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PDBsum entry 4twp
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Transferase/transferase inhibitor
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PDB id
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4twp
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References listed in PDB file
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Key reference
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Title
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Axitinib effectively inhibits bcr-Abl1(t315i) with a distinct binding conformation.
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Authors
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T.Pemovska,
E.Johnson,
M.Kontro,
G.A.Repasky,
J.Chen,
P.Wells,
C.N.Cronin,
M.Mctigue,
O.Kallioniemi,
K.Porkka,
B.W.Murray,
K.Wennerberg.
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Ref.
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Nature, 2015,
519,
102-105.
[DOI no: ]
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PubMed id
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Abstract
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The BCR-ABL1 fusion gene is a driver oncogene in chronic myeloid leukaemia and
30-50% of cases of adult acute lymphoblastic leukaemia. Introduction of ABL1
kinase inhibitors (for example, imatinib) has markedly improved patient
survival, but acquired drug resistance remains a challenge. Point mutations in
the ABL1 kinase domain weaken inhibitor binding and represent the most common
clinical resistance mechanism. The BCR-ABL1 kinase domain gatekeeper mutation
Thr315Ile (T315I) confers resistance to all approved ABL1 inhibitors except
ponatinib, which has toxicity limitations. Here we combine comprehensive drug
sensitivity and resistance profiling of patient cells ex vivo with structural
analysis to establish the VEGFR tyrosine kinase inhibitor axitinib as a
selective and effective inhibitor for T315I-mutant BCR-ABL1-driven leukaemia.
Axitinib potently inhibited BCR-ABL1(T315I), at both biochemical and cellular
levels, by binding to the active form of ABL1(T315I) in a mutation-selective
binding mode. These findings suggest that the T315I mutation shifts the
conformational equilibrium of the kinase in favour of an active (DFG-in) A-loop
conformation, which has more optimal binding interactions with axitinib.
Treatment of a T315I chronic myeloid leukaemia patient with axitinib resulted in
a rapid reduction of T315I-positive cells from bone marrow. Taken together, our
findings demonstrate an unexpected opportunity to repurpose axitinib, an
anti-angiogenic drug approved for renal cancer, as an inhibitor for ABL1
gatekeeper mutant drug-resistant leukaemia patients. This study shows that
wild-type proteins do not always sample the conformations available to
disease-relevant mutant proteins and that comprehensive drug testing of
patient-derived cells can identify unpredictable, clinically significant
drug-repositioning opportunities.
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