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The poor outcome in high molecular risk, hydroxycarbamide resistant/intolerant ET is not ameliorated by ruxolitinib

The poor outcome in high molecular risk, hydroxycarbamide resistant/intolerant ET is not ameliorated by ruxolitinib
The poor outcome in high molecular risk, hydroxycarbamide resistant/intolerant ET is not ameliorated by ruxolitinib
Essential Thrombocythemia (ET) patients at high-risk of thrombosis require cytoreductive treatment, typically with hydroxycarbamide. Many patients are resistant or intolerant to hydroxycarbamide (HC-RES/INT) and are at increased risk of disease progression. MAJIC-ET is a randomized phase 2 study comparing ruxolitinib (RUX) to best available therapy (BAT) in HC-RES/INT ET, which showed no difference between the two arms in rates of hematological response or disease progression. The impact of additional non-MPN driver mutations (NDM) on the risk of disease complications in HC-RES/INT ET patients is unknown. Since the presence of NDM may influence trial outcomes, we expand the primary MAJIC-ET analysis to serially evaluate NDM in MAJIC-ET patients using a targeted myeloid 32-gene panel. NDM at baseline were detected in 30% of patients, most frequently affecting TET2 (11%) followed by TP53 (6.4%) and SF3B1 (6.4%). The presence of a NDM was associated with inferior 4-year transformation-free survival (TFS; 65.4% [95% CI 53.3 - 75%] vs. 82.8% [95% CI 73.2 - 89.1%], p=0.017). Specifically, TP53 (p=0.01) and splicing factor (SF, SF3B1, ZRSR2, SRSF2; p<0.001), but not TET2 mutations were associated with reduced TFS which was not mitigated by RUX treatment. Longitudinal analysis identified new mutations in 19.3% of patients; primarily affecting TET2, TP53 and SF3B1. We report the first comprehensive mutational analysis of HC-RES/INT ET patients and highlight the clinical/prognostic utility of serial mutation analysis for NDM in HC-RES/INT ET, including the importance of SF and TP53 mutations which identify HC-RES/INT ET patients at increased risk of disease transformation.
0006-4971
2107-2111
O'sullivan, Jennifer M
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Hamblin, Angela
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Yap, Christina
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Fox, Sonia
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Boucher, Rebecca
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Panchal, Anesh
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Alimam, Samah
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Dreau, Helene Mp
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Howard, Kieran
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Ware, Pauline
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Cross, Nicholas Cp
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Mcmullin, Mary Frances
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Harrison, Claire Nicola
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Mead, Adam J.
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O'sullivan, Jennifer M
a2324368-b71f-4074-af15-6ec694d20a60
Hamblin, Angela
98562d1f-cdae-4114-aaee-c45a6af06de3
Yap, Christina
08179ea4-8338-432c-b8be-da4c9751957e
Fox, Sonia
986a870f-d782-437f-b154-aeb806ec2c00
Boucher, Rebecca
2b4cc6f7-21d9-4cde-a8be-d0931260ce80
Panchal, Anesh
ae3f242e-b5dc-4de0-a0ec-a6e542e324d7
Alimam, Samah
91f7d904-9db6-4a1a-8cef-929fd577e327
Dreau, Helene Mp
7095b041-2325-4900-8f0f-3a0d8716e0ca
Howard, Kieran
3c8ba10b-a302-4b9f-bd76-d7db0c18ec09
Ware, Pauline
eb2a43f1-909d-4009-bc70-a1026fa9506f
Cross, Nicholas Cp
f87650da-b908-4a34-b31b-d62c5f186fe4
Mcmullin, Mary Frances
feeaf619-229b-4827-ae20-29b9b2b03bf9
Harrison, Claire Nicola
868e57f5-6b15-4213-8290-241c5603e093
Mead, Adam J.
5b041fae-0381-4ac5-a112-6d11550f112d

O'sullivan, Jennifer M, Hamblin, Angela, Yap, Christina, Fox, Sonia, Boucher, Rebecca, Panchal, Anesh, Alimam, Samah, Dreau, Helene Mp, Howard, Kieran, Ware, Pauline, Cross, Nicholas Cp, Mcmullin, Mary Frances, Harrison, Claire Nicola and Mead, Adam J. (2019) The poor outcome in high molecular risk, hydroxycarbamide resistant/intolerant ET is not ameliorated by ruxolitinib. Blood, 134 (23), 2107-2111. (doi:10.1182/blood.2019001861).

Record type: Letter

Abstract

Essential Thrombocythemia (ET) patients at high-risk of thrombosis require cytoreductive treatment, typically with hydroxycarbamide. Many patients are resistant or intolerant to hydroxycarbamide (HC-RES/INT) and are at increased risk of disease progression. MAJIC-ET is a randomized phase 2 study comparing ruxolitinib (RUX) to best available therapy (BAT) in HC-RES/INT ET, which showed no difference between the two arms in rates of hematological response or disease progression. The impact of additional non-MPN driver mutations (NDM) on the risk of disease complications in HC-RES/INT ET patients is unknown. Since the presence of NDM may influence trial outcomes, we expand the primary MAJIC-ET analysis to serially evaluate NDM in MAJIC-ET patients using a targeted myeloid 32-gene panel. NDM at baseline were detected in 30% of patients, most frequently affecting TET2 (11%) followed by TP53 (6.4%) and SF3B1 (6.4%). The presence of a NDM was associated with inferior 4-year transformation-free survival (TFS; 65.4% [95% CI 53.3 - 75%] vs. 82.8% [95% CI 73.2 - 89.1%], p=0.017). Specifically, TP53 (p=0.01) and splicing factor (SF, SF3B1, ZRSR2, SRSF2; p<0.001), but not TET2 mutations were associated with reduced TFS which was not mitigated by RUX treatment. Longitudinal analysis identified new mutations in 19.3% of patients; primarily affecting TET2, TP53 and SF3B1. We report the first comprehensive mutational analysis of HC-RES/INT ET patients and highlight the clinical/prognostic utility of serial mutation analysis for NDM in HC-RES/INT ET, including the importance of SF and TP53 mutations which identify HC-RES/INT ET patients at increased risk of disease transformation.

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Accepted/In Press date: 2 September 2019
e-pub ahead of print date: 2 October 2019
Published date: 5 December 2019
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Identifiers

Local EPrints ID: 434813
URI: http://eprints.soton.ac.uk/id/eprint/434813
DOI: doi:10.1182/blood.2019001861
ISSN: 0006-4971
PURE UUID: 3bba7dc3-8f32-4be0-b0ed-f27a94b945b3
ORCID for Nicholas Cp Cross: ORCID iD orcid.org/0000-0001-5481-2555

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Date deposited: 10 Oct 2019 16:30
Last modified: 17 Mar 2024 02:54

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Contributors

Author: Jennifer M O'sullivan
Author: Angela Hamblin
Author: Christina Yap
Author: Sonia Fox
Author: Rebecca Boucher
Author: Anesh Panchal
Author: Samah Alimam
Author: Helene Mp Dreau
Author: Kieran Howard
Author: Pauline Ware
Author: Nicholas Cp Cross ORCID iD
Author: Mary Frances Mcmullin
Author: Claire Nicola Harrison
Author: Adam J. Mead

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