Rational development of Stafib-2: a selective, nanomolar inhibitor of the transcription factor STAT5b
Rational development of Stafib-2: a selective, nanomolar inhibitor of the transcription factor STAT5b
The transcription factor STAT5b is a target for tumour therapy. We recently reported catechol bisphosphate and derivatives such as Stafib-1 as the first selective inhibitors of the STAT5b SH2 domain. Here, we demonstrate STAT5b binding of catechol bisphosphate by solid-state nuclear magnetic resonance, and report on rational optimization of Stafib-1 (Ki = 44 nM) to Stafib-2 (Ki = 9 nM). The binding site of Stafib-2 was validated using combined isothermal titration calorimetry (ITC) and protein point mutant analysis, representing the first time that functional comparison of wild-type versus mutant protein by ITC has been used to characterize the binding site of a small-molecule ligand of a STAT protein with amino acid resolution. The prodrug Pomstafib-2 selectively inhibits tyrosine phosphorylation of STAT5b in human leukaemia cells and induces apoptosis in a STAT5-dependent manner. We propose Pomstafib-2, which currently represents the most active, selective inhibitor of STAT5b activation available, as a chemical tool for addressing the fundamental question of which roles the different STAT5 proteins play in various cell processes.
Elumalai, Nagarajan
906d0161-3780-4778-ba5e-86ce313faf8d
Berg, Angela
47b83d9e-935b-4046-a8ef-ef04404ddbd1
Rubner, Stefan
e75257ec-ad28-44e3-9a29-8c99f89b7495
Blenschmidt, Linda
95be95c9-0df4-4bcc-aee3-c300a7886f9d
Song, Chen
c5237cef-58cb-4cbb-b6e8-659d46b043df
Matysik, Jörg
44ba6dc5-7c57-4663-bf4f-657c7e5c7c5e
Berg, Thorsten
12e0861d-39f6-4c81-9a22-84d3fd0c02e1
Elumalai, Nagarajan
906d0161-3780-4778-ba5e-86ce313faf8d
Berg, Angela
47b83d9e-935b-4046-a8ef-ef04404ddbd1
Rubner, Stefan
e75257ec-ad28-44e3-9a29-8c99f89b7495
Blenschmidt, Linda
95be95c9-0df4-4bcc-aee3-c300a7886f9d
Song, Chen
c5237cef-58cb-4cbb-b6e8-659d46b043df
Matysik, Jörg
44ba6dc5-7c57-4663-bf4f-657c7e5c7c5e
Berg, Thorsten
12e0861d-39f6-4c81-9a22-84d3fd0c02e1
Elumalai, Nagarajan, Berg, Angela, Rubner, Stefan, Blenschmidt, Linda, Song, Chen, Matysik, Jörg and Berg, Thorsten
(2017)
Rational development of Stafib-2: a selective, nanomolar inhibitor of the transcription factor STAT5b.
Scientific Reports.
(doi:10.1038/s41598-017-00920-3).
Abstract
The transcription factor STAT5b is a target for tumour therapy. We recently reported catechol bisphosphate and derivatives such as Stafib-1 as the first selective inhibitors of the STAT5b SH2 domain. Here, we demonstrate STAT5b binding of catechol bisphosphate by solid-state nuclear magnetic resonance, and report on rational optimization of Stafib-1 (Ki = 44 nM) to Stafib-2 (Ki = 9 nM). The binding site of Stafib-2 was validated using combined isothermal titration calorimetry (ITC) and protein point mutant analysis, representing the first time that functional comparison of wild-type versus mutant protein by ITC has been used to characterize the binding site of a small-molecule ligand of a STAT protein with amino acid resolution. The prodrug Pomstafib-2 selectively inhibits tyrosine phosphorylation of STAT5b in human leukaemia cells and induces apoptosis in a STAT5-dependent manner. We propose Pomstafib-2, which currently represents the most active, selective inhibitor of STAT5b activation available, as a chemical tool for addressing the fundamental question of which roles the different STAT5 proteins play in various cell processes.
Text
s41598-017-00920-3
- Version of Record
More information
Accepted/In Press date: 10 March 2017
e-pub ahead of print date: 11 April 2017
Identifiers
Local EPrints ID: 428351
URI: http://eprints.soton.ac.uk/id/eprint/428351
ISSN: 2045-2322
PURE UUID: 80e25d13-8bbc-4751-b14e-fb15ef3504d4
Catalogue record
Date deposited: 21 Feb 2019 17:30
Last modified: 16 Mar 2024 00:16
Export record
Altmetrics
Contributors
Author:
Angela Berg
Author:
Stefan Rubner
Author:
Linda Blenschmidt
Author:
Chen Song
Author:
Jörg Matysik
Author:
Thorsten Berg
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
