10 research outputs found
Insulin-stimulated phosphorylation of protein phosphatase 1 regulatory subunit 12B revealed by HPLC-ESI-MS/MS
BACKGROUND: Protein phosphatase 1 (PP1) is one of the major phosphatases responsible for protein dephosphorylation in eukaryotes. Protein phosphatase 1 regulatory subunit 12B (PPP1R12B), one of the regulatory subunits of PP1, can bind to PP1cδ, one of the catalytic subunits of PP1, and modulate the specificity and activity of PP1cδ against its substrates. Phosphorylation of PPP1R12B on threonine 646 by Rho kinase inhibits the activity of the PP1c-PPP1R12B complex. However, it is not currently known whether PPP1R12B phosphorylation at threonine 646 and other sites is regulated by insulin. We set out to identify phosphorylation sites in PPP1R12B and to quantify the effect of insulin on PPP1R12B phosphorylation by using high-performance liquid chromatography-electrospray ionization-tandem mass spectrometry. RESULTS: 14 PPP1R12B phosphorylation sites were identified, 7 of which were previously unreported. Potential kinases were predicted for these sites. Furthermore, relative quantification of PPP1R12B phosphorylation sites for basal and insulin-treated samples was obtained by using peak area-based label-free mass spectrometry of fragment ions. The results indicate that insulin stimulates the phosphorylation of PPP1R12B significantly at serine 29 (3.02 ± 0.94 fold), serine 504 (11.67 ± 3.33 fold), and serine 645/threonine 646 (2.34 ± 0.58 fold). CONCLUSION: PPP1R12B was identified as a phosphatase subunit that undergoes insulin-stimulated phosphorylation, suggesting that PPP1R12B might play a role in insulin signaling. This study also identified novel targets for future investigation of the regulation of PPP1R12B not only in insulin signaling in cell models, animal models, and in humans, but also in other signaling pathways
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Structure-Activity Study of a-N-Methylated SHU9119 Analogues, hMC4R/TNF-a Antagonists, and Mutational Studies of the Melanocyte Stimulating Hormone Receptor
The human melanocortin receptors (hMCRs) play a fundamental role in human behavior such as satiety, feeding, sexual and more. A set of SHU9119 peptide derivatives were studied for their structure-activity relationships. These peptides contained a sequential a-N-methylation amino acid scan.A second set of peptide derivatives intended to be used to create TNF-a; inhibition, via the melanocortin receptors. These peptides were shown to bind to all of the hMCR receptors, and only exhibit cAMP stimulation at hMC1R/hMC5R.The data from both of the sets of compounds illustrate that small changes in the stereochemistry of the SH9119 and TNF-a; derivatives cause drastic changes in the binding and the agonistic/antagonist properties of the compounds.This thesis determined the effect that hMC1R mutations have on the binding and cAMP response of well characterized ligands. This study ruled out 9 different residues for being the required for the cAMP response of the hMC1R
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