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NOTCH1 Mutations Are Associated With The 14q Deletion In Chronic Lymphocytic Leukemia (CLL) and Small Lymphocytic Lymphoma (SLL)

Nguyen-Khac, Florence ; Cosson, Adrien ; Chapiro, Elise ; [et al.]

American Society of Hematology ; 2013

In: Blood Vol. 122, No. 21 ( 2013-11-15), p. 2561-2561

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In: Blood, American Society of Hematology, Vol. 122, No. 21 ( 2013-11-15), p. 2561-2561

Abstract: Deletions of the long arm of chromosome 14 are rare ( 〈 5%) but recurrently observed in mature B-cell neoplasms, particularly in CLL. The size of the deletions is variable, and the molecular consequences are unknown. The aim of our study is to characterize this abnormality in a large cohort of patients. The Groupe Francophone de Cytogenetique Hematologique (GFCH) collected data from 89 patients with CLL or Small Lymphocytic Lymphoma (SLL), harboring a del14q. Morphological review was performed for 65 of them and immunological review for 48. All karyotypes were reviewed by members of the GFCH. Fluorescence in situ hybridization (FISH) analysis was performed with CEP12, 13q14, TP53, ATM, 6q21, and IGH probes, and BACs RP11-35D12 and RP11-226F19 covering the ZFP36L1 gene on 14q24.1. SNP-array analysis (illumina omni1, omin2.5) was performed for 37 patients. The IGHV status was analyzed locally, or in our laboratory. The mutation hotspots of NOTCH1 (exon 34), SF3B1 (exons 14-16), XPO1 (exons 14-15), MYD88 (exon 5) and TP53 (exons 4-10) were analyzed by direct sequencing. Patients were classified as 49 CLL Matutes score 4-5, 5 atypical CLL score 3 (all CD5+, CD23+), and 27 SLL. Eight patients were excluded with a Matutes score 〈 3 or not evaluable. The sex ratio M/F was 1.02, the median age at diagnosis was 64.5 years [29-87]. Regarding all CLL, there were 35 (66%) stages A, 10 (19%) stages B and 8 (15%) stages C. The median time between diagnosis and the first treatment (TTT) was 17 months [0-144] , the overall survival (OS) at 5 years was 93.7%. For the 27 SLL patients, the median TTT was 1 month [0-85], and the OS at 5 years was 88.1%. The karyotype showed chromosomal translocation in 26/79 (33%) (10 balanced, 16 unbalanced) and was complex ( 〉 3 abnormalities) in 26/79 (33%) cases. Using karyotype and FISH, we observed 28/79 (35%) trisomy 12, 12/79 (15%) 13q14 deletions, 11/80 (14%) TP53 deletions, 5/79 (6%) ATM deletions, 3/76 (4%) 6q21 deletions. The whole CLL cohort showed 15/53 (28%) tri 12, 11/53 (21%) del13q, 8/54 (15%) delTP53, 4/53 (7%) delATM, 2/50 (4%) del6q. IGHV status was not mutated in 41/53 (77%) patients, and the gene IGHV1-69 was rearranged in 21/52 (40%) cases. NOTCH1 gene was mutated in 14/45 (31%) patients, SF3B1 in 2/45 (4%), XPO1 in 2/45 (4%), MYD88 in 0/43, TP53 in 6/43 (14%) cases. A significant association was observed between TP53 disrupted and NOTCH1 mutations (p=.04). NOTCH1 mutation was not correlated with tri12. Regarding all the cytogenetic and molecular data, there was no significant difference between CLL score 4-5 and CLL score 3, and between CLL and SLL. Compared with common CLL in the literature, CLL with del14q dysplayed more tri12 (p 〈 .03) and NOTCH1 mutations (p 〈 .003), less del13q (p 〈 .0006), more unmutated IGHV (p 〈 .00001) and V1-69 repertoire (p 〈 .00001). Compared with common SLL in the literature, SLL with del14q also exhibited more tri12, unmutated IGHV (p 〈 .01) and V1-69 (p 〈 .04). The 14q deletions appeared distributed along chromosome 14 from bands q11 to q32. The centromeric and telomeric breakpoints of the 14q deletion were investigated by FISH or SNP-array when material was available, and allowed us to identify a main group (Group 1) among 4 groups: Group 1: 37/77 (48%) patients, with IGH and ZFP36L1 loci rearranged; Group 2: 17/77 (22%), with ZFP36L1 deleted and IGH not deleted; Group 3: 7/77 (9%), with ZFP36L1 and IGH not deleted; Group 4, 16/77 (21%), all the other combinations. Group 1 showed a deletion del14q24.1-14q32.3 of about 38 megabases, which broke in or near ZFP36L1, and in the IGH gene. It included 26 (70%) CLL score 4-5 and 11 (30%) SLL. When compared to the other groups, Group 1 showed significantly more tri12 (p=.004), and NOTCH1 mutations (p=.02). IGHV status was unmutated in 22/24 (92%) patients in Group 1, 12/24 (50%) harboring the gene V1-69. In conclusion, the size of the 14q deletion is variable, with in about half of the cases a recurrent interstitial deletion 14q24.1-14q32.3. Both CLL and SLL with del14q, particularly with the 14q24.1-14q32.3 deletion, are associated with poor prognosis parameters, like short time to treatment, trisomy 12, NOTCH1 mutated, and unmutated IGHV status, with an overrepresentation of the V1-69 gene. Disclosures: No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V122.21.2561.2561

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2013

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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The Gain of the Short Arm of Chromosome 2 (2p+) Induces XPO1 Overexpression and Drug Resistance in Chronic Lymphocytic Leukemia

Cosson, Adrien ; Chapiro, Elise ; Lambert, Jérome ; [et al.]

American Society of Hematology ; 2015

In: Blood Vol. 126, No. 23 ( 2015-12-03), p. 492-492

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In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 492-492

Abstract: Introduction: CLL is a heterogeneous disease in terms of response to treatment, with some patients reaching complete and prolonged remissions, while others relapsing early and requiring several lines of treatments. This highly variable course is partly explained by the existence of a heterogenic panel of genetic alterations (mutations, chromosomal abnormalities) that allow the development of drug-resistant aggressive CLL subclones. Therefore, a functional characterization of the cytogenetic alterations associated to CLL drug resistance may provide new means of improving the current therapeutic strategies. We and others have already reported that the gain of 2p (2p+) is recurrent in CLL. However, the candidate gained gene(s) on the 2p remain to be identified. Previously data: we have observed that the 2p gain is frequent in previously untreated CLL Binet stages B/C (21/132, 15.9%), and is associated with bad prognostic factors, such as 11q deletion (p=0.0008) and unmutated IGHV (p=0.02). Using a SNP-array approach, we have identified a minimally gained region of 1.28Mb on 2p16.1-15. This region included the gene CRM1/XPO1 (Chromosome Region Maintenance 1/Exportin-1), a gene also recurrently mutated in CLL. A qPCR assessment confirmed that XPO1 was overexpressed in the 2p+/CLL patients (1.4-fold increase compared to 2p-/CLL; p=0.02). The objective of our work was to identify the potential role of XPO1 in CLL drug resistance by using the selective XPO1 inhibitor Selinexor (KPT-330, provided by Karyopharm Therapeutics), which is currently in Phase II human clinical trials in hematological and solid cancers. Methods: We have analyzed 36 2p+/CLL and we have searched for XPO1 mutations in 436 CLL samples. CLL drug resistance associated to XPO1 overexpression/mutation was assessed by measuring the rate of programmed cell death (PCD) on cells from 2p- and wildtype (wt) XPO1/CLL (n=20), 2p+/XPO1 wt/CLL (n=8) and on XPO1 mut/CLL (n=6). After 24 hours treatment with Fludarabin + Cyclophosphamid + Rituximab (FCR), Ibrutinib (Ibru), Idelalisib + Rituximab (Ide+R) and Selinexor, cells were stained with Annexin-V and propidium iodide and PCD was assessed by flow cytometry. KPT-301 was used as a negative control. For the inhibition assay, the inhibitor Q-VD-Oph was added 30 min before inducing cell death. Mitochondrial membrane depolarisation was assessed using tetramethyllrhodamine ethyl ester probe and flow cytometry analysis. Results: (i) Using a FISH approach, we fully confirmed the gain of XPO1 in 2p+/CLL samples. Additionally, we found that the XPO1 gain was often subclonal, suggesting that it tends to arise late in leukemic development. Longitudinal FISH analyses, performed on 8 2p+/CLL-treated patients, showed a similar or increasing percentage of cells carrying XPO1 gain at relapse, when compared to diagnosis; (ii) XPO1 was mutated in 23/436 (5.3%) CLL and in 2/30 (6.7%) 2p+/CLL; (iii) Selinexor induced PCD in 2p-/XPO1 wt/CLL (35% of PCD). The results were similar in all tested CLL, independently of prognostic factors (del13q, tri12, del11q, del17p, IGHV status), while sparing the non leukemic cells from patients or B cells from healthy donors; (iv) Selinexor induced CLL PCD through a caspase-dependant apoptotic pathway, as evidenced by inhibition of cell death by Q-VD-Oph, and cleavage of the caspase-3. Selinexor also induced mitochondrial depolarization and was associated with upregulation and activation of the pro-apopototic Bax protein; (v) XPO1 mut/CLL were significantly resistant to PCD induced by Selinexor (p=0.003). In contrast, the mutations in XPO1 had no effect in FCR and Ibru PCD induction; (vi) 2p+/CLL cells were resistant to PCD induced by all tested drugs: FCR (p=0.01), Ibru (p=0.003), Ide+R (p=0.004) and Selinexor (p=0.0001). Conclusion: Our data show that 2p+/CLL is associated to FCR, Ibru and Ide+R drug resistance. Strikingly, Selinexor, a new XPO1 inhibitor, is unable to induce PCD in 2p+ and/or XPO1 mut CLL, which strongly suggests a key role for XPO1 in the CLL drug resistance associated to the 2p gain. Altogether, our work provide substantial progress in the understanding of the role of XPO1 in CLL drug resistance and suggests that the assessment of the 2p gain and the mutations in XPO1 will be considered before to decide a CLL therapy. As 2p gain could be observed in other B malignancies, it is tempting to extend these recommendations to all Selinexor treatments. Disclosures Choquet: Janssen: Consultancy; Roche: Consultancy. Leblond:Janssen: Consultancy, Honoraria, Speakers Bureau; GSK: Consultancy, Honoraria, Speakers Bureau; Gilead: Consultancy, Honoraria, Speakers Bureau; Roche: Consultancy, Honoraria, Other: Travel, Accommodations, Expenses, Speakers Bureau; Mundipharma: Honoraria.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V126.23.492.492

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2015

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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