Yang-Seo Park scite author profile

Yang-Seo Park

5Publications

105Citation Statements Received

56Citation Statements Given

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106

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Chungbuk National University

Publications

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Cloning and Expression of a G Protein‐Linked Acetylcholine Receptor from Caenorhabditis elegans

Lee¹,

Park²,

Chang³

et al. 1999

Journal of Neurochemistry

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Abstract:We have isolated a cDNA clone from the nematode Caenorhabditis elegans that encodes a protein of greatest sequence similarity to muscarinic acetylcholine receptors. This gene codes for a polypeptide of 682 amino acids containing seven putative transmembrane domains. The amino acid identities, excluding a highly variable middle portion of the third intracellular loop, to the human m1-m5 receptors are 28 -34%. When this cloned receptor was coexpressed with a G protein-gated inwardly rectifying K ϩ channel (GIRK1) in Xenopus oocyte, acetylcholine was able to elicit the GIRK current. This acetylcholine-induced current was substantially inhibited by the muscarinic antagonist atropine in a reversible manner. However, another muscarinic agonist oxotremorine and antagonists scopolamine and pirenzepine had little or negligible effects on this receptor. Taken together, these results suggest that the cloned gene encodes a G protein-linked acetylcholine receptor that is most similar to but pharmacologically distinct from muscarinic acetylcholine receptors. Key Words: G proteinlinked acetylcholine receptor-Muscarinic acetylcholine receptor-Caenorhabditis elegans-G protein-gated inwardly rectifying K ϩ channel-Xenopus oocyte-Electrophysiology.

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EGFR and PKC are involved in the activation of ERK1/2 and p90 RSK and the subsequent proliferation of SNU-407 colon cancer cells by muscarinic acetylcholine receptors

Park

Cho

2012

Mol Cell Biochem

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We have previously shown that muscarinic acetylcholine receptors (mAChRs) enhance SNU-407 colon cancer cell proliferation via the ERK1/2 pathway. Here, we examined the signaling pathways linking mAChR stimulation to ERK1/2 activation and the subsequent proliferation of SNU-407 cells. The inhibition of the epidermal growth factor receptor (EGFR) by AG1478 or protein kinase C (PKC) by GF109203X significantly reduced carbachol-stimulated ERK1/2 activation and cell proliferation. Cotreatment of the cells with AG1478 and GF109203X produced an additive effect on carbachol-stimulated ERK1/2 activation, suggesting that the EGFR and PKC pathways act in parallel. The p90 ribosomal S6 kinases (RSKs) are downstream effectors of ERK1/2 and are known to have important roles in cell proliferation. In SNU-407 cells, carbachol treatment induced RSK activation in an atropine-sensitive manner, and this RSK activation was decreased by the inhibition of either EGFR or PKC. Moreover, the RSK-specific inhibitor BRD7389 almost completely blocked carbachol-stimulated cell proliferation. Together, these data indicate that EGFR and PKC are involved in mAChR-mediated activation of ERK1/2 and RSK and the subsequent proliferation of SNU-407 colon cancer cells.

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Enhanced proliferation of SNU-407 human colon cancer cells by muscarinic acetylcholine receptors

Park¹,

Cho²

2008

BMB Reports

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Stimulation of cyclic AMP production by the Caenorhabditis elegans muscarinic acetylcholine receptor GAR-3 in Chinese hamster ovary cells

Park

Cho

2006

Archives of Biochemistry and Biophysics

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A Possible Role for FRM-1, a C. elegans FERM Family Protein, in Embryonic Development

Choi

Kang

Park

et al. 2011

Molecules and Cells

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FRM-1 is a member of the FERM protein superfamily containing a FERM domain, which is a highly conserved protein-protein interaction module found in most eukaryotes. Although FRM-1 is thought to be involved in linking intracellular proteins to membrane proteins, the specific role for FRM-1 remains to be elucidated. In an effort to explore the biological function of FRM-1, we examined the phenotype of frm-1(tm4168) mutant worms. We observed that frm-1(tm4168) worms have a delayed hatching phenotype. Twelve hours after being laid, when virtually all wild-type eggs had hatched, only 64% of frm-1(tm4168) eggs had hatched. About 3% of frm-1(tm4168) eggs failed to hatch, even 3 days after they had been laid. We also found that frm-1(tm4168) mutants displayed a temperature-sensitive sterility phenotype. About 13% of frm-1(tm4168) worms were unable to produce eggs or produced nonviable eggs at 25°C. In contrast, less than 1% of wild-type animals were sterile at this temperature. At 20°C, neither the mutant nor wild type appeared to be sterile. Western blot analysis indicates that FRM-1 is expressed throughout the developmental stages with the strongest expression at the egg stage. Immunostaining experiments revealed that FRM-1 is mainly localized to the plasma membrane of most if not all cells at an early embryonic stage and to the plasma membrane of P cells during the late embryonic stages. GFP fusion experiments showed that FRM-1 can be expressed in the pharynx and intestine at the larval and adult stages. Our data suggest that FRM-1 may participate in diverse biological processes, including embryonic development.

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Yang-Seo Park

Cloning and Expression of a G Protein‐Linked Acetylcholine Receptor from Caenorhabditis elegans

EGFR and PKC are involved in the activation of ERK1/2 and p90 RSK and the subsequent proliferation of SNU-407 colon cancer cells by muscarinic acetylcholine receptors

Enhanced proliferation of SNU-407 human colon cancer cells by muscarinic acetylcholine receptors

Stimulation of cyclic AMP production by the Caenorhabditis elegans muscarinic acetylcholine receptor GAR-3 in Chinese hamster ovary cells

A Possible Role for FRM-1, a C. elegans FERM Family Protein, in Embryonic Development

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