Early expression of a novel nucleotide receptor in the neural plate of Xenopus embryos.
Early expression of a novel nucleotide receptor in the neural plate of Xenopus embryos.
Extracellular ATP functions as a neurotransmitter and neuromodulator in the adult nervous system, and a signaling molecule in non-neural tissue, acting either via ligand-gated ion channels (P2X) or G-protein-coupled receptors (P2Y). ATP can cause an increase in intracellular Ca2+(Ca2+i) in embryonic cells and so regulate cell proliferation, migration, and differentiation. We have isolated aXenopus cDNA encoding a novel P2Y receptor, XlP2Y, which is expressed abundantly in developing embryos. Recombinant XlP2Y responds equally to all five naturally occurring nucleoside triphosphates (ATP, UTP, CTP, GTP, and ITP), which elicit a biphasic Ca2+-dependent Cl− current (I Cl,Ca) where the second phase persists for up to 60 min. XlP2Y also causes a continuous release of Ca2+i and a low level persistent activation ofI Cl,Ca in Xenopus oocytes through the spontaneous efflux of ATP. mRNAs for XlP2Y are expressed transiently in the neural plate and tailbud during Xenopusdevelopment, coincident with neurogenesis. This restricted pattern of expression and novel pharmacological features confer unique properties to XlP2Y, which may play a key role in the early development of neural tissue.
12583-12590
Bogdanov, Yury
0c970999-e191-4f1b-90d9-7bf25a5d5b4b
Dale, Leslie
562f04f0-30f4-496a-a54b-a0cfb91644a4
King, Brian F.
47b0c1f1-47d9-4dd1-a333-05eabfe07d9a
Whittock, Neil
2c6b99c1-9c92-4686-bd24-233c5c3f54fd
Burnstock, Geoffrey
ab1b45ca-4dd4-456e-9283-de1643603928
9 May 1997
Bogdanov, Yury
0c970999-e191-4f1b-90d9-7bf25a5d5b4b
Dale, Leslie
562f04f0-30f4-496a-a54b-a0cfb91644a4
King, Brian F.
47b0c1f1-47d9-4dd1-a333-05eabfe07d9a
Whittock, Neil
2c6b99c1-9c92-4686-bd24-233c5c3f54fd
Burnstock, Geoffrey
ab1b45ca-4dd4-456e-9283-de1643603928
Bogdanov, Yury, Dale, Leslie, King, Brian F., Whittock, Neil and Burnstock, Geoffrey
(1997)
Early expression of a novel nucleotide receptor in the neural plate of Xenopus embryos.
The Journal of Biological Chemistry, 272 (19), .
(doi:10.1074/jbc.272.19.12583).
Abstract
Extracellular ATP functions as a neurotransmitter and neuromodulator in the adult nervous system, and a signaling molecule in non-neural tissue, acting either via ligand-gated ion channels (P2X) or G-protein-coupled receptors (P2Y). ATP can cause an increase in intracellular Ca2+(Ca2+i) in embryonic cells and so regulate cell proliferation, migration, and differentiation. We have isolated aXenopus cDNA encoding a novel P2Y receptor, XlP2Y, which is expressed abundantly in developing embryos. Recombinant XlP2Y responds equally to all five naturally occurring nucleoside triphosphates (ATP, UTP, CTP, GTP, and ITP), which elicit a biphasic Ca2+-dependent Cl− current (I Cl,Ca) where the second phase persists for up to 60 min. XlP2Y also causes a continuous release of Ca2+i and a low level persistent activation ofI Cl,Ca in Xenopus oocytes through the spontaneous efflux of ATP. mRNAs for XlP2Y are expressed transiently in the neural plate and tailbud during Xenopusdevelopment, coincident with neurogenesis. This restricted pattern of expression and novel pharmacological features confer unique properties to XlP2Y, which may play a key role in the early development of neural tissue.
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Published date: 9 May 1997
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Local EPrints ID: 467715
URI: http://eprints.soton.ac.uk/id/eprint/467715
ISSN: 1083-351X
PURE UUID: 3beb9b02-2a1a-40d1-85f7-cf516f948baf
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Date deposited: 19 Jul 2022 17:25
Last modified: 17 Mar 2024 03:37
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Author:
Leslie Dale
Author:
Brian F. King
Author:
Neil Whittock
Author:
Geoffrey Burnstock
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