Investigation of the kinetics and order of tyrosine phosphorylation
in the T-cell receptor f chain by the protein tyrosine kinase Lck
Investigation of the kinetics and order of tyrosine phosphorylation
in the T-cell receptor f chain by the protein tyrosine kinase Lck
We report experiments to investigate the role of the physiologically relevant protein tyrosine kinase Lck in the ordered phosphorylation of the T-cell receptor f chain. Six synthetic peptides were designed based on the sequences of the immunoreceptor tyrosine-based activation motifs (ITAMs) of the f chain. Preliminary 1H-NMR studies of recombinant f chain suggested that it is essentially unstructured and therefore that peptide mimics would serve as useful models for investigating individual ITAM tyrosines. Phosphorylation kinetics were determined for each tyrosine by assaying the transfer of 32P by recombinant Lck on to each of the peptides. The rates of phosphorylation were found to depend on the location of the tyrosine, leading to the proposal that Lck phosphorylates the six f chain ITAM tyrosines in the order 1N (first) > 3N > 3C > 2N > 1C >2C (last) as a result of differences in the amino-acid sequence surrounding each tyrosine. This proposal was then tested on cytosolic, recombinant T-cell receptor f chain. After in vitro phosphorylation by Lck, the partially phosphorylated f chain was digested with trypsin. Separation and identification of the f chain fragments using LC–MS showed, as predicted by the peptide phosphorylation studies, that tyrosine 1N is indeed the first to be phosphorylated by Lck. We conclude that differences in the amino-acid context of the six f chain ITAM tyrosines affect the efficiency of their phosphorylation by the kinase Lck, which probably contributes to the distinct patterns of phosphorylation observed in vivo.
immunoreceptor tyrosine-based activationmotif(ITAM), mass spectrometry, NMR, protein tyrosine kinaseLck, T-cell receptor f chain12. Atherton
2369-2376
Housden, H.R.
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Skipp, P.J.
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Crump, M.P.
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Broadbridge, R.J.
ce42ee45-e84a-47ec-9706-ef63bef12f2a
Crabbe, T.
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Perry, M.J.
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Gore, M.G.
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June 2003
Housden, H.R.
1bc65e47-6f9a-4c68-9bc2-0424f12ad681
Skipp, P.J.
1ba7dcf6-9fe7-4b5c-a9d0-e32ed7f42aa5
Crump, M.P.
c6ceb566-d628-4fd5-bfe7-13b744088f87
Broadbridge, R.J.
ce42ee45-e84a-47ec-9706-ef63bef12f2a
Crabbe, T.
508f1a9a-7110-44c0-9fd1-73f1dd3c5fa3
Perry, M.J.
e494b60e-14ce-4716-b657-462cf04c1888
Gore, M.G.
7bd6db4b-c5a2-4206-8666-b92208ba7979
Housden, H.R., Skipp, P.J., Crump, M.P., Broadbridge, R.J., Crabbe, T., Perry, M.J. and Gore, M.G.
(2003)
Investigation of the kinetics and order of tyrosine phosphorylation
in the T-cell receptor f chain by the protein tyrosine kinase Lck.
European Journal of Biochemistry, 270 (11), .
(doi:10.1046/j.1432-1033.2003.03604.x).
Abstract
We report experiments to investigate the role of the physiologically relevant protein tyrosine kinase Lck in the ordered phosphorylation of the T-cell receptor f chain. Six synthetic peptides were designed based on the sequences of the immunoreceptor tyrosine-based activation motifs (ITAMs) of the f chain. Preliminary 1H-NMR studies of recombinant f chain suggested that it is essentially unstructured and therefore that peptide mimics would serve as useful models for investigating individual ITAM tyrosines. Phosphorylation kinetics were determined for each tyrosine by assaying the transfer of 32P by recombinant Lck on to each of the peptides. The rates of phosphorylation were found to depend on the location of the tyrosine, leading to the proposal that Lck phosphorylates the six f chain ITAM tyrosines in the order 1N (first) > 3N > 3C > 2N > 1C >2C (last) as a result of differences in the amino-acid sequence surrounding each tyrosine. This proposal was then tested on cytosolic, recombinant T-cell receptor f chain. After in vitro phosphorylation by Lck, the partially phosphorylated f chain was digested with trypsin. Separation and identification of the f chain fragments using LC–MS showed, as predicted by the peptide phosphorylation studies, that tyrosine 1N is indeed the first to be phosphorylated by Lck. We conclude that differences in the amino-acid context of the six f chain ITAM tyrosines affect the efficiency of their phosphorylation by the kinase Lck, which probably contributes to the distinct patterns of phosphorylation observed in vivo.
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Submitted date: 18 February 2003
Published date: June 2003
Keywords:
immunoreceptor tyrosine-based activationmotif(ITAM), mass spectrometry, NMR, protein tyrosine kinaseLck, T-cell receptor f chain12. Atherton
Organisations:
Biological Sciences
Identifiers
Local EPrints ID: 37527
URI: http://eprints.soton.ac.uk/id/eprint/37527
ISSN: 0014-2956
PURE UUID: 6cda3bfe-4e4b-47c5-80b9-e10d47adef7b
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Date deposited: 25 May 2006
Last modified: 16 Mar 2024 02:41
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Contributors
Author:
H.R. Housden
Author:
M.P. Crump
Author:
R.J. Broadbridge
Author:
T. Crabbe
Author:
M.J. Perry
Author:
M.G. Gore
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