Background: CEBPA-mutated acute myeloid leukemia (AML) is a separate entity in the updated WHO and ICC classifications. Previously identified by double mutations, the clinical profile and favorable ...outcome were correlated with in-frame mutations in bZIP domain. Beyond mutations recurrent in myeloid neoplasms (involving TET2, FLT3, NRAS), CEBPA-mutated AML is enriched in gene mutations (i.e., GATA2, CSF3R, WT1) rarely observed in CEBPA-wild type AML. No conclusive findings have been drawn for the prognostic impact of additional mutations. Of note, somatic GATA2 mutations have been associated with invasive fungal infections in myeloid neoplasms. Although overall correlating with favorable prognosis, an unexpectedly high rate of treatment-related mortality (TRM) in CR has been described in a large multicenter study on intensively treated CEBPA-mutated patients (pts) (Schlenk et al Blood 2013;122(9):1576). Aims: The aim of our study was to correlate baseline and treatment characteristics with the outcome and hematological toxicity in an intensively treated cohort of CEBPA-bZIP mutated AML pts. Methods: Pts entering the study had a diagnosis of CEBPA-bZIP AML confirmed according to 2022 WHO and ICC criteria. Pts were characterized by next-Generation deep amplicon sequencing with Ion Torrent platform (ThermoFisher Scientific) covering a panel of 40 genes. Sequence alignment and filtering were performed by NextGENe version 2.4.2.1 (SoftGenetics). The first two chemotherapy cycles were categorized according to the delivery of an anthracycline (ANTHRAC) and cytarabine (ARA-C) at high dose (HDAC). The study was approved by the local institutional review board. Results: From 2004 to 2023, 49 pts with CEBPA-bZIP mutated AML met the inclusion criteria at project study sites (Firenze, Bergamo). Their features are detailed in Table 1. CR rate was achieved in 45 of 49 pts (91.8%), with a DFS and OS of 74.3% and 82.4% at 5 y, respectively. Based on NGS, at least one additional mutation was identified in 18 (36.7%) pts (NGS+), the majority of them involving GATA2 (n=14, 28.6%). As per treatment, 44 pts received at least two cycles, of which no (n=2, 4.6%), one (n=14, 31.8%), or two (n=28, 63.6%) ANTHRAC-containing cycles. As regarded HDAC, 19 (43.2%), 17 (38.6%) and 8 (18.2%) pts received no, one or two HDAC-containing cycles, respectively. No significant differences emerged for DFS or OS between NGS+ and NGS- groups (P=0.33 and 0.52, respectively). To gain insight into potential causes of toxicity during CR, we focused on hematopoietic recovery after induction and consolidation. NGS+ pts showed slower neutrophil (ANC) recovery (median, 22 days to >500/uL after induction and 25 days after consolidation) compared to NGS- group (19 days, P=0.018; 18 days P=0.058, respectively). Such effect was enhanced by treatment with ANTHRAC-containing cycles: NGS+ pts receiving two cycles required significantly longer time to recover from first consolidation cycle, both for ANC (30 days) and platelet count (34 days) vs 22 (P=0.012) and 27 (P=.010) days, respectively, of other categories (Figure 1). A proportion of 45.5% (5/11) NGS+/ANTHRAC-2 pts could not complete the planned chemotherapy program due to hematological toxicity compared to 19.3% (6/31, P=0.09) in other categories. No significant prolongation of recovery was observed for HDAC. Conclusions: CEBPA-bZIP mutated AML is featured by high response rate and favorable outcome. Delayed hematopoietic recovery was observed in pts bearing additional mutations (especially GATA2) when treated with anthracyclines in first two cycles. Our findings suggest the cumulative dosage of anthracyclines should be limited in CEBPA-mutated/NGS+ patients to spare hematological toxicity on turn impairing the therapeutic plan.
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IJS, IMTLJ, KILJ, NLZOH, NUK, SAZU, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP
Background: RO7283420 (RG6007) is a 2+1 TCR-like (TCR-L) T-cell bispecific (TCB) antibody targeting CD3 and the RMFPNAPYL peptide of Wilms Tumor 1 (WT1) protein presented by the major ...histocompatibility complex-I HLA-A*02 on acute myeloid leukemia (AML) blasts and other antigen presenting cells. The pre-clinical evaluation of RO7283420 in our in vivo humanized AML xenografts and ex vivo AML co-culture models showed strong T-cell mediated AML cell killing (Augsberger C, et al. Blood 2021). A Phase 1 dose-escalation (DE) study (NCT04580121) evaluated the safety, tolerability, pharmacokinetics, anti-drug antibodies (ADAs), and anti-leukemic activity of RO7283420 in patients with relapsed/refractory (R/R) AML. Methods: In this open-label, multi-center study, DE was performed using a 3+3 design. Patients received RO7283420 every 3 weeks (Q3W, n=46), or every week (QW, n=4) as intravenous (IV) infusions. Preliminary anti-leukemic activity included response assessment according to European Leukemia Net (ELN) response categories (adapted from Döhner H, et al. Blood 2017). Results: As of 13 April 2023, 50 HLA-A2+ R/R AML patients received at least one dose of RO7283420. Patients had a median age of 65.5 years (range 35-84), presented with ECOG of 0 (56%) or 1 (38%) or 2 (6%), and 58% were male. Median prior line of therapy was 2 (range 1-5). Overall, 58% of patients had relapsed and 42% had primary refractory disease. According to the ELN 2017 risk stratification, patients were of adverse (48%), intermediate (38%) or favorable (8%) risk category, for 6% of patients the risk category missing. The most common genetic abnormalities reported were RUNX1 (21%), ASXL1 (17%), TP53 (10.6%), FLT3-ITD (6.4%) and NPM1 (6.4%) of the 47 patients tested. Median bone marrow blast percentage at baseline was 35% (range 3-90%), while the median of circulating blast was 17% (range 0-88%). Study patients received RO7283420 IV at 13 different dose levels, ranging from a Minimum Anticipated Biological Effect Level (MABEL) of 0.15 mg (flat) to 18 mg Q3W (with a preceding weekly 1/3 mg ‘double step-up’ during Cycle 1) and one QW dose level with 9 mg preceded by a 1/3 mg step-up. Maximum tolerated dose was reached at 1/3/12 mg double step-up Q3W. Explored alternative QW schedule was not tolerable at 1/3/9 mg. The most common (≥20%) adverse events (AEs) were cytokine release syndrome (CRS) occurring in 34 (68%), pneumonia 14 (28%), pyrexia 13 (26%), febrile neutropenia 13 (26%), hyperglycemia 12 (24%), hypokalemia 11 (22%), and nausea 10 (20%) of patients. Eight dose limiting toxicities (DLTs) were reported: five G3 CRS (at 1/3, 2/12, 1/6/12 mg dose levels), G3 stomatitis (at 1/3/12 mg), G3 myositis (at 1/3/18 mg), and G4 thrombocytopenia (at 1/3/18 mg). Eleven patients (22%) experienced Grade 5 AEs with pneumonia, sepsis, and hemophagocytic lymphohistiocytosis (HLH) reported in >1 patient; all Grade 5 events were considered unrelated to RO728342 except 1 (at 1/3/9 mg) of 2 HLH events. IV PK has been overall dose-linear and characterized by a terminal half-life of 29 to 84 hours and a clearance of 58 to 92 mL/h. Preliminary ADA incidence within the study population was 19%. In the dose ranges tested, a trend for study drug exposure-dependent blast reduction was observed in blood, while a clear exposure-response relationship could not be established with BM blast reduction. Furthermore, our preliminary pharmacodynamic analysis identified expansion of naive and memory CD8 T cells in blood and activated CD8+ T cells in bone marrow, in line with the expected mode of action (MoA) of RO7283420. Preliminary efficacy signals were observed with 3 complete responses (CR), including 1 CR with incomplete blood count recovery. Conclusions: RO7283420 is the first TCR-L TCB antibody evaluated in AML. We observed pharmacodynamic evidence of T-cell activation and expansion in the clinic, in line with the expected MoA of TCBs, however, at the explored doses, no clear exposure-response relationship and only a modest clinical activity were observed. The safety profile was shown to be consistent with the other TCBs and R/R AML population. Based on the totality of data, the study was discontinued.
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Introduction: In elderly acute myeloid leukemia (AML) patients (pts) the debate about the use of intensive chemotherapy (iC) as opposed to non-intensive therapy (niT) or best supportive care (BSC) is ...a hot topic, particularly after the introduction of venetoclax (VEN) use. Age, comorbidities, functional impairment, therapy benefits and risks, pts preferences, and AML features influence this choice. The SIE/SIES/GITMO (“fitness”) criteria (Ferrara, 2013) are a valuable and comprehensive tool, but a revalidation is needed in the light of the new treatment options. Methods: Within the Rete Ematologica Lombarda (REL), we evaluated 1) the concordance between “fitness” of pts, and the type of treatment they actually received, 2) the overall survival (OS) according to the “fitness”, to the prognostic European Leukemianet (ELN17) stratification and to the treatment received, and 3) the presence of other parameters, as Charlsons Comorbidity Index (CCI), potentially useful in therapy decision. Pts were classified as fit to iC (FIT), unfit to iC (UNFIT), or unfit even to niT (FRAIL), as defined by the SIE/SIES/GITMO criteria. Results: From Jan 20 to Dec 22, 503 AML pts (53% de-novo), with a median age of 76 years (y) (range, 65-93) were diagnosed consecutively at 11 Hematology Units. According to “fitness” criteria, 25% of pts were FIT, 61% UNFIT, and 14% FRAIL (Table1). Median age was significantly lower in FIT pts (70 y), as compared to UNFIT (78 y) and FRAIL (79 y) (p <0.0001). Overall, the concordance between “fitness criteria” and the treatment actually received by pts was 75.9% (71% in FIT, 76% in UNFIT and 84% in FRAIL). After a median follow-up of 12 months (m), median OS of the whole population was 7.4 m. Median OS of FIT, UNFIT and FRAIL pts was 13.7, 7.2 and 1.4m, respectively (p <0.0001, Fig 1a). According to physicians' decision, 18% of pts received iC, 55% niT, mainly hypomethylating agents (HMA: azacytidine or decitabine) + VEN, and 27% BSC. Median OS was 17m, 10.2m, 1.4m in iC, niT and BSC pts, respectively (p<0.0001, Fig 1b). According to ELN17, evaluable in 73% of pts, 19% were favorable (fav), 20% intermediate (int) and 61% adverse (adv), without differences into “fitness” groups. Median OS was significantly worse in ELN adv than in ELN fav and int (p: 0.001 and p: 0.002, respectively, Fig 1c). In FIT pts, median OS was 17m with iC and 11.4m with niT (VEN-HMA) (p: 0.3). The use of iC was associated with younger age (median age: 69 in iC vs 73 y in niT, p<0.0001), lower CCI (CCI< 2: 88.5% in iC vs 64% in niT, p: 0.0032) and not significantly with better ELN risk (ELN adv 49% in iC pts vs 70% in niT, p: 0.07). The use of iC or niT did not affect remission rate (64% vs 71%) nor OS in different ELN risk groups. In UNFIT pts, median OS was 14m with niT and 3.8m with BSC pts (p<0.0001). The use of niT compared to BSC was associated with younger age (median 77 vs 81 y; p<0.0001), not adv ELN risk (41% vs 7%, p: 0.0001), lower ECOG performance status (PS) and CCI (PS<2: 81% vs 65%, p: 0.0001; CCI<2: 66% vs 50%, p: 0.038). In UNFIT pts treated with VEN-HMA median OS was 11m vs 7.3m with HMA only (p: 0.019). The use of VEN-HMA rather than HMA only was associated with younger age (median: 76 vs 80 y; p: 0.0045), better PS and CCI (PS<2: 94% vs 84%, p: 0.026; CCI<2: 68% vs 50%, p: 0.008). ELN risk distribution was similar. In non-adv risk pts, OS was 17m with VEN-HMA, significantly better compared to HMA only (7m) (p: 0.03) as well as to adv risk pts treated with VEN-HMA (p: 0.0017). Age >82y, number of comorbidities, lack of caregiver were the most frequent reasons for the physician's preference for HMA therapy over VEN-HMA. InFRAIL pts, median OS was 2.9 m with niT and 1.1m with BSC pts (p: 0.04). The use of niT was associated with a relatively better PS and younger age (<73 y). At multivariable analysis, ELN fav and iC favorably affected survival, whereas a FRAIL fitness status, PS>2, and CCI>2 proved to be independent adverse prognostic factors. Conclusion: Fitness stratification of SIE/SIES/GITMO correlated to pts's survival and were useful in the decision-making approach of treatment also in the new drugs era. Within the “fitness” categories, age, CCI and particularly ELN risk, had an impact on the choice of the type of induction therapy, in FIT pts (iC vs niT) without changing the outcome, while in UNFIT pts an under-treatment worsened OS. These preliminary data should be implemented with a longer follow-up and a larger sample size.
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Background: New therapeutic strategies are strongly needed to improve the prognosis of high risk Acute Myeloid Leukemia (AML) patients, such as combination of novel agents and conventional ...chemotherapy. The Italian GIMEMA AML1718 trial (NCT03455504) investigate the safety and efficacy of the BCL-2 inhibitor venetoclax (VEN) in combination with intensive fludarabine-based induction (FLAI) fludarabine 30 mg/sqm from day 1 to day 5, cytarabine 2000 mg/sqm from day 1 to day 5, and idarubicin 8 mg/sqm on days 1, 3 and 5 as first-line therapy for newly diagnosed non low-risk ELN AML patients. Results from the Planned Interim Analysis of Safety Run-in and Part 1 (early expansion cohorts) were presented at the last 2022 ASH Meeting. Median overall survival (OS) was not reached; probability of 12-month OS was 76%. Median disease-free survival was not reached. With a median follow-up of 10.5 months, 28 patients (49%) received allogeneic stem cell transplantation (HSCT) in first complete remission (CR). Centralized multicolour flow cytometry minimal residual disease (MFC-MRD) assessment was planned during the phase 2, part 2 of the study (confirmatory cohort) where the lower effective dose of VEN (400 mg/day) was administered in association with FLAI. Here we report results from early time-points (TPs) MRD analysis with the aim of identify the most informative TPs for MRD assessment and prognostic correlations. Methods: Erythrocyte-lysed whole bone marrow (BM) samples obtained at diagnosis from patients enrolled in the confirmatory cohort were centralized and analysed with a broad panel of monoclonal antibodies to identify the leukemia-associated phenotype (LAIP) which was used to track residual leukemic cells during follow-up. Eight color flow cytometry analysis was performed at pre-defined TPs (TP1: post-induction I, TP2: post induction II/consolidation I, following TPs: post consolidation/pre-transplantation) (FACSCantoII; BD Facs Diva Software V6.1.3). A positive flow MRD was defined by the presence of no less than 10 clustered leukemic cells/10^4 total events. Enrollment closed on January 2023. Collection and analysis of later TPs is ongoing. Results: Sixty-seven patients from 11 centers were enrolled in the phase 2, part 2. Risk stratification according to ELN 2017 was intermediate in 46% of patients and high risk in 54%. Fifty-eight/67 patients (87%) obtained CR after induction I. In the centralized MRD analysis, 170 samples has been collected and analysed so far (60 baseline samples, 110 MRD samples). Seven patients lacking baseline sample for LAIP identification were excluded from the analysis. TP1 was available in 57/59 patient achieving CR (97%), and TP2 was available in 29 patients, so far. MFC-MRD negativity was obtained in 31/57 (54%) at TP1 (post V-FLAI, Fig. 1). An increase in MFC-MRD negativity rate was observed at TP2 (post Induction II or consolidation I) with 20 MFC-MRD negative patients/29 available samples (69%, Fig. 1). Thirteen/110 follow up samples (8%), albeit resulting MRD negative, were considered inadequate for the analysis due to haemodilution, 9 from TP1 and 4 from TP2 (Fig. 1). TP1 and TP2 MRD assessment were scheduled at day 28 of Induction I and Induction II/consolidation, respectively. However, in most cases, delayed haematological recovery was observed after V-FLAI, thus resulting in suboptimal samples for MRD evaluation. Conclusions: Preliminary results from centralized MRD analysis confirm that the combination therapy is able to induce high-quality remissions with a very high percentage of MFC-MRD negativity in a difficult cohort of patients, with a higher percentage of MFC-MRD-negative after the completion of the second course of therapy. Delayed haematological recovery may impact on reliability of MRD assessment due to hypocellular and regenerative marrow samples, suggesting that in those cases MRD analysis should be postponed. Correlation with survival will be performed as the data collection will be complete.
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Introduction: Based on the results of the phase 1b (NCT02203773) and phase 3 (VIALE-A; NCT02993523) studies, venetoclax (VEN) in combination with hypomethylating agents (HMAs) was approved by FDA and ...EMA for the treatment of patients (pts) with newly diagnosed (ND) acute myeloid leukemia (AML) who are ineligible for intensive chemotherapy (IC) or whose age is 75 years or more. In particular, in the VIALE-A trial the association Ven+Azacitidine (AZA) has proven to induce rapid and durable remissions, with a median overall survival (OS) of 14.7 vs 9.6 months of pts enrolled in the placebo+Aza arm. The GIMEMA 2320 Trial (NCT04589728) is a prospective, observational study intended to investigate the outcome of pts treated with the combination Ven+HMA, in a real-world setting. Methods: Pts not candidate to IC because of age (≥75 years), performance status (PS) or comorbidities according to the SIE/SIES/GITMO (Ferrara) criteria, were eligible to the AML2320 trial and to receive the combination HMA plus venetoclax. VEN (400 mg a day, orally, day 1-28), AZA (75 mg/m 2 a day, day 1-7) and Decitabine (DEC) (20 mg/m 2 a day, day 1-5) were given at conventional doses during a 28-day cycle. Evaluation of OS was the primary end-point of the trial; response rate, time to response, event free survival (EFS), disease free survival (DFS), cumulative incidence of relapse (CIR), and safety profile were secondary end-points. Results: From November 2020 to December 2021, 188 pts were enrolled to the observational trial with 178 being evaluable at the time of this analysis. Ninety-six (54%) males and 82 (46%) females; median age 74 years (49-85) with 74 (42%) pts being 75 years old or more. One-hundred and 20 (68%) pts had “ de novo” AML and 58 (32%) secondary AML. In pts below the age of 75 years, reasons that contraindicated exposure to IC were: pulmonary diseases (6%), active infections poorly controlled with antibiotic therapy (5%); cardiac ejection fraction < 50% (4.5%), ECOG PS ≥ 3 not related to the underlying AML (4%); psychiatric illnesses requiring specific therapy (3%). In 54% of the pts below the age of 75, there was also a miscellanea of other conditions which physicians recognized as incompatible with IC. ELN2017 risk-category assignment was feasible in 151 pts with 34 (23%), 69 (46%) and 48 (32%) belonging to the favorable, intermediate and adverse category, respectively. One-hundred and 34 (75%) pts received VEN+AZA and 44 (25%) VEN+DEC. The median no. of delivered courses was 5 (1-27). Eleven (6%) pts were submitted to an allogeneic stem cell transplant after having received 4 courses of VEN+HMA and being in CR/CRi. After the first course, response assessment was evaluated in 123/178 (69%) pts with 70 (57%) being in CR/CRi. One-hundred and 53 pts were given a second course, and response assessment was available in 73; at this stage, 47/73 (64%) were in CR/CRi. With a median follow-up of 19.9 months, the median OS for the whole population is 14.2 months (12.4-18.4) (Figure 1A) and the median DFS 13.7 months (10-NR) (Figure 1B). One- and 2-year OS is 58% (51%-67%) and 33% (26%-43%), respectively; 1- and 2-year DFS is 53% (42%-67%) and 44% (33%-59%), respectively. No significant differences were found in OS and DFS when the survival analysis was split by age (< or ≥ 75 years). Median OS for favorable-, intermediate- and adverse-risk category was 24.5 months (14.2-NR), 15.4 months (11.9-NR) and 8.9 months (6.8-13.4), respectively. Median DFS for favorable-, intermediate- and adverse-risk category was NR (10.8-NR), 14.1 months (8-NR) and 9.9 months (3.2-NR), respectively. Conclusions: To our knowledge this is one of the largest series of pts with AML treated with VEN+HMA in a real-world setting. With all the limitations of a data collection still to implement, we reported for this Italian cohort of pts a median OS that is similar to that observed in the VIALE-A study (14.2 vs 14.7 months); also, our median follow-up is similar to the one of the VIALE-A study, at the time of its publication (19.9 vs 20.5 months). This real-life experience confirms that the combination VEN+HMA is an effective treatment for a very difficult to treat population of pts. This analysis also denotes the need for educational activities intended to sensitize physicians towards a more appropriate and timely evaluation of response; indeed, a sizeable proportion of Italian hematologists still approach assessment of response to VEN+HMA the same way they did when using HMA alone.
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Infections by carbapenem-resistant Klebsiella pneumoniae (CRKp) represent a challenging problem after SCT. A retrospective survey (January 2010 to July 2013) involving 52 Italian centers was ...performed to assess the epidemiology and the prognostic factors of CRKp infections in auto- and allo-SCT. Cases of CRKp infection were reported in 53.4% of centers. CRKp infections were documented in 25 auto-SCTs and 87 allo-SCTs, with an incidence of 0.4% (from 0.1% in 2010 to 0.7% in 2013) and 2% (from 0.4% in 2010 to 2.9% in 2013), respectively. A CRKp colonization documented before or after transplant was followed by an infection in 25.8% of auto-SCT and 39.2% of allo-SCT patients. The infection-related mortality rates were 16% and 64.4%, respectively. A pre-transplant CRKp infection (hazard ratio (HR) 0.33, 95% confidence intervals (CIs) 0.15-0.74; P=0.007) and a not CRKp-targeted first-line treatment (HR 2.67, 95% CI 1.43-4.99; P=0.002) were independent factors associated with an increased mortality in allo-SCT patients who developed a CRKp infection. Our study shows challenging findings of CRKp infections in SCT patients in Italy particularly after allo-SCT. The detection of carriers and the definition of early therapeutic strategies represent critical aspects of the management of CRKp infections after SCT.
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DOBA, EMUNI, FIS, FZAB, GEOZS, GIS, IJS, IMTLJ, IZUM, KILJ, KISLJ, MFDPS, NLZOH, NUK, OILJ, PILJ, PNG, SAZU, SBCE, SBJE, SBMB, SBNM, UILJ, UKNU, UL, UM, UPUK, VKSCE, ZAGLJ
BACKGROUND. HCV-positive DLBCL has distinct clinical and pathologic characteristics compared to its negative counterpart: patients (pts) are usually older with more frequent splenic and extranodal ...involvement and elevated LDH. Differently from its clinical hallmarks, the molecular landscape of this pathological entity has been scarcely outlined.
METHODS. In this bicentric study, we investigated the clinical and molecular features and outcome of 54 pts with HCV-positive DLBCL. Targeted next generation sequencing (NGS) was performed on DNA extracted from formalin-fixed paraffin-embedded tissue biopsies. A core panel probes covering coding exons from 184 genes frequently mutated in mature B cell neoplasms was designed using IDT tool and libraries were prepared using Illumina DNA-prep-with enrichment. Sequencing was performed on Illumina HiSeq 2500. Cluster analysis was performed using LymphGen tool. We also applied fluorescence in situ hybridization (FISH) for MYC, BCL2 and BCL6.
RESULTS. Median age was 71 (33-84; IQR: 61.9-77). Stage was III/IV in 34 pts (63%). Extranodal sites were involved in 21 pts (38%), spleen in 20 pts (37%). LDH was higher than the upper limit in 40 pts (74%). R-IPI was good for 2 pts (4%), intermediate for 24 pts (44%), poor for 28 pts (52%). HPS score was intermediate or high in 33 of 44 assessed pts (75%). A histological low-grade component was identified in 15 pts (27%). Hans algorithm differentiated pts almost equally in GCB (26/50, 52%) and non-GCB (24/50, 48%) subtype. HCV-RNA was detectable in 52 pts (96%) and quantifiable in 43 pts (79%). Of 29 pts assessed, genotype was 1 in 9 (31%), 2 in 16 (55%), 3 in 4 pts (14%). Among 37 pts whose data were available, 11 pts (30%) received direct antiviral agents, 7 pts (19%) received interferon-containing regimen, 19 pts (51%) were not treated for HCV. Twenty-seven pts (50%) received rituximab-enriched protocols, 23 pts (43%) were treated with chemotherapy alone, 1 pt (2%) with surgery alone, 3 pts (5%) were lost to follow up. With a median follow up of 7.7 years (yrs) (IQR: 4.6-10.6), 5-yrs overall survival (OS) (95%CI) was 49.3% (34.1-62.8%) and 5-yrs progression free survival (PFS) (95%CI) was 39.5% (25.5-53.3%). Median OS and PFS were 4.9 and 3.1 yrs, respectively. FISH analysis showed lack of BCL2 (0/19) and MYC translocations (0/15). BCL6 fusions were found in 76% of pts (16/21).
NGS showed mutations in 154 of the 184 analyzed genes. The informativity of the panel was 100% with all pts presenting at least one oncogenic variant. Gene mutation frequencies are presented in Fig. 1. The median mutation load (MML) was 13 mutated genes per case (2-32; IQR: 9-16). Most frequently mutated genes were the epigenetic regulators KMT2D, mutated in 23 pts (42.6%), and SETD1B, mutated in 17 pts (31.5%). FAS, PM1 and RERE were mutated in 15 pts each (27.8%). TBL1XR1, BCL11A and SGK1 were mutated in 14 (26%), 13 (24%) and 12 pts (22%), respectively. Considering genes in their specific pathway, 94% of pts harbored mutations in genes involved in epigenetic regulation (MML: 3; range 1-7; IQR: 1.25-4), 90% of pts in apoptosis-related genes (MML: 2; 1-7; IQR: 1-3) and 77% of pts in genes belonging to BCR/NFkB signaling pathway (MML: 2; 1-7; IQR: 1-3). Of note, 56% of pts carried mutations in genes related to immune regulation (MML: 1.7; 1-5; IQR: 1-2) and 25% of pts had mutations within the NOTCH pathway (MML: 1.2; range 1-2). Via the LymphGen 1.0 tool, we classified 26 pts (48%) into 4 genetic clusters: BN2 (11/26, 42%), ST2 (8/26, 31%), MCD (4/26, 15%), EZB (3/26, 12%). Twenty-eight pts (52%) were classified as “others”. Among those belonging to BN2 cluster, 7 pts (64%) had a histologically confirmed transformed DLBCL. No significant differences in terms of OS and PFS were identified according to cluster subgroups.
CONCLUSIONS. The prevalence of the BN2 cluster and enrichment of mutations of genes involved in NOTCH pathway seem to indicate a preferential marginal-zone origin in HCV-positive DLBCL. In addition, our data confirm the absence of BCL2 translocation in this subset of DLBCL and show a high prevalence of mutated genes within the epigenetic and immune regulation pathways in HCV-positive DLBCL, pointing out their compelling role in the pathogenesis and suggesting potential implications for molecularly targeted therapies.
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Passamonti: Janssen: Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; AbbVie: Speakers Bureau; BMS: Membership on an entity's Board of Directors or advisory committees, Research Funding, Speakers Bureau; Celgene: Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; Novartis: Membership on an entity's Board of Directors or advisory committees, Speakers Bureau. Arcaini: Celgene: Speakers Bureau; Gilead Sciences: Research Funding; Bayer, Celgene, Gilead Sciences, Roche, Sandoz, Janssen-Cilag, VERASTEM: Consultancy; Celgene, Roche, Janssen-Cilag, Gilead: Other: Travel expenses.
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IJS, IMTLJ, KILJ, NLZOH, NUK, SAZU, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP
Background. Non-chronic lymphocytic leukemia (non-CLL) clonal B-cell lymphocytosis (CBL) encompasses a heterogeneous group of hematologic disorders that are still poorly understood. The main purpose ...of this study was to explore the genomic landscape of non-CLL CBL, correlating the results with clinical, histological and immunogenetic features.
Methods. We retrospectively analysed the disease characteristics in a highly selected series of 28 patients, who had a clonal lymphocytosis in peripheral blood (PB) and clonal lymphoid populations in the bone marrow (BM), without evidence of lymphadenopathy, splenomegaly, peripheral cytopenia or constitutional symptoms.In all patients the BM evaluation, comprising flow cytometry, histology and immunohistochemistry, was not able to classify the lymphoproliferative disorder in any of the WHO-defined entities. A diagnosis of CLL or a leukemic phase of mantle cell or follicular lymphoma was ruled out in each subject. Targeted next generation sequencing (NGS) was performed on DNA extracted from CD19+ BM or PB cells using a core panel of 138 genes frequently reported in mature B cell neoplasms.On the basis of the information retrieved from the KEGG and REACTOME databases, each mutated gene was assigned to a specific lymphoma-enriched pathway.
Results: Clinical, flow cytometric and histological data are presented in Table 1.The median BM infiltration was 30% (range: 5-80%); the pattern of infiltration was interstitial or mixed (nodular and interstitial) in the majority of the cases; sinusoidal localization was noticed in 54% of cases. There was a borderline correlation between the extent of BM infiltration and the absolute number of PB clonal B cells count (Spearman's Rho: 0.38, p=0.05), that ranged from 851/mmc to 14508/mmc (median: 3604/mmc). With a median follow-up of 35.2 months (range: 6-125), only 1 patient developed disease progression to a B-cell lymphoma not otherwise specified (5-yrs CI of progression: 11.9%; 95%CI: 0.6%-40.7%).
The sequence analysis of 138 genes revealed a total number of 74 somatic mutations in 51 genes. All the 28 cases displayed at least 1 mutation, with the number of mutations ranging from 1 to 7 (median 2).
The most frequently mutated genes were MYD88 (14%), PDE4DIP (14%), BIRC3 (11%), CCND3 (11%), NOTCH1 (11%) and TNFAIP3 (11%) (fig.1).Notably, 3 out of 4 MYD88 variants were different from the classical p.L265P (p.M232T, p.V217F and p.L204F not previously described).
Data on IGHV were available for 22 patients (79%) (Fig.2): VH gene repertoire was similar to that reported in non-CLL malignancies and no distinct stereotyped subset was found. Truly unmutated IGHV genes with 100% of germline identity were present in 3 cases (11%).
The analysis of disease features according to mutated genes showed that MCwas more frequent in patients harbouring mutations in MYD88 (p=0.08) or TNFAIP3 (p=0.02); these patients had also a higher number of mast cells on BM histology than the wild type ones (p=0.02 and p=0.05, respectively). NOTCH1 mutated patients showed an absolute number of B-cell peripheral clonal lymphocytes higher than wild type cases (p=0.037).
The most frequently involved pathways were NF-kB signalling (32%) and cell communication pathways (32%), followed by cell cycle (29%), chromatin organization (25%), transcriptional misregulation (21%), Toll-like receptor (TLR) signalling (18%) and NOTCH signalling pathways (14%) (Fig. 3).Patients with mutated chromatin organization pathway more often showed normal LDH levels compared with wild type cases (100% vs 40% p=0.01).
Conclusions. We characterised non-CLL CBL, integrating BM histological features and IGHV data with an extended NGS panel. The mutational landscape was extremely heterogeneous, pointing out a wide spectrum of somatic mutations. Most of them have been already described in Waldenström's Macroglobulinemia and splenic B-cell lymphomas; of note, we found a new variant of MYD88 associated with an IgM MC and recurrent mutations of PDE4DIP, which have not been previously reported in indolent B-cell malignancies.
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Varettoni:Janssen: Consultancy; Roche: Consultancy; ABBVIE: Other: travel expenses; Gilead: Other: travel expenses. Arcaini:Bayer, Celgene, Gilead Sciences, Roche, Sandoz, Janssen-Cilag, VERASTEM: Consultancy; Celgene: Speakers Bureau; Celgene, Roche, Janssen-Cilag, Gilead: Other: Travel expenses; Gilead Sciences: Research Funding.
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IJS, IMTLJ, KILJ, NLZOH, NUK, SAZU, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP
VEXAS is a prototypic hemato‐inflammatory disease combining rheumatologic and hematologic disorders in a molecularly defined nosological entity. In this nationwide study, we aimed at screenshotting ...the current diagnostic capabilities and clinical‐genomic features of VEXAS, and tracked UBA1 longitudinal clonal dynamics upon different therapeutics, including allogeneic hematopoietic cell transplant. We leveraged a collaboration between the Italian Society of Experimental Hematology and of Rheumatology and disseminated a national survey to collect clinical and molecular patient information. Overall, 13/29 centers performed UBA1 genomic testing locally, including Sanger sequencing (46%), next‐generation sequencing (23%), droplet digital polymerase chain reaction (8%), or combination (23%). A total of 41 male patients were identified, majority (51%) with threonine substitutions at Met41 hotspot, followed by valine and leucine (27% and 8%). Median age at VEXAS diagnosis was 67 years. All patients displayed anemia (median hemoglobin 9.1 g/dL), with macrocytosis. Bone marrow vacuoles were observed in most cases (89%). The most common rheumatologic association was polychondritis (49%). A concomitant myelodysplastic neoplasm/syndrome (MDS) was diagnosed in 71% of patients (n = 28), chiefly exhibiting lower Revised International Prognostic Scoring System risk profiles. Karyotype was normal in all patients, except three MDS cases showing ‐Y, t(12;16)(q13;q24), and +8. The most frequently mutated gene was DNMT3A (n = 10), followed by TET2 (n = 3). At last follow‐up, five patients died and two patients progressed to acute leukemia. Longitudinal UBA1 clonal dynamics demonstrated mutational clearance following transplant. We collected a nationwide interdisciplinary VEXAS patient cohort, characterized by heterogeneous rheumatologic manifestations and treatments used. MDS was diagnosed in 71% of cases. Patients exhibited various longitudinal UBA1 clonal dynamics.
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BFBNIB, FZAB, GIS, IJS, KILJ, NLZOH, NUK, OILJ, SBCE, SBMB, UL, UM, UPUK
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