Multiple myeloma phosphotyrosine proteomic profile associated with FGFR3 expression, ligand activation, and drug inhibition
Multiple myeloma phosphotyrosine proteomic profile associated with FGFR3 expression, ligand activation, and drug inhibition
Signaling by growth factor receptor tyrosine kinases is manifest through networks of proteins that are substrates and/or bind to the activated receptors. FGF receptor-3 (FGFR3) is a drug target in a subset of human multiple myelomas (MM) and is mutationally activated in some cervical and colon and many bladder cancers and in certain skeletal dysplasias. To define the FGFR3 network in multiple myeloma, mass spectrometry was used to identify and quantify phosphotyrosine (pY) sites modulated by FGFR3 activation and inhibition in myeloma-derived KMS11 cells. Label-free quantification of peptide ion currents indicated the activation of FGFR3 by phosphorylation of tandem tyrosines in the kinase domain activation loop when cellular pY phosphatases were inhibited by pervanadate. Among the 175 proteins that accumulated pY in response to pervanadate was a subset of 52 including FGFR3 that contained a total of 61 pY sites that were sensitive to inhibition by the FGFR3 inhibitor PD173074. The FGFR3 isoform containing the tandem pY motif in its activation loop was targeted by PD173074. Forty of the drug-sensitive pY sites, including two located within the 35-residue cytoplasmic domain of the transmembrane growth factor binding proteoglycan (and multiple myeloma biomarker) Syndecan-1/CD138, were also stimulated in cells treated with the ligand FGF1, providing additional validation of their link to FGFR3. The identification of these overlapping sets of co-modulated tyrosine phosphorylations presents an outline of an FGFR3 network in the MM model and demonstrates the potential for pharmacodynamic monitoring by label-free quantitative phospho-proteomics.
20127-20132
St-Germain, Jonathan R.
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Taylor, Paul
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Tong, Jiefei
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Jin, Lily L.
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Nikolic, Ana
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Stewart, Ian I.
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Ewing, Robert
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Dharsee, Moyez
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Li, Zhihua
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Trudel, Suzanne
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Moran, Michael F.
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24 November 2009
St-Germain, Jonathan R.
22b29450-dcfc-4a44-ba43-06ee66680b83
Taylor, Paul
648ece00-6e9a-433d-bc21-e5007de25029
Tong, Jiefei
0cd0c6a4-92ae-4fad-b4f0-6856db1f479b
Jin, Lily L.
5172a905-ee9e-4e55-8c20-2c530d2409d0
Nikolic, Ana
f9c466e4-b1d3-4339-9414-b888f3ee404e
Stewart, Ian I.
d7bc1521-1e4f-4c63-89c6-7d1dafe9d068
Ewing, Robert
022c5b04-da20-4e55-8088-44d0dc9935ae
Dharsee, Moyez
f06c7ce2-562c-4570-8dd7-2b57796a0999
Li, Zhihua
6f395f3e-a415-4c48-a4cc-2890a06fc298
Trudel, Suzanne
9dcbbdda-872f-46ec-b413-bbe71de887d7
Moran, Michael F.
06cac0b7-f94b-4546-83e3-02ea958eecc8
St-Germain, Jonathan R., Taylor, Paul, Tong, Jiefei, Jin, Lily L., Nikolic, Ana, Stewart, Ian I., Ewing, Robert, Dharsee, Moyez, Li, Zhihua, Trudel, Suzanne and Moran, Michael F.
(2009)
Multiple myeloma phosphotyrosine proteomic profile associated with FGFR3 expression, ligand activation, and drug inhibition.
Proceedings of the National Academy of Sciences of the United States of America, 106 (47), .
(doi:10.1073/pnas.0910957106).
(PMID:19901323)
Abstract
Signaling by growth factor receptor tyrosine kinases is manifest through networks of proteins that are substrates and/or bind to the activated receptors. FGF receptor-3 (FGFR3) is a drug target in a subset of human multiple myelomas (MM) and is mutationally activated in some cervical and colon and many bladder cancers and in certain skeletal dysplasias. To define the FGFR3 network in multiple myeloma, mass spectrometry was used to identify and quantify phosphotyrosine (pY) sites modulated by FGFR3 activation and inhibition in myeloma-derived KMS11 cells. Label-free quantification of peptide ion currents indicated the activation of FGFR3 by phosphorylation of tandem tyrosines in the kinase domain activation loop when cellular pY phosphatases were inhibited by pervanadate. Among the 175 proteins that accumulated pY in response to pervanadate was a subset of 52 including FGFR3 that contained a total of 61 pY sites that were sensitive to inhibition by the FGFR3 inhibitor PD173074. The FGFR3 isoform containing the tandem pY motif in its activation loop was targeted by PD173074. Forty of the drug-sensitive pY sites, including two located within the 35-residue cytoplasmic domain of the transmembrane growth factor binding proteoglycan (and multiple myeloma biomarker) Syndecan-1/CD138, were also stimulated in cells treated with the ligand FGF1, providing additional validation of their link to FGFR3. The identification of these overlapping sets of co-modulated tyrosine phosphorylations presents an outline of an FGFR3 network in the MM model and demonstrates the potential for pharmacodynamic monitoring by label-free quantitative phospho-proteomics.
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Published date: 24 November 2009
Organisations:
Molecular and Cellular
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Local EPrints ID: 355408
URI: http://eprints.soton.ac.uk/id/eprint/355408
ISSN: 0027-8424
PURE UUID: 4c2f7ef6-f21c-4ce8-809b-044c093b7b1d
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Date deposited: 20 Aug 2013 15:36
Last modified: 15 Mar 2024 03:44
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Author:
Jonathan R. St-Germain
Author:
Paul Taylor
Author:
Jiefei Tong
Author:
Lily L. Jin
Author:
Ana Nikolic
Author:
Ian I. Stewart
Author:
Moyez Dharsee
Author:
Zhihua Li
Author:
Suzanne Trudel
Author:
Michael F. Moran
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