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51. MYD88 and CXCR4 Mutation Rates by Allele-Specific PCR Compared with Diagnostic Next Generation Sequencing Panels in Patients with Waldenstrom’s Macroglobulinemia

Author

Maria Demos, Xia Liu, Nickolas Tsakmaklis, Christopher J. Patterson, Cristina Jimenez, Lian Xu, Manit Munshi, Maria Luisa Guerrera, Amanda Kofides, Jiaji Chen, Kirsten Meid, Steven P. Treon, Gloria Chan, Andrew Keezer, Zachary R. Hunter, Guang Yang, and Jorge J. Castillo

Subjects
Genetics, Cancer Research, Mutation rate, Oncology, business.industry, Medicine, Macroglobulinemia, In patient, Hematology, Variants of PCR, business, CXCR4, DNA sequencing
Published
2019

52. Distribution of circulating tumor cells in Waldenström’s Macroglobulinemia

Author

Manit Munshi, Cristina Jimenez, Maria Demos, Jorge J. Castillo, Jiaji Chen, Xia Liu, Kirsten Meid, Gloria Chan, Andrew Keezer, Amanda Kofides, Christopher J. Patterson, Maria Luisa Guerrera, Nickolas Tsakmaklis, Steven P. Treon, Lian Xu, Zachary R. Hunter, and Guang Yang

Subjects
Cancer Research, Pathology, medicine.medical_specialty, Circulating tumor cell, Oncology, business.industry, Distribution (pharmacology), Medicine, Macroglobulinemia, Hematology, business
Published
2019

53. Cell-Free DNA as Alternative to Bone Marrow CD19+ Selection for Diagnostic MYD88 L265P in Waldenstrom’s Macroglobulinemia

Author

Nickolas Tsakmaklis, Maria Luisa Guerrera, Jiaji Chen, Cristina Jimenez, Kirsten Meid, Maria Demos, Amanda Kofides, Manit Munshi, Xia Liu, Lian Xu, Steven P. Treon, Gloria Chan, Zachary R. Hunter, Andrew Keezer, Jorge J. Castillo, and Guang Yang

Subjects
Cancer Research, biology, business.industry, Macroglobulinemia, Hematology, CD19, MYD88 L265P, medicine.anatomical_structure, Oncology, Cell-free fetal DNA, Cancer research, medicine, biology.protein, Bone marrow, business, Selection (genetic algorithm)
Published
2019

54. Dysregulation of the B-Cell Receptor Pathway Through Alternative Splicing in Waldenstrom’s Macroglobulinemia

Author

Lian Xu, Maria Demos, Steven P. Treon, Jorge J. Castillo, Jiaji Chen, Amanda Kofides, Gloria Chan, Zachary R. Hunter, Xia Liu, Maria Luisa Guerrera, Guang Yang, Manit Munshi, Cristina Jimenez, and Nickolas Tsakmaklis

Subjects
Cancer Research, Oncology, business.industry, B-cell receptor, Alternative splicing, Cancer research, Medicine, Macroglobulinemia, Hematology, business
Published
2019

55. Insights into the Genomic Evolution of Ibrutinib Resistant Clones in Waldenström’s Macroglobulinemia

Author

Maria Demos, Xia Liu, Cristina Jimenez, Jiaji Chen, Nickolas Tsakmaklis, Ramón García-Sanz, Maria Luisa Guerrera, Adrian Wiestner, Amanda Kofides, Lian Xu, Manit Munshi, Gloria Chan, Steven P. Treon, Zachary R. Hunter, Guang Yang, and Jorge J. Castillo

Subjects
Cancer Research, chemistry.chemical_compound, Oncology, chemistry, business.industry, Ibrutinib, Cancer research, Macroglobulinemia, Medicine, Hematology, business
Published
2019

57. Impact of Chromosome 6q Deletions in Multiple Myeloma and Waldenström’s Macroglobulinemia by Next Generation RNA Sequencing

Author

Mehmet Kemal Samur, Yu-Tzu Tai, Amanda Kofides, Andrew Keezer, Gloria Chan, Jiaji Chen, Zachary R. Hunter, Nickolas Tsakmaklis, Jorge J. Castillo, Kirsten Meid, Cristina Jimenez, Manit Munshi, Lian Xu, Steven P. Treon, Mariateresa Fulciniti, Maria Luisa Guerrera, Nikhil C. Munshi, Maria Demos, Guang Yang, Christopher J. Patterson, and Xia Liu

Subjects
Genetics, Cancer Research, Oncology, business.industry, medicine, Macroglobulinemia, Chromosome, RNA, Hematology, medicine.disease, business, Multiple myeloma
Published
2019

58. Oncogenic activity of human MYD88L265P mutation in mature B-cells in vivo

Author

Maria Demos, Amanda Kofides, Meng Jiang, Ruben D. Carrasco, Nikhil C. Munshi, Keith Adler, Helen Tanton, Steven P. Treon, Zachary R. Hunter, Maria Luisa Guerrera, Guang Yang, and Tomasz Sewastianik

Subjects
Cancer Research, Oncology, In vivo, business.industry, Mutation (genetic algorithm), Medicine, Hematology, business, Molecular biology
Published
2019

59. Comprehensive Integration of Whole Genome, Transcriptome and Methylation Profiling Reveals Novel Gene Dysregulation Including IL15, SOCS6 and CARD11 Associated with MYD88 and CXCR4 Genotype Status in WM

Author

Lian Xu, Jorge J. Castillo, Maria Luisa Guerrera, Ari Melnick, Xia Liu, Cristina Jimenez, Jiaji G. Chen, Nickolas Tsakmaklis, Manit Munshi, Guang Yang, Maria Demos, Zachary R. Hunter, Amanda Kofides, Gloria Chan, and Steven P. Treon

Subjects
Sanger sequencing, Genetics, Immunology, Cell Biology, Hematology, Methylation, Biology, Biochemistry, Genome, Fold change, symbols.namesake, Reduced representation bisulfite sequencing, Genotype, symbols, Gene, Epigenomics
Abstract

Background: Waldenstrom's Macroglobulinemia/IgM lyphoplasmacytic lymphoma is a B-cell lymphoma defined by highly recurring mutations in MYD88 (95-97%) and CXCR4 (30-40%) by whole genome, PCR and Sanger sequencing (Treon et al NEJM 2012, Hunter et al Blood 2013, Xu et al, BJH 2016). Using next generation RNA sequencing studies (RNASeq) of these same group of patients, we subsequently observed that MYD88 and CXCR4 mutation status were the primary determinants of differential gene expression in WM (Hunter et al, Blood 2016). We have now integrated enhanced reduced representation bisulfite sequencing (ERRBS) data into the existing WGS and RNASeq data to present of more complete picture of genomic regulation in WM. Methods: CD19+ selected bone marrow samples from 54 patients with WM, and CD19- peripheral blood mononuclear samples were used for tumor and germline controls, respectively. WGS and RNASeq were conducted as previously described (Hunter et al, Blood 2014; 2016) and methylation profiling was conducted using ERRBS at the Weil Cornell Medical Epigenomics Core and analyzed using Bismark. Results were filtered for methylation sites supported by at least 10 reads across all of the samples. Differential methylation analysis was conducted at the individual site level and aggregated promoter level using an established edgeR protocol. Differential methylation data was then compared with Salmon derived gene and isoform expression data which was available for 49/54 (91%) of the samples. Results: Clinical characteristics of patients were as follows: Median age 60 (range 40-87 years); BM involvement 43% (range 4-95%); serum IgM 3590 (range 416-8320 ug/dl). Most patients (67%) were untreated. WGS data revealed 33 (61%), 18 (33%), and 3 (6%) were MYD88Mutant/CXCR4Wild-Type, MYD88Mutant/CXCR4Mutant and MYD88Wild-Type/CXCR4Wild-Type, respectively. As was observed in our RNASeq analysis, pairwise multidimensional scaling of the methylation status of the top 2,000 high variance promoters revealed segregation of the MYD88Mutant/CXCR4Wild-Type from both MYD88Mutant/CXCR4Mutant and MYD88Wild-Type/CXCR4Wild-Type (Figure 1A). Log fold change in methylation in differentially methylated promoters from MYD88Mutant/CXCR4Mutant and MYD88Wild-Type/CXCR4Wild-Type samples relative to MYD88Mutant/CXCR4Wild-Type were negatively correlated with log-fold change in gene expression (Rho = -0.463, p Conclusions: The studies provide the first comprehensive insights into epigenomic regulation of WM and show that MYD88 and CXCR4 mutation status drives methylation and confers a distinct transcriptomic profile that includes genes such as IL15, SOCS6, CARD11, HIF1A, and PIK3R5 with important pro-survival and immune regulatory roles. Disclosures Hunter: Pharmacyclics: Consultancy. Castillo:Abbvie: Consultancy, Research Funding; Beigene: Consultancy, Research Funding; Genentech: Consultancy; Janssen: Consultancy, Research Funding; Millennium: Research Funding; Pharmacyclics: Consultancy, Research Funding. Treon:Pharmacyclics: Consultancy, Other: Travel, Accommodations, Expenses, Research Funding; BMS: Research Funding; Johnson & Johnson: Consultancy; Janssen: Consultancy, Other: Travel, Accommodations, Expenses.

Published
2018

60. Genomic Analysis of Ibrutinib Resistance in Waldenstrom Macroglobulinemia

Author

Maria Demos, Guang Yang, Lian Xu, Jorge J. Castillo, Xia Liu, Maria Luisa Guerrera, Amanda Kofides, Zachary R. Hunter, Steven P. Treon, Nickolas Tsakmaklis, Gloria Chan, Manit Munshi, Jiaji G. Chen, Cristina Jimenez, and Joshua Gustine

Subjects
Mutation, education.field_of_study, biology, business.industry, Immunology, Population, Copy number analysis, Macroglobulinemia, Waldenstrom macroglobulinemia, Cell Biology, Hematology, medicine.disease, medicine.disease_cause, Biochemistry, chemistry.chemical_compound, chemistry, LYN, Ibrutinib, biology.protein, medicine, Cancer research, Bruton's tyrosine kinase, business, education
Abstract

Introduction: The Bruton tyrosine kinase (BTK) inhibitor ibrutinib is the first approved therapy for Waldenström's macroglobulinemia (WM), and is highly active in both treatment-naive and relapsing or refractory patients. Although ibrutinib is highly active in WM patients, disease progression can occur. Acquired mutations in BTK at the binding site of ibrutinib (Cys481), or in the protein immediately downstream of BTK, the phospholipase PLCG2, have been identified in half of progressing WM patients on ibrutinib (Xu et al, Blood 2017). However, not all ibrutinib resistant patients harbor these alterations, suggesting that there are other causes of disease progression on ibrutinib. The aim of this study was to identify alternative molecular mechanisms that can drive ibrutinib resistance. Patients and Methods: Five WM patients who progressed while on ibrutinib were studied. Tumor DNA samples at diagnosis, relapse, and germline DNA were available in three patients. For the remaining two, relapse and germline samples were sequenced. DNA was extracted from CD19-selected bone marrow mononuclear cells from patients. Non-CD19 cells from peripheral blood were used as germline controls. Samples were sequenced using whole exome sequencing. Data were analyzed following the Broad Institute's GATK Best Practice Guidelines. Small variants were analyzed using Strelka and MuTect2. Somatic structural variants were detected using Manta, and copy number alterations were called using Control-FREEC. Results: Copy number analysis identified deletions in chromosome 6q in all patients, becoming homozygous in two of them at relapse. In another patient, the homozygous deletion was already present at baseline in a third of the tumor population, and increased at relapse. No other recurrent copy number alterations were detected, though in two patients multiple deletions or gains involving large chromosomal regions were observed. Regarding small variants, relapse samples showed a high proportion of acquired mutations detected at relapse only (median 85%, range 79%-88%) compared to persistent mutations detected at both baseline and relapse (median 15%, range 12%-21%). Three out of the five patients harbored mutations in BTK (two with p.Cys481Ser in the kinase domain and the other a p.Thr62Asn in the PH domain). In patients with a BTK mutation, other alterations were observed in genes related to the B-cell receptor pathway including PLCG2 p.Y495H; CD79B p.D33Y; LYN p.A2Stop and LYN p.A139T. In patients without BTK mutations, we identified several mutations with a putative role in ibrutinib resistance that emerged at relapse including AIP4, an E3 protein-ubiquitin ligase whose substrates are CXCR4, LYN or SYK, in which a recurring p.A646S mutation was observed in two patients; RNF19B, an E3 protein-ubiquitin ligase involved in the cytolytic activity of natural killer cells and cytotoxic T-cells, in which a p.R30G mutation was observed in two patients; FCRL3, an Fc receptor-like 3 that differentially modulates innate immune signaling in B cells, in which a p.E694Q was observed in one patient; Mutations in the negative regulators of Toll-like receptors signaling were observed that included DOK2 p.Y345Stop, and TOLLIP p.M242R and p.R228H which were each observed once in separate patients. Mutant allele frequency clustering analysis by k-means reflected a linear pattern of evolution from baseline to relapse, in which most persistent alterations maintained the same allele frequency (median 18%), and acquired mutations were present in a small proportion of tumor cells (median 9.3%, p Conclusions: Our findings depict uniform deletion of 6q, including homozygous loss of 6q, which encompass key regulators of BTK, BCL2, and NFKB; as well as emergence of novel gene mutations, including recurring mutations in E3 ubiquitin ligases, innate immune signaling, and Toll receptor/MYD88 pathway regulators as significant genomic alterations that accompany disease progression on ibrutinib in WM patients. Disclosures Castillo: Genentech: Consultancy; Beigene: Consultancy, Research Funding; Pharmacyclics: Consultancy, Research Funding; Janssen: Consultancy, Research Funding; Millennium: Research Funding; Abbvie: Consultancy, Research Funding. Treon:Johnson & Johnson: Consultancy; BMS: Research Funding; Janssen: Consultancy, Other: Travel, Accommodations, Expenses; Pharmacyclics: Consultancy, Other: Travel, Accommodations, Expenses, Research Funding. Hunter:Pharmacyclics: Consultancy.

Published
2018

61. Alternative Mutations and Isoform Dysregulation in MYD88 in Waldenstrom's Macroglobulinemia

Author

Cristina Jimenez, Christopher J. Patterson, Manit Munshi, Lian Xu, Joshua Gustine, Xia Liu, Amanda Kofides, Jorge J. Castillo, Jiaji G. Chen, Maria Demos, Guang Yang, Steven P. Treon, Nickolas Tsakmaklis, Zachary R. Hunter, Maria Luisa Guerrera, and Gloria Chan

Subjects
Sanger sequencing, Genetics, Mutation, Immunology, Mutant, Wild type, Macroglobulinemia, Cell Biology, Hematology, Biology, medicine.disease_cause, Biochemistry, DNA sequencing, 03 medical and health sciences, symbols.namesake, Exon, 0302 clinical medicine, 030220 oncology & carcinogenesis, symbols, medicine, Variants of PCR, 030215 immunology
Abstract

Background Mutations in MYD88 are highly recurring in Waldenstrom's Macroglobulinemia (WM) patients and are important for establishing the diagnosis of WM. The most common mutation in MYD88 is c.978T>C resulting a proline substitution for leucine at amino acid position 265 (p.Leu265Pro). Both allele specific PCR (AS-PCR) and clinical diagnostic next generation sequencing (NGS) panels are used to detect mutated MYD88, though they differ in sensitivity and scope. In this study we screened 734 patients with WM by AS-PCR for MYD88 c.978T>C MYD88 followed by Sanger sequencing to clarify negative results for non-MYD88 p.Leu265Pro mutations and compared the findings to clinical NGS panel data from the same biopsy when available. We also investigated MYD88 isoform dysregulation and isoform specific effects of the observed mutations that may impact mutated MYD88 regulation which has not been previously studied in WM. Methods DNA from CD19-selected bone marrow mononuclear cells (BMMC) of 734 WM patients were used for the MYD88 c.978T>C AS-PCR assay previously described by us (Xu et al, Blood 2013). For patients wild-type for MYD88 c.978T>C by AS-PCR, Sanger sequencing of the open reading frame of MYD88 was performed for both DNA and RNA simultaneously isolated from CD19-selected BMMC. DNA was also used to validate the presence of c.978T>C by Sanger. Findings were compared to 222/734 (30.2%) patients who also underwent illumina miSeq based targeted next generation sequencing on a clinical diagnostic platform using unselected BMMC. NGS isoform specific expression estimates were calculated using Salmon for 77 WM patients and 34 healthy donors (Hunter et al, Blood 2016). Results 688/734 (93.7%) WM patients tested positive for the c.978T>C mutation. To confirm these results, Sanger sequencing at the DNA level covering the c.978T>C mutation was performed in 361/688 (52.5%) patients confirming the presence of the mutation in all cases. These Sanger studies revealed that one patient had two somatic mutations in addition to c.978T>C. Of the 46/734 (6.3%) that were wild-type by AS-PCR, 18 had cDNA available to screen for alternative MYD88 mutations. Of these, 13/18 (72.2%) were confirmed to be truly wild type for MYD88, and 5/18 (27.8%) harbored alternative MYD88 mutations making up 0.7% of the study population. Taken together 693/734 (94.4%) of patients were found to harbor somatic MYD88 mutations. Of the 222 patients form whom matching NGS panel data was available, the finding between the NGS and AS-PCR studies were largely concordant. The only discrepancies observed were 69 (31.1%) cases where targeted NGS gave false negative results for c.978T>C but was detected by AS-PCR. Of the four patients with alternative MYD88 mutations, one patient had a dinucleotide substitution that also resulted in p.Leu265Pro but tested as wild-type by AS-PCR, two patients each had one previously documented mutation (either pVal217Phe or p.Ser243Asn) and one patient had a mutation that was synonymous at the protein level (p.Phe277Phe). The patient with the two novel mutations in addition to c.978T>C had a mutation in the polypyrimidine track leading to the final exon and one resulting in p.Gly259Gly in the primary transcript but presents as a highly disruptive p.Val199Glu in the shorter regulatory isoforms. This is similar to c.978T>C which presents as p.L265P in the primary transcripts but acts as a stop loss in the shorter isoforms. We therefore looked for evidence of isoform level dysregulation in MYD88 using RNASeq and found highly significant and distinctive MYD88 isoform signatures for MYD88 mutant, MYD88 wild-type and healthy donor samples (Figure 1). Conclusions Using CD19-selected BMMC, MYD88 c.978T>C (p.Leu265Pro) was found in 93.7% of 734 patients, while non-c.978T>C mutations were present in Figure 1. Figure 1. Disclosures Castillo: Millennium: Research Funding; Janssen: Consultancy, Research Funding; Pharmacyclics: Consultancy, Research Funding; Abbvie: Consultancy, Research Funding; Genentech: Consultancy; Beigene: Consultancy, Research Funding. Treon:Johnson & Johnson: Consultancy; Janssen: Consultancy, Other: Travel, Accommodations, Expenses; BMS: Research Funding; Pharmacyclics: Consultancy, Other: Travel, Accommodations, Expenses, Research Funding. Hunter:Pharmacyclics: Consultancy.

Published
2018

62. MYD88 Triggered SYK Activation Promotes BCR Cross-Talk, and Identifies SYK As a Novel Therapeutic Target of Mutated MYD88 Signaling

Author

Zachary R. Hunter, Joshua Gustine, Jinhua Wang, Manit Munshi, Jiaji Chen, Nathanael S. Gray, Christopher J. Patterson, Lian Xu, Maria Luisa Guerrera, Nickolas Tsakmaklis, Steven P. Treon, Kirsten Meid, Xia Liu, Amanda Kofides, Gloria Chan, Maria Demos, Jorge J. Castillo, Sara J. Buhrlage, and Guang Yang

Subjects
Syk kinase, Mutation, Chemistry, Immunoprecipitation, Immunology, breakpoint cluster region, Syk, hemic and immune systems, Cell Biology, Hematology, medicine.disease_cause, Biochemistry, MYD88 gene, hemic and lymphatic diseases, medicine, Cancer research, Signal transduction
Abstract

Activating mutations in MYD88, a component of the Toll-receptor (TLR) pathway, trigger Myddosome self-assembly and multiple downstream pro-survival signaling through BTK and IRAK4/IRAK1 (Yang et al, Blood 2013). Activation of B-cell receptor (BCR) signaling has also been observed in WM, though the mechanism(s) remain to be clarified (Argyropoulos et al, Leukemia 2016). While activating mutations in the BCR components CD79A/B are common in MYD88 mutated ABC DLBCL, they are uncommon in WM (Ngo et al, Nature 2011; Hunter et al, Blood 2014). We therefore sought to clarify if TLR/MYD88 crosstalk could explain aberrant BCR signaling in WM. We performed PhosFlow analysis of MYD88 and BCR signaling components of MYD88 mutated and wild-type WM and ABC DLBCL cell lines. These studies showed high levels for expression of the BCR component p-SYK (Y525-526) in MYD88 mutated WM (BCWM.1, MWCL-1) and ABC DLBCL (TMD-8, HBL-1) cell lines versus MYD88 wild-type cell lines. High levels of p-SYK were also observed in primary MYD88 mutated WM cells compared to healthy donor peripheral blood B-cells. Following treatment with a MYD88 blocking peptide, p-SYK was robustly reduced in WM cell lines, while only modest reduction was observed in ABC DLBCL cell lines which also carry activating CD79B mutations. Use of MYD88 inhibitor also blocked the p-SYK in primary MYD88 mutated WM cells. Lentiviral over-expression of MYD88 L265P but not wild-type MYD88 or vector control augmented p-SYK expression in MYD88 mutated BCWM.1 WM cells, as well as MYD88 wild-type Ramos and OCI-Ly7 cells. Conversely, knockdown of MYD88 in BCWM.1 cells confirmed the dependence of p-SYK on mutated MYD88. p-SYK was also confirmed to be in complex with the Myddosome in BCWM.1 cells by co-immunoprecipitation (co-IP) using anti-MYD88 and anti-SYK/anti-p-SYK specific antibodies. Over-expression and knockdown studies of mutated MYD88 also showed an association of downstream p-STAT3 (Y705) signaling on MYD88 triggered p-SYK, a finding confirmed by use of SYK inhibitors which blocked p-STAT3 in a dose-dependent manner. CellTiter-Glo® viability assays showed the SYK inhibitors, R406 and Entospletinib (GS-9973), produced higher cytotoxicity in MYD88 mutated versus wild-type B-cell lines. (Figure 1A) Since BCR/SYK kinase triggers divergent signaling from TLR/BTK/IRAK pathways, we examined the combined effect of BTK and SYK inhibition. Combination index and normalized isobologram analysis demonstrated synergistic effects with the combination of ibrutinib with either R406 or Entospletinib in MYD88 mutated WM and ABC DLBCL cell lines (Figure 1B, 1C). The combination of ibrutinib with either R406 or Entospletinib also produced more robust tumor cell apoptosis in primary MYD88 mutated WM cells. Our findings show that MYD88 can cross-talk with BCR pathway through SYK tyrosine kinase, and trigger aberrant p-STAT3 signaling. The inhibition of both TLR/BTK and BCR/SYK activation by use of ibrutinib and SYK inhibitors produced synergistic tumor cell killing of MYD88 mutated WM and ABC DLBCL lymphomas, and provides a framework for clinical studies aimed at extinguishing aberrant MYD88 signaling. Disclosures Castillo: Millennium: Research Funding; Pharmacyclics: Consultancy, Research Funding; Janssen: Consultancy, Research Funding; Genentech: Consultancy; Beigene: Consultancy, Research Funding; Abbvie: Consultancy, Research Funding. Hunter:Pharmacyclics: Consultancy. Gray:Syros, Soltego, Petra, C4 Therapeutics: Equity Ownership. Treon:Pharmacyclics: Consultancy, Other: Travel, Accommodations, Expenses, Research Funding; BMS: Research Funding; Johnson & Johnson: Consultancy; Janssen: Consultancy, Other: Travel, Accommodations, Expenses.

Published
2018

63. Prevalence and clinical significance of the MYD88 (L265P) somatic mutation in Waldenström’s macroglobulinemia and related lymphoid neoplasms

Author

Marco Paulli, Sara Rattotti, Giorgio Alberto Croci, Alessandro Corso, Maria Luisa Guerrera, Marzia Varettoni, Mario Cazzola, Maurizio Bonfichi, Silvia Zibellini, Manuel Gotti, Ester Orlandi, Emanuela Boveri, Luca Arcaini, Roberta Riboni, Cristiana Pascutto, Valeria Fiaccadori, Silvia Mangiacavalli, and Lucia Morello

Subjects
Adult, Male, medicine.medical_specialty, Lymphoma, Proline, Immunology, Mutation, Missense, Lymphoproliferative disorders, Monoclonal Gammopathy of Undetermined Significance, Biochemistry, Gastroenterology, Germline mutation, Leucine, Internal medicine, Prevalence, medicine, Humans, Clinical significance, Splenic marginal zone lymphoma, Aged, Aged, 80 and over, business.industry, Case-control study, Macroglobulinemia, Cell Biology, Hematology, Odds ratio, Middle Aged, medicine.disease, Lymphoproliferative Disorders, IgM Monoclonal Gammopathy, Amino Acid Substitution, Immunoglobulin M, Case-Control Studies, Myeloid Differentiation Factor 88, Female, Waldenstrom Macroglobulinemia, business
Abstract

A study has shown that MYD88 (L265P) is a recurring somatic mutation in Waldenstrom's macroglobulinemia (WM). We developed an allele-specific polymerase chain reaction (PCR) for this mutation, and analyzed bone marrow or peripheral blood samples from 58 patients with WM, 77 with IgM monoclonal gammopathy of undetermined significance (IgM-MGUS), 84 with splenic marginal zone lymphoma (SMZL), and 52 with B-cell chronic lymphoproliferative disorders (B-CLPD). MYD88 (L265P) was detected in 58/58 (100%) patients with WM, 36/77 (47%) with IgM-MGUS, 5/84 (6%) with SMZL, and 3/52 (4%) with B-CLPD. Compared to IgM-MGUS patients with wild-type MYD88, those carrying MYD88 (L265P) showed significantly higher levels of IgM (P < .0001) and presented Bence-Jones proteinuria more frequently at diagnosis (P = .002). During follow-up, 9 patients with IgM-MGUS progressed to WM or to marginal zone lymphoma. Using a case-control approach, the risk of evolution of patients carrying MYD88 (L265P) was significantly higher than that of patients with wild-type MYD88 (odds ratio 4.7, 95% confidence interval 0.8 to 48.7, P = .047). These findings indicate that the allele-specific PCR we developed is a useful diagnostic tool for patients with WM or IgM-MGUS. In this latter condition, MYD88 (L265P) is associated with greater disease burden and higher risk of disease progression, and the mutation may therefore also represent a useful prognostic marker.

Published
2013

64. BTKCys481Ser Mutation Drives Ibrutinib Resistance through ERK1/2 Hyperactivation, and Can Confer a Protective Effect on Bystander Waldenstrom's Macroglobulinemia and ABC DLBCL Cells through Paracrine Mediated Pro-Survival Signaling

Author

Gloria Chan, Lian Xu, Zachary R. Hunter, Xia Liu, Christopher J. Patterson, Nickolas Tsakmaklis, Jiaji Chen, Joshua Gustine, Amanda Kofides, Guang Yang, Maria Luisa Guerrera, Jorge J. Castillo, Steven P. Treon, Maria Demos, and Manit Munshi

Subjects
biology, business.industry, medicine.medical_treatment, Immunology, Macroglobulinemia, Waldenstrom macroglobulinemia, Cell Biology, Hematology, medicine.disease, Biochemistry, Interleukin 10, chemistry.chemical_compound, Cytokine, chemistry, hemic and lymphatic diseases, Ibrutinib, Cancer research, medicine, biology.protein, Bruton's tyrosine kinase, CXCL13, business, Diffuse large B-cell lymphoma
Abstract

Activating mutations in MYD88 promote NF-kB survival signaling in WM and ABC DLBCL cells through BTK and HCK, both targets of ibrutinib (Yang et al, Blood 2013; 2016). These findings likely explain the high rates of response observed in MYD88 mutated WM and ABC DLBCL patients (Treon et al, NEJM 2015; Wilson et al, Nature Med 2015). Resistance to ibrutinib is increasingly being recognized with prolonged therapy in patients with various B-cell malignancies. Mutations at the BTKCys481 site are observed in half of WM patients with disease progression following initial response (Xu et al, Blood 2017), and are also associated with clinical resistance in patients with CLL and MCL. However, in many WM and CLL cases, BTKCys481 mutations are subclonal and their relevance to clinical disease progression remains unclear. Moreover, the signaling mechanisms that promote ibrutinib resistance remain to be clarified. We therefore performed lentiviral transduction studies in MYD88 mutated WM (BCWM.1, MWCL-1) and ABC DLBCL (TMD-8, HBL-1) cells with vector alone, wild-type BTK (BTKWT), and the BTK variant most frequently observed in ibrutinib resistant WM and CLL cases (BTKCys481Ser). BTKCys481Ser but not BTKWT or vector only transduced WM and ABC DLBCL cells uniformly demonstrated persistent BTK and PLCγ2 activation in the presence of ibrutinib (100, 500 nM), along with a 1-3 log fold increase in EC50 to ibrutinib. Western blot analysis showed persistent BTK signaling in BTKCys481Ser expressing cells that was accompanied by ERK1/2 hyperactivation. Use of highly selective and potent ERK1/2 inhibitors (ulixertinib, GDC-0994) induced apoptosis of BTKCys481Ser expressing WM and ABC DLBCL cells, and showed synergistic tumor cell killing with ibrutinib by CellTiter-Glo® Luminescent Cell Viability Assays using Calcasyn, as well as enhanced apoptosis by Annexin V staining. Using a multiplex cytokine assay and confirmed by TaqMan® quantitative RT-PCR assay for cytokine mRNA levels, we identified that ERK1/2 activation in ibrutinib treated BTKCys481Ser WM and ABC DLBCL cells was accompanied by persistent release of pro-inflammatory and growth enhancing cytokines including CXCL13, IL-2R, IL-6, IL-10, IL-12p40, and TNF-a that was blocked by ulixertinib. In contrast, ibrutinib blocked their release in BTKWT WM and ABC DLBCL cells. We next sought to clarify if cytokine release by ibrutinib treated BTKCys481Ser WM and ABC DLBCL could impact survival of bystander tumor cells. We performed experiments using a Transwell system in which BTKCys481Ser or BTKWT transduced WM or ABC DLBCL cells were co-cultured with their native counterpart cells in the presence or absence of ibrutinib (Figures 1A, B). These studies showed that native WM or ABC DLBCL cells were rescued in the presence of ibrutinib when co-cultured with their BTKCys481Ser but not BTKWT transduced counterparts. Finally, use of IL-6 and IL-10 blocking antibodies abolished the protective effect on native tumor cells conferred by co-culture with BTKCys481Ser expressing cells in the presence of ibrutinib (Figures 1C, D). Our findings show that BTKCys481Ser mutation drives ibrutinib resistance through hyperactivation of ERK1/2, and that paracrine mediated ERK1/2 dependent pro-survival signaling by BTKCys481Ser expressing cells can confer a protective effect on bystander Waldenstrom's Macroglobulinemia and ABC DLBCL cells in the presence of ibrutinib. Figure 1 Figure 1. Disclosures Castillo: Janssen: Consultancy, Research Funding; Abbvie: Research Funding; Pharmacyclics: Consultancy, Research Funding; Millennium: Research Funding. Treon: Pharmacyclics: Consultancy, Research Funding.

Published
2017

65. Outcome of Transformed Marginal Zone Lymphomas Treated in the Rituximab Era

Author

Vittorio Ruggero Zilioli, Paola Picardi, Marco Frigeni, Roberto Cairoli, Marco Paulli, Anna Maria Frustaci, Periana Minga, Lara Crucitti, Michele Nichelatti, Sara Rattotti, Roberta Sciarra, Luca Arcaini, Erika Meli, Michelle Zancanella, Manuel Gotti, Alessandra Tedeschi, Chiara Rusconi, Maria Luisa Guerrera, Rusconi, C, Guerrera, M, Tedeschi, A, Zancanella, M, Gotti, M, Nichelatti, M, Rattotti, S, Crucitti, L, Frigeni, M, Meli, E, Picardi, P, Frustaci, A, Sciarra, R, Zilioli, V, Minga, P, Paulli, M, Cairoli, R, and Arcaini, L

Subjects
medicine.medical_specialty, education.field_of_study, business.industry, hematology, Standard treatment, Immunology, Population, Aggressive lymphoma, Cell Biology, medicine.disease, Biochemistry, Gastroenterology, Surgery, B symptoms, Internal medicine, medicine, Marginal zone B-cell lymphoma, Rituximab, medicine.symptom, business, education, Mucosa-associated lymphoid tissue, Progressive disease, medicine.drug
Abstract

Introduction: Transformation of Marginal Zone Lymphoma (MZL) into an aggressive histology is uncommon phenomenon that can occur at any time after diagnosis and is expected to have a detrimental impact on prognosis. Biological and clinical knowledge on transformed Marginal Zone Lymphoma (tMZL) is poor and no standard treatment is established in the Rituximab era for these patients (pts). We retrospectively analyzed all consecutive biopsy proven tMZL in two Italian Hematological Divisions from 2002 to 2014 and we focused on post-transformation treatment and outcome. Methods: The dataset included 378 MZL pts diagnosed between 2002 and 2014 at Division of Hematology in Pavia and in Milan (Niguarda Hospital): 204 pts (53.9%) by extranodal MALT lymphomas, 113 pts (29.8%) by splenic MZL, and 61 pts (16.3%) by nodal MZL. Histological transformation (HT) was defined as transformation into an aggressive lymphoma at any time from previous MZL diagnosis; only cases with biopsy confirmed HT were comprised in the present analysis, while cases with only clinical suspicion of transformation were not counted as tMZL. Results: HT was documented in 18 of the 378 pts (4.8%), 6.5% in nodal MZL, 7.0% in splenic MZL and 2.9% in MALT. Histology at transformation was Diffuse Large B-Cell lymphoma in all but one case; the remaining pt was diagnosed as high-grade B-cell lymphoma, unclassifiable. CD20 was negative only in one Rituximab-naïve pt. Median time from first diagnosis to HT was 31 months (range: 10-124) and median number of previous therapies was 1 (range 0-1); pts received first line therapy listed in table 1. Median age at transformation was 68 years (range: 46-85), M/F ratio was 0.8. In the tMZL population, first diagnosis was nodal MZL in 4 pts (22%), splenic MZL in 8 pts (45%) and MALT in 6 pts (33%). At first diagnosis of MZL, 72% of t-MZL pts had stage IV disease, 17% had B symptoms, 11% had elevated LDH and ECOG performance status was lower than 2 in all the cases. HCV serology was positive in 5/17 cases; HCV status was not available for one pt. At HT disease stage was III or IV in 14 pts (78%), B symptoms were present in 7 pts (39%), LDH and beta2microglobulin were both elevated in 7 pts (39%) and ECOG performance status was lower than 2 in all the cases. Pts received post-HT treatment listed in table 2. At time of analysis 6 pts died (33%), and the main cause of death was progressive disease. With a median post-transformation follow-up of 16.6 months (range: 2-98), the 2-years Progression-Free Survival (PFS) was 45,4 % and the 2-years Overall Survival (OS) was 56.75%. No correlation was found between the following characteristics and survival: MZL type at first diagnosis, stage, symptoms, LDH and ECOG at HT, number and types of pre-HT therapies. Conclusions: This large cohort confirms that HT is a relatively rare and early event in MZL. At present time, we did not identify any feature predictive of outcome for transformed MZL. Chemotherapy in combination with Rituximab showed to be an effective treatment for tMZL. Table 1 First line treatment N. of patients % Therapy strategy CVP 7 39 Anthracycline-containing regimen 2 11 Chlorambucil monotherapy 5 28 Splenectomy 1 5.5 H.pylori eradication 1 5.5 Watch and wait strategy 2 11 Rituximab incorporation Included in first line therapy 6 33 Maintenance 0 0 Response ORR (%) 67 CRR (%) 33 Table 2. Post-HT treatment N. of patients % Therapy strategy CHOP regimen 16 89 Platinum-containing regimen 1 5.5 Missing 1 5.5 Rituximab incorporation Included in first line therapy 17 94 Maintenance 0 0 ASCT consolidation 3 17 Response ORR (%) 61 CRR (%) 59 Disclosures Rusconi: Roche: Honoraria.

Published
2015

66. Efficacy and Toxicity of Nucleoside Analogs in Patients with Hairy Cell Leukemia Treated Outside Clinical Trials

Author

Maria Luisa Guerrera, Virginia Valeria Ferretti, Sara Rattotti, Roberto Cairoli, Anna Maria Frustaci, Mario Cazzola, Alessandra Tedeschi, Marzia Varettoni, Luca Arcaini, Silvia Zibellini, Paola Picardi, Guerrera, M, Varettoni, M, Tedeschi, A, Frustaci, A, Ferretti, V, Arcaini, L, Picardi, P, Zibellini, S, Rattotti, S, Cairoli, R, and Cazzola, M

Subjects
medicine.medical_specialty, business.industry, Immunology, Cell Biology, Hematology, Neutropenia, medicine.disease, Biochemistry, Gastroenterology, Minimal residual disease, Helsinki declaration, Surgery, Internal medicine, medicine, Pentostatin, Hairy cell leukemia, business, Cladribine, Diffuse large B-cell lymphoma, Febrile neutropenia, medicine.drug
Abstract

INTRODUCTION. Hairy cell leukemia (HCL) is a rare indolent B-cell malignancy, mainly characterized by peripheral cytopenias and splenomegaly. The current standard of treatment for HCL are Nucleoside Analogs (NA) cladribine and pentostatin, which produce remarkably high remission rates and durable responses. Aim of this study was to evaluate efficacy, short- and long-term toxicity of NA in HCL pts treated outside clinical trials. PATIENTS AND METHODS. We retrospectively analyzed 86 HCL patients (pts) treated with NA between 1996 and 2015 in two Hematologic Centers in Italy. The study was conducted in accordance to the Helsinki Declaration of 1964, as revised in 2000. Cladribine and pentostatin were administered according to standard schedules. Response criteria published by Jones et al. (Br J Haematol 2012) were retrospectively applied. Molecular assessment of BRAF-V600E mutation before and after NA therapy using quantitative real-time polymerase chain reaction (qRT-PCR)-based allelic discrimination assay (sensitivity 0.1%) was performed in 10 pts. RESULTS. The median follow-up of pts (71 males and 15 females, median age 53 years) was 5.8 years (range 0.5-28). During the disease course, 86 pts were treated with NA (cladribine n=76, 88%; pentostatin n=10, 12%); 59 pts received NA front-line (cladribine in 56/59 pts, 95%). Among the other 27 pts, receiving NA as second or subsequent line of therapy, 25 had been previously treated with interferon. Median time from diagnosis to the first NA was 3.3 months (range 0-315). Hematological toxicity was observed in 53 of 77 evaluable pts (69%), and was not significantly different with cladribine (72%) or with pentostatin (37%) (p=0.1). Grade 3-4 neutropenia, anemia and thrombocytopenia were observed in 50 (65%), 7 (9%) and 7 (9%) pts respectively. Extra-hematological toxicity was reported in 48 of 79 evaluable pts (61%). The incidence of extra-hematological toxicity with cladribine (63%) and pentostatin (37%) was not statistically different (p=0.2). Grade 3-4 febrile neutropenia was observed in 24 pts (30%); 9 pts (11%) had grade 3-4 infections; 4 pts (5%) had grade 3-4 skin toxicity, 1 pt (1%) had grade 3 hepatic toxicity. Four of 86 pts (5%) developed a second malignancy (prostatic adenocarcinoma n=2, colon adenocarcinoma n=1, diffuse large B cell lymphoma n=1). The median time from NA to second malignancy was 58 months (range 49-111). Four of 86 pts (5%) developed a skin cancer (basal-cell carcinoma n=3, squamous cell carcinoma n=1), after a median time of 59 months (range 16-126). Response was assessed at a median time of 3 months after the end of therapy. Overall Response Rate (ORR) and Complete Remission (CR) Rate were respectively 93% and 63% in the entire cohort, and 98% and 72% in pts treated with NA front-line. The allelic burden of BRAF before and after therapy with NA was available in 10 cases; none of the pts in clinical CR after NA achieved a complete molecular response (Table 1). The median Progression-Free Survival (PFS) for pts treated with NA frontline was 6.5 years. There was a trend toward a longer PFS in pts receiving NA as first-line therapy as compared to those treated in second or subsequent lines (p=0.05). PFS curves according to type of NA and line of therapy are shown in Figure 1. The 5- and 10-year Overall Survival (OS) rates were 96% (95% CI: 85% - 99%) and 90% (95% CI 76%-96%) respectively. OS was similar in pts treated with cladribine orpentostatin (p=0.49). CONCLUSIONS. This study shows that: i) NA are associated with an acceptable toxicity, neutropenia and febrile neutropenia being the main complications of therapy; ii) timing of response assessment may account for a CR rate that is slightly lower than reported in the literature, confirming the importance of waiting at least 4 months for response evaluation as recommended by current guidelines; iii) the persistence of molecular disease also in pts achieving a clinical CR supports the implementation of consolidation strategies aimed at eradicating minimal residual disease to prolong disease-free survival. Table 1. BRAF allelic burden before and after therapy Patient Age (years) Sex Line of Therapy Allelic Burden (%) Clinical Response Pre- Post- 1 33 F 1 21,8 0,1 CR 2 36 M 2 5,4 0,4 CR 3 39 M 1 24,2 0,7 CR 4 54 M 1 10,8 0,3 PR 5 42 F 1 44 1,2 CR 6 53 F 1 7,9 0,2 NV 7 56 M 1 6,5 0,3 CR 8 54 M 1 12,2 0,2 CR 9 32 M 1 35,8 9,5 PR 10 38 M 2 54,4 12,2 PR Figure 1. Progression-free survival according to type of NA and line of therapy Figure 1. Progression-free survival according to type of NA and line of therapy Disclosures Arcaini: Gilead: Consultancy, Other: Advisory Board; Celgene: Consultancy, Other: Advisory Board; Roche: Consultancy, Other: Advisory Board.

Published
2015

67. The BRAF V600E mutation in hairy cell leukemia and other mature B-cell neoplasms

Author

Maria Luisa Guerrera, Michele Merli, Chiara Cavalloni, Silvia Rizzi, Emanuela Boveri, Marzia Varettoni, Marco Paulli, Matteo Claudio Da Via, Annamaria Tenore, Lucia Morello, Marco Lucioni, Roberta Riboni, Luca Arcaini, Sara Rattotti, Silvia Zibellini, and Mario Cazzola

Subjects
Adult, Male, Proto-Oncogene Proteins B-raf, Lymphoma, B-Cell, Immunology, Lymphoproliferative disorders, Biology, Biochemistry, Polymerase Chain Reaction, medicine, Leukemia, B-Cell, Humans, Point Mutation, Hairy cell leukemia, Splenic marginal zone lymphoma, Leukemia, Hairy Cell, Waldenstrom macroglobulinemia, Cell Biology, Hematology, DNA, Neoplasm, Exons, Middle Aged, medicine.disease, Lymphoma, Leukemia, Mutation (genetic algorithm), Cancer research, Female, V600E
Abstract

The somatically acquired V600E mutation of the BRAF gene has been recently described as a molecular marker of hairy cell leukemia (HCL). We developed an allele-specific PCR for this mutation and studied 62 patients with HCL, 1 with HCL variant, 91 with splenic marginal zone lymphoma, 29 with Waldenström macroglobulinemia, and 57 with B-cell chronic lymphoproliferative disorders. The BRAF V600E mutation was detected in all HCL cases and in only 2 of the remaining 178 patients. These 2 subjects had B-cell chronic lymphoproliferative disorders that did not fulfill the diagnostic criteria for HCL. Despite the positive PCR finding, the mutation could not be detected by Sanger sequencing in these 2 cases, suggesting that it was associated with a small subclone. We conclude that the BRAF V600E mutation is present in all patients with HCL and that, in combination with clinical and morphologic features, represents a reliable molecular marker for this condition.

Published
2011

68. The BRAF V600E Mutation in Hairy Cell Leukemia and Other Mature B-Cell Neoplasms

Author

Luca Arcaini, Silvia Zibellini, Emanuela Boveri, Roberta Riboni, Sara Rattotti, Marzia Varettoni, Maria Luisa Guerrera, Marco Lucioni, Annamaria Tenore, Michele Merli, Silvia Rizzi, Lucia Morello, Chiara Cavalloni, Marco Paulli, and Mario Cazzola

Subjects
Immunology, Cell Biology, Hematology, Biochemistry
Abstract

Abstract 262 Hairy cell leukemia (HCL) is an indolent neoplasm of small mature B-lymphoid cells, which are found in peripheral blood and bone marrow (BM), and are characterized by hairy projections of their abundant cytoplasm. In clinical practice, HCL needs to be differentiated from similar indolent lymphoid neoplasms. In a study based on massively parallel sequencing of the whole exome of leukemic and matched normal cells from a HCL patient and subsequent targeted resequencing in additional patients, Tiacci et al (N Engl J Med. 2011 Jun 16;364:2305–15) have recently identified the BRAF V600E mutation as a genetic alteration associated with this disease. This somatic mutation was previously detected in diverse human cancers, with a particularly high frequency in melanoma (Nature. 2002 Jun 27;417:949–54; N Engl J Med. 2005 Nov 17;353:2135–47). In order to develop a reliable molecular diagnostic tool and verify its sensitivity and specificity in the diagnosis of HCL, we developed an allele-specific PCR for the BRAF V600E mutation, and searched for this molecular lesion in a series of 239 patients with mature B-cell lymphoid neoplasms. The study population included 62 patients with HCL, 91 with splenic marginal zone lymphoma (SMZL), 29 with Waldenström macroglobulinemia (WM), and 57 with B-cell chronic lymphoproliferative disorders (B-CLPD). Genomic DNA was extracted from bone marrow (BM) biopsies in 61 cases of HCL, from BM in 90 patients with diverse lymphoid neoplasms (33 SMZL, 29 WM, 28 B-CLPD), and from peripheral blood (PB) in the remaining 88 patients (1 HCL, 58 SMZL, 29 B-CLPD). The BRAF V600E mutation was detected in all patients with HCL (62/62) and in none of those with SMZL or WM. Two of the 57 patients with B-CLPD carried the mutation, and their clinical features are as follows. Case #1. This 41 year-old woman presented in November 2008 with asymptomatic lymphocytosis, without any evidence of lymphadenopathy, splenomegaly or hepatomegaly. Laboratory data showed: Hb 12.9 g/dL, WBC count 16 × 109/L (62% lymphoid cells), and PLT count 283 × 109/L. On BM biopsy, an interstitial lymphoid infiltrate (60% of the whole cellularity) composed by small, lymphocyte/centrocyte-like cells was found. By immunohistochemistry, neoplastic cells showed expression of CD20, CD79a and cyclin-D1, but were uniformly negative for CD5, CD10, CD23, CD25 and DBA44, and annexin A1. At flow cytometry analysis, they were CD20 and FMC7 positive and CD10, CD38, CD5, CD23, CD11c, CD25, DBA44 and CD103 negative. FISH for t(11;14), performed for cyclin D1 expression, was negative. Immunoglobulin rearrangement was IGHV3-48*02, IGHD7-27*01 IGHJ4*02. So far, lymphocytosis has remained stable and the patient is regularly followed without any need for treatment. Case #2. This 62 year-old male presented in 2006 with thrombocytopenia and splenomegaly, and was diagnosed with HCL was established in another hospital (no additional data are available). He was treated with cladribine with a partial response. In May 2008, we evaluated this patient in Pavia. The spleen was palpable 3 cm under the costal margin, and laboratory data showed: Hb 15.4 g/dL, WBC count 3.9 × 109/L, and PLT vount 95 × 109/L. BM biopsy showed a 20% lymphoid infiltrate with interstitial and sinusoidal pattern, composed by small to medium sized cells with evident nucleoli, resembling pro-lymphocytes. By immunohistochemistry, cells were positive for CD20 and negative for CD5, CD23, cyclin-D1, CD25, DBA44, and annexin A1. Flow cytometry demonstrated the expression of CD20, FMC7 and CD11c, partial expression (25%) of CD103, and negativity for CD5, CD10, CD38, CD23, DBA44, CD11c and CD25. This patient was asymptomatic and a watch-and wait-policy was adopted. These findings indicate that the allele-specific PCR we developed is able to detect the mutation in the bone marrow of all patients with HCL, and confirm that the BRAF V600E mutation is highly specific for HCL within mature B-cell neoplasms. Only 2/177 (1.1%) patients with lymphoid neoplasms other than HCL (2/57 or 3.5% of patients with B-CLPD) were positive for BRAF V600E. This is in agreement with a previous study that found BRAF mutations in 2.4% of patients with non-Hodgkin's lymphoma (Br J Cancer. 2003 Nov 17;89:1958–60). The detection of the BRAF V600E mutation in the clone (or, at least, in a subclone) of mature B-cell lymphoid neoplasms without typical HCL features might help to define their biology. Disclosures: No relevant conflicts of interest to declare.

69. THE NOTCH PATHWAY IS RECURRENTLY MUTATED IN DIFFUSE LARGE B CELL LYMPHOMA ASSOCIATED WITH HEPATITIS C VIRUS INFECTION

Author

Marco Lucioni, Davide Rossi, Maria Luisa Guerrera, Virginia Valeria Ferretti, Marta Nicola, Roberta Sciarra, Aldo Maffi, Sara Rattotti, Valeria Fiaccadori, Roberta Riboni, Manuel Gotti, Marco Paulli, Mariarosa Arra, Alessio Bruscaggin, Michele Merli, Marzia Varettoni, Stefania Cresta, Maurizio Bonfichi, Gianluca Gaidano, Mario Cazzola, Antonio Ramponi, Gloria Margiotta Casaluci, Luca Arcaini, and Lucia Morello

Subjects
Adult, Male, Pathology, medicine.medical_specialty, Hepacivirus, Hepatitis C virus, Notch signaling pathway, medicine.disease_cause, Polymerase Chain Reaction, hemic and lymphatic diseases, Biomarkers, Tumor, medicine, Humans, Receptor, Notch2, Splenic marginal zone lymphoma, Receptor, Notch1, Aged, Aged, 80 and over, Homeodomain Proteins, biology, Nuclear Proteins, RNA-Binding Proteins, Articles, Hematology, Hepatitis C, Middle Aged, Prognosis, Marginal zone, medicine.disease, biology.organism_classification, Lymphoma, DNA-Binding Proteins, Survival Rate, Mutation, Cancer research, Female, Lymphoma, Large B-Cell, Diffuse, Neoplasm Grading, Neoplasm Recurrence, Local, Diffuse large B-cell lymphoma, Follow-Up Studies
Abstract

Hepatitis C virus has been found to be associated with B-cell non-Hodgkin lymphomas, mostly marginal zone lymphomas and diffuse large B-cell lymphoma. Deregulation of signaling pathways involved in normal marginal zone development (NOTCH pathway, NF-κB, and BCR signaling) has been demonstrated in splenic marginal zone lymphoma. We studied mutations of NOTCH pathway signaling in 46 patients with hepatitis C virus-positive diffuse large B-cell lymphoma and in 64 patients with diffuse large B-cell lymphoma unrelated to HCV. NOTCH2 mutations were detected in 9 of 46 (20%) hepatitis C virus-positive patients, and NOTCH1 mutations in 2 of 46 (4%). By contrast, only one of 64 HCV-negative patients had a NOTCH1 or NOTCH2 mutation. The frequency of the NOTCH pathway lesions was significantly higher in hepatitis C virus-positive patients (P=0.002). The 5-year overall survival was 27% (95%CI: 5%–56%) for hepatitis C virus-positive diffuse large B-cell lymphoma patients carrying a NOTCH pathway mutation versus 62% (95%CI: 42%–77%) for those without these genetic lesions. By univariate analysis, age over 60 years, NOTCH2 mutation, and any mutation of the NOTCH pathway (NOTCH2, NOTCH1, SPEN) were associated with shorter overall survival. Mutation of the NOTCH pathway retained an independent significance (P=0.029). In conclusion, a subset of patients with hepatitis C virus-positive diffuse large B-cell lymphoma displays a molecular signature of splenic marginal zone and has a worse clinical outcome.

70. Prevalence and Clinical Significance of the MYD88 (L265P) Somatic Mutation in Patients with Waldenstrom Macroglobulinemia, IgM-Monoclonal Gammopathy of Undetermined Significance or Other Mature B-Cell Neoplasms

Author

Silvia Zibellini, Ester Orlandi, Giorgio Alberto Croci, Marzia Varettoni, Alessandro Corso, Lucia Morello, Maurizio Bonfichi, Emanuela Boveri, Luca Arcaini, Maria Luisa Guerrera, Valeria Fiaccadori, Silvia Mangiacavalli, Manuel Gotti, Mario Cazzola, Roberta Riboni, Cristiana Pascutto, Marco Paulli, and Sara Rattotti

Subjects
Pathology, medicine.medical_specialty, business.industry, Immunology, Lymphoproliferative disorders, Waldenstrom macroglobulinemia, Cell Biology, Hematology, medicine.disease, Biochemistry, Lymphoplasmacytic Lymphoma, IgM Monoclonal Gammopathy, Germline mutation, medicine.anatomical_structure, Medicine, Marginal zone B-cell lymphoma, Bone marrow, Splenic marginal zone lymphoma, business
Abstract

Abstract 2667 Waldenström Macroglobulinemia (WM) is a B-cell lymphoproliferative disorder characterized by bone marrow infiltration by lymphoplasmacytic lymphoma associated with a monoclonal component of IgM type in the serum. WM is often preceded by an IgM monoclonal gammopathy of undetermined significance (IgM-MGUS). The cumulative probability of progression of IgM-MGUS to WM or to other lymphoproliferative disorders is approximately 1.5% per year. Other mature B-cell neoplasms such as splenic marginal zone lymphoma (SMZL) and B-cell chronic lymphoproliferative disorders (B-CLPD) can carry an IgM monoclonal component and should therefore be considered in differential diagnosis with WM. In a study based on parallel sequencing of the whole genome of lymphoplasmacytic cells and paired normal tissue from WM patients, Treon et al (Blood. 2011;118:Abstract 300) have identified a highly recurrent somatic mutation with oncogenic activity in the myeloid differentiation primary response (MYD88) gene, leading to a change from leucine to proline at position 265 of the aminoacid sequence [MYD88 (L265P)]. Targeted Sanger resequencing showed MYD88 (L265P) in 90% of WM patients, but only in a minority of patients with IgM-MGUS or other mature B-cell neoplasms such as SMZL. We developed an allele-specific PCR for the MYD88 (L265P) mutation, and studied 58 patients with WM, 77 with IgM-MGUS, 84 with splenic marginal zone lymphoma (SMZL) and 52 with B-cell chronic lymphoproliferative disorders (B-CLPD). DNA was obtained from bone marrow cells (n=204) and peripheral blood (n=67). The aims of this study were: i) to assess the prevalence of the mutation in WM, IgM-MGUS, SMZL, and B-CLPD; ii) to analyze the relationship between MYD88 (L265P) mutation and clinical phenotype; iii) to evaluate the impact of the mutation on the risk of progression from IgM-MGUS WM or other lymphoproliferative disorders. The MYD88 (L265P) mutation was detected in 58/58 (100%) patients with WM, either asymptomatic (n=39) or symptomatic (n=18), and in 36/77 (47%) patients with IgM-MGUS. In addition, it was detected in 5/84 (6%) patients with SMZL and in 3/52 (6%) with B-CLPD; of these MYD88 (L265P)-positive subjects, 4 SMZL and 2 B-CLPD patients carried a serum IgM monoclonal component, while the remaining B-CLPD patient carried a double (IgM and IgG) monoclonal component. Compared with IgM-MGUS patients with wild-type MYD88, those carrying MYD88 (L265P) had significantly higher levels of IgM (P In conclusion, the findings of this study indicate that: i) the allele-specific PCR we developed is able to detect the MYD88 (L265P) mutation in all patients with WM and in nearly half the patients with IgM-MGUS, and therefore represents a useful diagnostic tool; ii) MYD88 (L265P) is an uncommon molecular lesion in SMZL and in B-CLPD, but is associated with an IgM monoclonal component in the few positive patients, suggesting that some cases of B-CLPD might be included in the spectrum of WM; iii) in IgM-MGUS, the mutation is associated with greater disease burden and higher risk of disease progression, and therefore represents a useful prognostic marker. Disclosures: No relevant conflicts of interest to declare.

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