HKRKB7 (at 30 minutes). Activation of PKC by hPTH at very low concentrations has been described, (17) but we observed no stimulation of PLC by this peptide at concentrations between 1 pM and 10 nM (data not shown).…”

Section: Signaling and Biological Activity Of Hpth Analogssupporting

confidence: 56%

“…Much effort has focused upon attempts to modulate PTHR signaling through use of PTH analogs, such as PTH or PTH , which may selectively activate one or the other of the two major PTHR signaling effectors, AC and PLC (10)(11)(12)(13)(14)(15)(16) For example, selective activation of the AC/protein kinase A (PKA) pathway by intermittently administered PTH(1-31), a putative ACselective PTHR agonist, was reported to account entirely for the anabolic response of bone in vivo, whereas hPTH(3-34), which does not activate AC but does stimulate protein kinase C (PKC) in bone cells, was inactive in vivo. (14,(16)(17)(18) Others have employed PTH to probe the involve-ment of PKC in the regulation of renal ion transporters and enzymes by PTH in rat and opposum kidney cells. (10,12,15) The ligand selectivity and signaling properties of the human PTHR (hPTHR) have not been widely studied.…”

Section: Introductionmentioning

confidence: 99%

“…(21) These and other studies (24) have emphasized the possible involvement of PLC-independent mechanisms in generating some intracellular calcium responses via the hPTHR. Reports of the actions of PTH , a putative PLC/PKC-selective analog, (10,11,17,18,25) via recombinant hPTHRs in these systems, are contradictory. Direct measurements of PTH(3-34)-stimulated PLC activation via expressed hPTHRs have not been reported.…”

Section: Introductionmentioning

confidence: 99%

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Dual Signaling and Ligand Selectivity of the Human PTH/PTHrP Receptor

Takasu

Guo

Bringhurst

1999

Journal of Bone and Mineral Research

100

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Section: Signaling and Biological Activity Of Hpth Analogssupporting

confidence: 56%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Dual Signaling and Ligand Selectivity of the Human PTH/PTHrP Receptor

Takasu

Guo

Bringhurst

1999

Journal of Bone and Mineral Research

100

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“…A single receptor was shown to stimulate intracellular accumulation of both cAMP and inositol triphosphates (39). PTH has the concentration-dependent ability to stimulate two separate signal pathways (9), and different sequential regions of the hormone may be responsible for initiation of the adenylate cyclase and the phospholipase C activating pathway. The existence of these multiple pathways is possibly reflected by the fact that hPTH-(2-37) is virtually inactive in the adenylate cyclase assay but can induce substantial hypercalcemia in the in vivo model (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…4 and references therein). This indicates that hPTH utilizes other second messengers in addition to cAMP for signal transduction and possibly additional receptors in vivo (9). Furthermore, hPTH is stimulating cell proliferation in skeletal derived cell cultures (10,11) as well as DNA synthesis in chondrocytes (12).…”

mentioning

confidence: 99%

Structure-Activity Relation of NH2-terminal Human Parathyroid Hormone Fragments

Marx¹,

Adermann²,

Bayer³

et al. 1998

Journal of Biological Chemistry

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Human parathyroid hormone (hPTH) is involved in the regulation of the calcium level in blood. This hormone function is located in the NH 2 -terminal 34 amino acids of the 84-amino acid peptide hormone and is transduced via the adenylate cyclase and the phosphatidylinositol signaling pathways. It is well known that truncation of the two NH 2 -terminal amino acids of the hormone leads to complete loss of in vivo normocalcemic function. To correlate loss of calcium level regulatory activity after stepwise NH 2 -terminal truncation and solution structure, we studied the conformations of fragments hPTH-(2-37), hPTH-(3-37), and hPTH-(4 -37) in comparison to hPTH-(1-37) in aqueous buffer solution under near physiological conditions by circular dichroism spectroscopy, two-dimensional nuclear magnetic resonance spectroscopy, and restrained molecular dynamics calculations. All peptides show helical structures and hydrophobic interactions between Leu-15 and Trp-23 that lead to a defined loop region from His-14 to Ser-17. A COOH-terminal helix from Met-18 to at least Leu-28 was found for all peptides. The helical structure in the NH 2 -terminal part of the peptides was lost in parallel with the NH 2 -terminal truncation and can be correlated with the loss of calcium regulatory activity.

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Multiple G-protein involvement in parathyroid hormone regulation of acid production by osteoclasts

May

1997

J. Cell. Biochem.

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The involvement of multiple G-proteins in parathyroid hormone regulation of acid production was demonstrated in a highly enriched osteoclast population. Osteoclasts were isolated from the endosteum of 2.5 to 3-week-old chicken tibia using sequential enzymatic digestion. Single cell analysis of acid production was accomplished using microscope photometry and vital staining with acridine orange, a hydrogen ion concentration sensitive fluorescent dye. Lithium chloride, an uncoupler of G-proteins from their respective receptors, blocked parathyroid hormone stimulated production of acid. Cholera toxin, which permanently activates Gs-proteins, mimicked PTH stimulation. Pertussis toxin, which prevents receptor interaction with Gi- and Go-proteins, blocked both 10(-8) M and 10(-11) M PTH stimulated acid production, suggesting that the pertussis toxin-sensitive G-protein is utilized at both PTH concentrations. Immunoblots of osteoclast plasma membrane proteins, using a panel of antibodies generated against specific G-protein alpha subunits, revealed a 48 kDa Gs alpha, a 41 kDa Go alpha, a 34 kDa Gi alpha-3, and a unique 68 kDa G alpha subunit, with the 41 kDa and 34 kDa bands being the most intense. Immunoblots of osteoblast plasma membrane proteins had a substantially different profile with the most intense bands being a Gs alpha (48 kDa) and a Go alpha (36 and 38 kDa). The studies suggest the utilization of at least two different G-proteins in the parathyroid hormone regulation of acid formation by osteoclasts, a Gs and a pertussis toxin-sensitive G-protein (Go and/or Gi alpha-3).

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The protein kinase-C activation domain of the parathyroid hormone.

Cited by 123 publications

References 29 publications

Dual Signaling and Ligand Selectivity of the Human PTH/PTHrP Receptor

Dual Signaling and Ligand Selectivity of the Human PTH/PTHrP Receptor

Structure-Activity Relation of NH2-terminal Human Parathyroid Hormone Fragments

Multiple G-protein involvement in parathyroid hormone regulation of acid production by osteoclasts

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