Recurrent XPO1 mutations alter pathogenesis of chronic lymphocytic leukemia

Janek S. Walker; Zachary A. Hing; Bonnie Harrington; Jordan Baumhardt; Hatice Gulcin Ozer; Amy Lehman; Brian Giacopelli; Larry Beaver; Katie Williams; Jordan N. Skinner; Casey B. Cempre; Qingxiang Sun; Sharon Shacham; Benjamin R. Stromberg; Matthew K. Summers; Lynne V. Abruzzo; Laura Rassenti; Thomas J. Kipps; Sameer Parikh; Neil E. Kay; Kerry A. Rogers; Jennifer A. Woyach; Vincenzo Coppola; Yuh Min Chook; Christopher Oakes; John C. Byrd; Rosa Lapalombella

doi:10.1186/s13045-021-01032-2

Recurrent XPO1 mutations alter pathogenesis of chronic lymphocytic leukemia

Janek S. Walker, Zachary A. Hing, Bonnie Harrington, Jordan Baumhardt, Hatice Gulcin Ozer, Amy Lehman, Brian Giacopelli, Larry Beaver, Katie Williams, Jordan N. Skinner, Casey B. Cempre, Qingxiang Sun, Sharon Shacham, Benjamin R. Stromberg, Matthew K. Summers, Lynne V. Abruzzo, Laura Rassenti, Thomas J. Kipps, Sameer Parikh, Neil E. KayKerry A. Rogers, Jennifer A. Woyach, Vincenzo Coppola, Yuh Min Chook, Christopher Oakes, John C. Byrd, Rosa Lapalombella

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

Background: Exportin 1 (XPO1/CRM1) is a key mediator of nuclear export with relevance to multiple cancers, including chronic lymphocytic leukemia (CLL). Whole exome sequencing has identified hot-spot somatic XPO1 point mutations which we found to disrupt highly conserved biophysical interactions in the NES-binding groove, conferring novel cargo-binding abilities and forcing cellular mis-localization of critical regulators. However, the pathogenic role played by change-in-function XPO1 mutations in CLL is not fully understood. Methods: We performed a large, multi-center retrospective analysis of CLL cases (N = 1286) to correlate nonsynonymous mutations in XPO1 (predominantly E571K or E571G; n = 72) with genetic and epigenetic features contributing to the overall outcomes in these patients. We then established a mouse model with over-expression of wildtype (wt) or mutant (E571K or E571G) XPO1 restricted to the B cell compartment (Eµ-XPO1). Eµ-XPO1 mice were then crossed with the Eµ-TCL1 CLL mouse model. Lastly, we determined crystal structures of XPO1 (wt or E571K) bound to several selective inhibitors of nuclear export (SINE) molecules (KPT-185, KPT-330/Selinexor, and KPT-8602/Eltanexor). Results: We report that nonsynonymous mutations in XPO1 associate with high risk genetic and epigenetic features and accelerated CLL progression. Using the newly-generated Eµ-XPO1 mouse model, we found that constitutive B-cell over-expression of wt or mutant XPO1 could affect development of a CLL-like disease in aged mice. Furthermore, concurrent B-cell expression of XPO1 with E571K or E571G mutations and TCL1 accelerated the rate of leukemogenesis relative to that of Eµ-TCL1 mice. Lastly, crystal structures of E571 or E571K-XPO1 bound to SINEs, including Selinexor, are highly similar, suggesting that the activity of this class of compounds will not be affected by XPO1 mutations at E571 in patients with CLL. Conclusions: These findings indicate that mutations in XPO1 at E571 can drive leukemogenesis by priming the pre-neoplastic lymphocytes for acquisition of additional genetic and epigenetic abnormalities that collectively result in neoplastic transformation.

Original language	English (US)
Article number	17
Journal	Journal of Hematology and Oncology
Volume	14
Issue number	1
DOIs	https://doi.org/10.1186/s13045-021-01032-2
State	Published - Dec 2021

Keywords

Chronic lymphocytic leukemia
Expression profiling
Mouse model
Mutation analysis
Selinexor
Sines
XPO1

ASJC Scopus subject areas

Hematology
Molecular Biology
Oncology
Cancer Research

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10.1186/s13045-021-01032-2

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Walker, J. S., Hing, Z. A., Harrington, B., Baumhardt, J., Ozer, H. G., Lehman, A., Giacopelli, B., Beaver, L., Williams, K., Skinner, J. N., Cempre, C. B., Sun, Q., Shacham, S., Stromberg, B. R., Summers, M. K., Abruzzo, L. V., Rassenti, L., Kipps, T. J., Parikh, S., ... Lapalombella, R. (2021). Recurrent XPO1 mutations alter pathogenesis of chronic lymphocytic leukemia. Journal of Hematology and Oncology, 14(1), Article 17. https://doi.org/10.1186/s13045-021-01032-2

Walker, JS, Hing, ZA, Harrington, B, Baumhardt, J, Ozer, HG, Lehman, A, Giacopelli, B, Beaver, L, Williams, K, Skinner, JN, Cempre, CB, Sun, Q, Shacham, S, Stromberg, BR, Summers, MK, Abruzzo, LV, Rassenti, L, Kipps, TJ, Parikh, S, Kay, NE, Rogers, KA, Woyach, JA, Coppola, V, Chook, YM, Oakes, C, Byrd, JC & Lapalombella, R 2021, 'Recurrent XPO1 mutations alter pathogenesis of chronic lymphocytic leukemia', Journal of Hematology and Oncology, vol. 14, no. 1, 17. https://doi.org/10.1186/s13045-021-01032-2

@article{abc31914be6440f3a4a1ce3620c27a17,

title = "Recurrent XPO1 mutations alter pathogenesis of chronic lymphocytic leukemia",

abstract = "Background: Exportin 1 (XPO1/CRM1) is a key mediator of nuclear export with relevance to multiple cancers, including chronic lymphocytic leukemia (CLL). Whole exome sequencing has identified hot-spot somatic XPO1 point mutations which we found to disrupt highly conserved biophysical interactions in the NES-binding groove, conferring novel cargo-binding abilities and forcing cellular mis-localization of critical regulators. However, the pathogenic role played by change-in-function XPO1 mutations in CLL is not fully understood. Methods: We performed a large, multi-center retrospective analysis of CLL cases (N = 1286) to correlate nonsynonymous mutations in XPO1 (predominantly E571K or E571G; n = 72) with genetic and epigenetic features contributing to the overall outcomes in these patients. We then established a mouse model with over-expression of wildtype (wt) or mutant (E571K or E571G) XPO1 restricted to the B cell compartment (Eµ-XPO1). Eµ-XPO1 mice were then crossed with the Eµ-TCL1 CLL mouse model. Lastly, we determined crystal structures of XPO1 (wt or E571K) bound to several selective inhibitors of nuclear export (SINE) molecules (KPT-185, KPT-330/Selinexor, and KPT-8602/Eltanexor). Results: We report that nonsynonymous mutations in XPO1 associate with high risk genetic and epigenetic features and accelerated CLL progression. Using the newly-generated Eµ-XPO1 mouse model, we found that constitutive B-cell over-expression of wt or mutant XPO1 could affect development of a CLL-like disease in aged mice. Furthermore, concurrent B-cell expression of XPO1 with E571K or E571G mutations and TCL1 accelerated the rate of leukemogenesis relative to that of Eµ-TCL1 mice. Lastly, crystal structures of E571 or E571K-XPO1 bound to SINEs, including Selinexor, are highly similar, suggesting that the activity of this class of compounds will not be affected by XPO1 mutations at E571 in patients with CLL. Conclusions: These findings indicate that mutations in XPO1 at E571 can drive leukemogenesis by priming the pre-neoplastic lymphocytes for acquisition of additional genetic and epigenetic abnormalities that collectively result in neoplastic transformation.",

keywords = "Chronic lymphocytic leukemia, Expression profiling, Mouse model, Mutation analysis, Selinexor, Sines, XPO1",

author = "Walker, {Janek S.} and Hing, {Zachary A.} and Bonnie Harrington and Jordan Baumhardt and Ozer, {Hatice Gulcin} and Amy Lehman and Brian Giacopelli and Larry Beaver and Katie Williams and Skinner, {Jordan N.} and Cempre, {Casey B.} and Qingxiang Sun and Sharon Shacham and Stromberg, {Benjamin R.} and Summers, {Matthew K.} and Abruzzo, {Lynne V.} and Laura Rassenti and Kipps, {Thomas J.} and Sameer Parikh and Kay, {Neil E.} and Rogers, {Kerry A.} and Woyach, {Jennifer A.} and Vincenzo Coppola and Chook, {Yuh Min} and Christopher Oakes and Byrd, {John C.} and Rosa Lapalombella",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

doi = "10.1186/s13045-021-01032-2",

language = "English (US)",

volume = "14",

journal = "Journal of Hematology and Oncology",

issn = "1756-8722",

publisher = "BioMed Central",

number = "1",

}

TY - JOUR

T1 - Recurrent XPO1 mutations alter pathogenesis of chronic lymphocytic leukemia

AU - Walker, Janek S.

AU - Hing, Zachary A.

AU - Harrington, Bonnie

AU - Baumhardt, Jordan

AU - Ozer, Hatice Gulcin

AU - Lehman, Amy

AU - Giacopelli, Brian

AU - Beaver, Larry

AU - Williams, Katie

AU - Skinner, Jordan N.

AU - Cempre, Casey B.

AU - Sun, Qingxiang

AU - Shacham, Sharon

AU - Stromberg, Benjamin R.

AU - Summers, Matthew K.

AU - Abruzzo, Lynne V.

AU - Rassenti, Laura

AU - Kipps, Thomas J.

AU - Parikh, Sameer

AU - Kay, Neil E.

AU - Rogers, Kerry A.

AU - Woyach, Jennifer A.

AU - Coppola, Vincenzo

AU - Chook, Yuh Min

AU - Oakes, Christopher

AU - Byrd, John C.

AU - Lapalombella, Rosa

PY - 2021/12

Y1 - 2021/12

N2 - Background: Exportin 1 (XPO1/CRM1) is a key mediator of nuclear export with relevance to multiple cancers, including chronic lymphocytic leukemia (CLL). Whole exome sequencing has identified hot-spot somatic XPO1 point mutations which we found to disrupt highly conserved biophysical interactions in the NES-binding groove, conferring novel cargo-binding abilities and forcing cellular mis-localization of critical regulators. However, the pathogenic role played by change-in-function XPO1 mutations in CLL is not fully understood. Methods: We performed a large, multi-center retrospective analysis of CLL cases (N = 1286) to correlate nonsynonymous mutations in XPO1 (predominantly E571K or E571G; n = 72) with genetic and epigenetic features contributing to the overall outcomes in these patients. We then established a mouse model with over-expression of wildtype (wt) or mutant (E571K or E571G) XPO1 restricted to the B cell compartment (Eµ-XPO1). Eµ-XPO1 mice were then crossed with the Eµ-TCL1 CLL mouse model. Lastly, we determined crystal structures of XPO1 (wt or E571K) bound to several selective inhibitors of nuclear export (SINE) molecules (KPT-185, KPT-330/Selinexor, and KPT-8602/Eltanexor). Results: We report that nonsynonymous mutations in XPO1 associate with high risk genetic and epigenetic features and accelerated CLL progression. Using the newly-generated Eµ-XPO1 mouse model, we found that constitutive B-cell over-expression of wt or mutant XPO1 could affect development of a CLL-like disease in aged mice. Furthermore, concurrent B-cell expression of XPO1 with E571K or E571G mutations and TCL1 accelerated the rate of leukemogenesis relative to that of Eµ-TCL1 mice. Lastly, crystal structures of E571 or E571K-XPO1 bound to SINEs, including Selinexor, are highly similar, suggesting that the activity of this class of compounds will not be affected by XPO1 mutations at E571 in patients with CLL. Conclusions: These findings indicate that mutations in XPO1 at E571 can drive leukemogenesis by priming the pre-neoplastic lymphocytes for acquisition of additional genetic and epigenetic abnormalities that collectively result in neoplastic transformation.

AB - Background: Exportin 1 (XPO1/CRM1) is a key mediator of nuclear export with relevance to multiple cancers, including chronic lymphocytic leukemia (CLL). Whole exome sequencing has identified hot-spot somatic XPO1 point mutations which we found to disrupt highly conserved biophysical interactions in the NES-binding groove, conferring novel cargo-binding abilities and forcing cellular mis-localization of critical regulators. However, the pathogenic role played by change-in-function XPO1 mutations in CLL is not fully understood. Methods: We performed a large, multi-center retrospective analysis of CLL cases (N = 1286) to correlate nonsynonymous mutations in XPO1 (predominantly E571K or E571G; n = 72) with genetic and epigenetic features contributing to the overall outcomes in these patients. We then established a mouse model with over-expression of wildtype (wt) or mutant (E571K or E571G) XPO1 restricted to the B cell compartment (Eµ-XPO1). Eµ-XPO1 mice were then crossed with the Eµ-TCL1 CLL mouse model. Lastly, we determined crystal structures of XPO1 (wt or E571K) bound to several selective inhibitors of nuclear export (SINE) molecules (KPT-185, KPT-330/Selinexor, and KPT-8602/Eltanexor). Results: We report that nonsynonymous mutations in XPO1 associate with high risk genetic and epigenetic features and accelerated CLL progression. Using the newly-generated Eµ-XPO1 mouse model, we found that constitutive B-cell over-expression of wt or mutant XPO1 could affect development of a CLL-like disease in aged mice. Furthermore, concurrent B-cell expression of XPO1 with E571K or E571G mutations and TCL1 accelerated the rate of leukemogenesis relative to that of Eµ-TCL1 mice. Lastly, crystal structures of E571 or E571K-XPO1 bound to SINEs, including Selinexor, are highly similar, suggesting that the activity of this class of compounds will not be affected by XPO1 mutations at E571 in patients with CLL. Conclusions: These findings indicate that mutations in XPO1 at E571 can drive leukemogenesis by priming the pre-neoplastic lymphocytes for acquisition of additional genetic and epigenetic abnormalities that collectively result in neoplastic transformation.

KW - Chronic lymphocytic leukemia

KW - Expression profiling

KW - Mouse model

KW - Mutation analysis

KW - Selinexor

KW - Sines

KW - XPO1

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U2 - 10.1186/s13045-021-01032-2

DO - 10.1186/s13045-021-01032-2

M3 - Article

C2 - 33451349

AN - SCOPUS:85099462100

SN - 1756-8722

VL - 14

JO - Journal of Hematology and Oncology

JF - Journal of Hematology and Oncology

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ER -

Recurrent XPO1 mutations alter pathogenesis of chronic lymphocytic leukemia

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