B-cell Acute Lymphoid Leukemia Research Articles

Anti-CD19 chimeric antigen receptor T-cell therapy for B-cell acute lymphoid leukemia.

Anti-CD19 chimeric antigen receptor T-cell therapy for B-cell acute lymphoid leukemia.

Abstract 3271: The casein kinase 2/IKZF1 axis attenuates ceramide accumulation through up-regulation of acid ceramidase: Implications for use of CK2 inhibitors in high-risk pediatric B-cell acute lymphoid leukemia

Abstract Casein Kinase II (CK2), a growth-promoting non-oncogene, is frequently over-expressed in pediatric high-risk B-cell acute lymphoblastic leukemia (B-ALL) leading to proliferation and survival. CK2 phosphorylates the tumor suppressor IKZF1 (IKAROS) resulting in a loss-of DNA-binding activity. Loss of IKZF1 function is associated with poor prognosis in high-risk B-ALL. As such, inhibition of CK2 using silmitasertib (CX-4945), to restore IKZF1 function, is being therapeutically investigated in high-risk B-ALL. CK2 also phosphorylates/activates the mammalian ceramide synthases to increase production of the pro-apoptotic sphingolipid, ceramide (Cer). Therefore, we hypothesized that inhibition of CK2 with CX-4945 would exert both pro-death (restoration of IKAROS function) and pro-survival (decreased Cer production) effects on B-ALL cells. Moreover, this suggests that targeting the sphingolipid metabolic pathway in tandem with CX-4945 could be a novel strategy for treatment of high-risk B-ALL. To this end, we examined the effects of CX-4945 on sphingolipid levels and the enzymes of the sphingolipid metabolic pathway. Unexpectedly, we determined that CX-4945 dose-dependently increased expression of ceramide synthase 1 (CERS1) and acid ceramidase (AC) proteins, in an IKZF1 dependent manner. Increased CERS1 expression/production of C18:0 Cer has been linked to enhanced mitophagy (i.e., lysosomal clearance of damaged mitochondria) in head and neck squamous cell carcinoma. Induction of mitophagy by CX-4945 was confirmed by western blot analysis of mitofusin-1 and Drp-1 levels. Up-regulation of AC, a lysosomal protein, metabolizes C18:0 Cer to sphingosine for recycling and prevents Cer-induced lysosomal membrane permeabilization. Thus, induction of mitophagy and metabolic breakdown of Cer could potentially reduce the apoptotic efficacy of CX-4945 in B-ALL cell lines. We, therefore, tested whether inhibition of AC would synergize with CX-4945 to enhance B-ALL cell death. Indeed, synergy was observed with the AC inhibitor, SACLAC, in multiple cell lines. Consistent with the observation of synergy between CX-4945 and SACLAC, the combination also enhanced cleavage of PARP indicating an enhancement of cell death. We are currently testing the efficacy of a combination of CX-4945 and AC inhibitors in cell-line derived xenograft models of human B-ALL. Together, these findings indicate that simultaneous targeting of CK2 and AC represents a rationally selected combinatorial therapeutic strategy that overcomes the ability of cancer cells to adapt to single agent targeted therapies by altering pro- and/or anti-apoptotic pathways. Citation Format: Jeremy A. Hengst, Diwakar Bastihalli Tukaramrao, Todd Fox, Arati Sharma, Dhimant Desai, Sinisa Dovat. The casein kinase 2/IKZF1 axis attenuates ceramide accumulation through up-regulation of acid ceramidase: Implications for use of CK2 inhibitors in high-risk pediatric B-cell acute lymphoid leukemia [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3271.

Hematological malignancies: Prevalence and hematological characteristics in a single center in southern Saudi Arabia.

To determine the prevalence of leukemia in the Aseer region of Saudi Arabia and the importance of hematological, biochemical and coagulation profiles for leukemic patients in the context of disease management. This retrospective study comprised 210 patients between 2012 and 2022 who had been diagnosed with leukemia at different ages. The multiple unpaired t-test was used to compare leukemic patients with control samples, which consisted of healthy individuals, and p<0.05 was taken as significant. The data was compiled from Aseer Central Hospital in the Aseer region and collected through peripheral blood smear and bone marrow biopsy (2012-2017) or by flow cytometry (2018-2022), according to the hospital information system and registry data. Of the total 210 leukemic patients (61.4% males and 38.6% females), 104 cases (2012-2017) were diagnosed based on peripheral blood smear and bone marrow biopsy, and 106 cases (2018-2022) based on flow cytometry. Fifteen subtypes of leukemia were identified, with chronic myeloid leukemia being the most common (34.2%), followed by acute myeloid leukemia (17.6%), chronic lymphoblastic leukemia (11.9%), and B-cell acute lymphoid leukemia (9.5%). Other rare cases were also found. Of the 210 leukemia cases diagnosed in the Aseer region between 2012-2022, the most common subtype was chronic myeloid leukemia, followed by acute myeloid leukemia. In all leukemia subtypes, distinctive significant changes were observed in hematological parameters, biochemical parameters, and coagulation profiles.

Chimeric Antigen Receptor T-Cell Therapy in Acute Myeloid Leukemia: State of the Art and Recent Advances.

Chimeric antigen receptors (CAR)-T-cell therapy represents the most important innovation in onco-hematology in recent years. The progress achieved in the management of complications and the latest generations of CAR-T-cells have made it possible to anticipate in second-line the indication of this type of treatment in large B-cell lymphoma. While some types of B-cell lymphomas and B-cell acute lymphoid leukemia have shown extremely promising results, the same cannot be said for myeloid leukemias-in particular, acute myeloid leukemia (AML), which would require innovative therapies more than any other blood disease. The heterogeneities of AML cells and the immunological complexity of the interactions between the bone marrow microenvironment and leukemia cells have been found to be major obstacles to the clinical development of CAR-T in AML. In this review, we report on the main results obtained in AML clinical trials, the preclinical studies testing potential CAR-T constructs, and future perspectives.

The Impact of ZNF384 Rearranged on Antigen Editing during Treatment-Specific Selective Pressures in Adult B Cell Acute Lymphoid Leukemia

Objectives: Recent evidence shows that zinc finger protein 384 rearrangement (ZNF384r) was associated with the aberrant myeloid marker expression at diagnosis, which has been identified as a distinct subset of B cell acute lymphoid leukemia(B-ALL) related to an intermediate or even good prognosis during traditional therapy. However, there exists an indeterminate understanding of whether ZNF384r has a potential impact on antigen editing during treatment-specific selective pressures and shares the same prognostic significance in immunotherapy, such as chimeric antigen receptor T-cell therapy (CAR-T therapy). Methods: In this study, we first evaluated the immunophenotype changes of 31 de novo adult B-ALL patients who harbor ZNF384r and received chemotherapy from Nov 2020 to May 2023. Then, 49 r/r B-ALL patients who received the CD19 or CD19/CD22-based CAR-T infusion in our institute were included in the analysis to further investigate the prognosis effects of ZNF384r on CAR-T therapy. At the same time, the next-generation sequencing and RNA sequencing data of the patients with ZNF384r were analyzed to explore the potential mechanisms behind it. Results: First, we investigated the potential effects of ZNF384r in antigen editing after chemotherapy. Our results showed that 100% (31/31) of the patients express lymphoid lineage marker CD19 and 96.4% (27/28) of patients with CD22 expression at diagnosis. In addition, the majority of them had myeloid lineage marker expression, such as 96.2% (26/27) of patients with CD33 expression, and 96.5% with CD123 expression. After chemotherapy, 11 patients remained MRD positive after induction therapy, and 5 patients relapsed. In them, there were 18.8% (3/16) of patients lost CD19 expression, 12.5% of patients lost or reduced CD22 expression, while 100% of patients kept CD33 expression. For the adult r/r B-ALL patients who received the CD19 or CD19/CD22-based CAR-T infusion, there were 3 patients identified with EP300-ZNF384. Notably, all these three patients harboring ZNF384r relapsed within one year after the CAR-T therapy. Two of them experienced CD19-negative relapse, and one patient even had a myeloid transformation. These results indicated ZNF384r might associate with antigen editing during treatment-related selective pressures. The next-generation sequencing was performed in 25 B-ALL patients harboring ZNF384r before chemotherapy or CAR-T therapy, the results showed that in addition to CREBBP, NRAS, ETV6, NOTCH1/3, FLT3-ITD mutation was also the most common co-mutation with ZNF384r. Furthermore, the transcriptome analysis showed the Jak-STAT signaling pathway and the hematopoietic cell lineage pathway were highly enriched in the group with EP300::ZNF384 fusion compared with TCF3::PBX1 fusion. The expression of CD33, CD34, CD123, and IL5 were also significantly up-regulated in the EP300::ZNF384 group. All these results indicated ZNF384r might be involved in the regulation of the hematopoietic cell lineage differentiation pathway and myeloid lineage skewing. Conclusions: Our findings demonstrated that ZNF384 rearrangement might induce antigen editing during treatment-related selective pressures in adult B cell acute lymphoid leukemia, especially in CAR-T therapy. More efforts are needed to reveal mechanisms behind it to help reduce antigen loss and relapse rate after CAR-T therapy.

CAR-T in the Treatment of Acute Myeloid Leukemia: Barriers and How to Overcome Them.

Conventional therapies for acute myeloid leukemia (AML) are characterized by high rates of relapse, severe toxicities, and poor overall survival rates. Thus, the development of new therapeutic strategies is crucial for improving the survival and quality of life of AML patients. CD19-directed chimeric antigen receptor (CAR) T-cell immunotherapy has been extremely successful in the treatment of B-cell acute lymphoid leukemia and several mature B-cell lymphomas. However, the use of CAR T-cell therapy for AML is currently prevented due to the lack of a myeloid equivalent to CD19, as currently known cell surface targets on leukemic blasts are also expressed on healthy hematopoietic stem and progenitor cells as well as their progeny. In addition, the immunosuppressive tumor microenvironment has a dampening effect on the antitumor activity of CAR-T cells. Here, we review the therapeutic challenges limiting the use of CAR T-cell therapy for AML and discuss promising novel strategies to overcome them.

A Phase 1, First-in-Human, Dose-Escalation Study of MGD024, a CD123 x CD3 Bispecific Dart® Molecule, in Patients with Relapsed or Refractory CD123-Positive (+) Hematologic Malignancies

Background The interleukin-3 receptor alpha chain CD123 is overexpressed in a number of hematologic malignancies and is particularly upregulated in leukemia stem cells, which are believed to serve as a reservoir for relapse (El Achi Cancers 2020). Several investigational agents targeting CD123 with diverse mechanisms of action including bispecific T-cell engagers, antibody-drug conjugates, and Chimeric Antigen Receptor (CAR) T-cell therapies, are being investigated in these malignancies, with many showing preliminary clinical anticancer activity (El Achi Cancers 2020). Of note, the CD123-directed therapy tagraxofusp has now become the standard of care (SoC) for blastic plasmacytoid dendritic cell neoplasm (BPDCN) (Pemmaraju NEJM 2019). MGD024 is an investigational, second-generation CD123 × CD3 DART molecule that can simultaneously bind CD123 on malignant cells and CD3 on T cells, targeting CD123+ leukemic cells for recognition and elimination by CD3+ T lymphocytes as effector cells. MGD024 was engineered to minimize cytokine release syndrome (CRS), while maintaining antitumor activity. This new construct permits intermittent intravenous (IV) dosing due to a longer half-life (Alderson ASH 2021) compared with the first-generation DART molecule flotetuzumab, a continuous-infusion molecule that showed preliminary single-agent activity in refractory acute myeloid leukemia (AML) (Uy Blood 2021). Moreover, preliminary in vitro and in vivo data supported MGD024 clinical investigation as a single agent or in combination with SoC in patients with CD123+ hematologic malignancies (Alderson ASH 2021). Study Design and Method This is a Phase 1, first-in-human, dose-escalation study (CP-MGD024-01; NCT05362773) of MGD024 in patients with the following relapsed or refractory hematologic malignancies: AML, myelodysplastic syndrome (MDS), classical Hodgkin's lymphoma (cHL), chronic myeloid leukemia (CML), B-cell acute lymphoid leukemia (B-ALL), hairy cell leukemia (HCL), advanced systemic mastocytosis (ASM), and BPDCN. Eligible patients must have CD123+ malignant cells by flow cytometry or immunohistochemistry, Eastern Cooperative Oncology Group (ECOG) performance status ≤2, and no history or current evidence of any condition, therapy, or laboratory abnormality that may confound trial results. Primary objectives are to assess the safety, tolerability, dose-limiting toxicities (DLTs), maximum tolerated dose (MTD) or maximum administered dose (if no MTD is defined) and identify a recommended Phase 2 dose and schedule of MGD024. Secondary objectives include pharmacokinetics, immunogenicity, preliminary assessment of MGD024 clinical activity, and preliminary evaluation of safety/efficacy of tocilizumab in the management of MGD024-induced CRS. Patients receive MGD024 via intermittent intravenous infusion for approximately one year or until discontinuation for unacceptable toxicity or disease progression, whichever occurs first. The dose escalation begins with an accelerated titration phase (1+3 design) and converts to a conventional 3+3 design after the first patient experiences a DLT or a Grade ≥2 nonhematologic adverse event (AE) considered at least possibly related to MGD024 during Cycle 1, whichever occurs first. Safety assessments are based on AEs occurring from the first dose until 30 days after the last dose or until starting another anticancer therapy. Response assessments are performed after Cycle 1, then after every even numbered cycle starting with Cycle 2 until progression or discontinuation, whichever occurs first, and at the end of treatment visit. Response evaluation is determined using modified European LeukemiaNet (ELN) 2017 criteria for ALM and ALL; International Working Group (IWG) 2006 criteria for MDS; Lugano 2014 criteria for cHL; ELN 2020 criteria for CML; 2017 consensus criteria for HCL; IWG-Myeloproliferative Neoplasms Research and Treatment (MRT) & European Competence Network on Mastocytosis (ECNM) 2013 criteria for ASM; and modified criteria from Pemmaraju NEJM 2019 for BPDCN. Patients benefitting from MGD024 may continue to receive MGD024 after completion of the study treatment period, at physician discretion.

Acute lymphoid leukemia in Lebanese children: A retrospective study

Acute lymphoid leukemia (ALL) is the most common malignant disease affecting children, accounting for approximately 25% of all childhood cancers. Hence, the majority of these children are in developing countries. ALL is one of the major public health problems affecting the Lebanese children. Our objective was to investigate the epidemiology, laboratory findings and treatment efficacy in ALL children and extrapolate these results to the guidelines used internationally. This retrospective observational cohort study was performed using routine clinical data of 75 ALL children, with age ranging from 0 to 18 years old, attending three major hospitals in Beirut (Lebanon) over a period of thirteen years. Our results showed that males constituted 54.6% of all ALL patients and that ALL is predominant between ages 3–6 years, and that 85.3% of children were pre B-cell ALL. Furthermore, the results showed that there was an association between ALL type and age. Male patients had the highest numbers of high and low risk patients. Moreover, 48% of ALL patients had a WBC count less than 10,000/μL. An association was found between risk group and initial WBC. Cytogenetic abnormalities were detected in 17% of all patients. 73% of the patients cleared their lymphoblasts by day 15 of induction. Moreover, 63% of patients were free of disease for more than 5 years and 27% had complete remission, while 8% of patients died; of whom one had Down syndrome.This study highlights the situation of ALL in children in Lebanon. It provides a realistic overview that may help establish national guidelines for the investigation and management of childhood ALL.

The lncRNA TEX41 is upregulated in pediatric B-Cells Acute Lymphoblastic Leukemia and it is necessary for leukemic cell growth

BackgroundLong non-coding RNAs (lncRNAs) represent a diverse class of RNAs involved in the regulation of various physiological and pathological cellular processes, including transcription, intracellular trafficking, and chromosome remodeling. LncRNAs deregulation was linked to the development and progression of various cancer types, such as acute leukemias. In this context, lncRNAs were also evaluated as a novel class of biomarkers for cancer diagnosis and prognosis. Here, we analyzed TEX41 in childhood B cell acute lymphoid leukemia (B-ALL).MethodsTotal RNA was extracted from pediatric B-ALL patients (at diagnosis and after induction of therapy) and from healthy subjects. Total RNA was also extracted from different leukemia cell line models. The expression level of TEX41 was evaluated by q-RT-PCR. Also, the dataset deposited by St. Jude Children’s Research Hospital was consulted. Furthermore, the silencing of TEX41 in RS4;11 cell line was obtained by 2′-Deoxy, 2′Fluroarabino Nucleic Acids (2′F-ANAs) Oligonucleotides, and the effect on cell proliferation was evaluated. Cell cycle progression and its regulators were analyzed by flow cytometry and immunoblotting.ResultsWe exploited the St Jude Cloud database and found that TEX41 is a lncRNA primarily expressed in the case of B-ALL (n = 79) while its expression levels are low/absent for T-cell ALL (n = 25) and acute myeloid leukemia (n = 38). The association of TEX41 with B-ALL was confirmed by real-time PCR assays. TEX41 disclosed increased expression levels in bone marrow from patients with B-ALL at diagnosis, while its expression levels became low or absent when retested in Bone Marrow cells of the same patient after 1 month of induction therapy. Also, silencing experiments performed on RS4;11 cells showed that TEX41 downregulation impaired in vitro leukemic cell growth determining their arrest in the G2-M phase and the deregulation of cell cycle proteins.ConclusionsOur findings highlight that TEX41 is an upregulated lncRNA in the case of B-ALL and this feature makes it a novel potential biomarker for the diagnosis of this leukemia subtype in pediatric patients. Finally, TEX41 expression seems to be critical for leukemic proliferation, indeed, silencing experiments targeting TEX41 mRNA in the RS4;11 cell line hampered in vitro cell growth and cell cycle progression, by inducing G2-M arrest as confirmed propidium iodide staining and by the upregulation of p53 and p21 proteins.

Anti-CD22 CAR-T Cell Therapy as a Salvage Treatment in B Cell Malignancies Refractory or Relapsed After Anti-CD19 CAR-T therapy.

BackgroundTo observe efficacy of the anti-CD22 chimeric antigen receptor modified (anti-CD22-CAR) T cell salvage therapy in relapsed/refractory (R/R) diffuse large B-cell lymphoma (DLBCL) and B cell acute lymphoid leukemia (B-ALL) patients whose disease did not reach CR or progressed again after anti-CD19-CAR T cell therapy.MethodsIn our study, seven R/R DLBCL patients reached stable disease (SD) or progression of disease (PD) after their anti-CD19-CAR T cell therapy. Only three in all the six R/R B-ALL patients obtained complete response (CR)/CR with incomplete count recovery (Cri) in their anti-CD19-CAR T cell therapy, but they relapsed again in the following three, six and one months. Then, all these thirteen R/R DLBCL and B-ALL patients received anti-CD22 CAR-T cell salvage therapy because their disease did not reach CR or progressed again.ResultsFour R/R DLBCL patients obtained CR, while two R/R DLBCL patients achieved PR and one patient achieved SD. But only two R/R B-ALL patients obtained Cri in their anti-CD22 CAR-T cell salvage therapy. The overall survival (OS) of R/R DLBCL patients after the anti-CD22 CAR-T cell therapy was 6.142±3.395 months until August 31, 2020. There was no different of the median expansion peaks of the two kinds of CAR T cells (P=0.920). The time of anti-CD22-CAR T cell proportion peak days was later than that of the time of anti-CD19-CAR T cell peak days post infusion (P=0.022). Their cytokine release syndrome (CRS) was graded 2–4 in their anti-CD19-CAR T cell therapy, while the notable CRS was graded 1–2 in their anti-CD22-CAR T cell therapy. But there was no difference in the CRS and the immune effect or cell associated neurotoxic syndrome (ICANS) grades in the two kinds of therapies. And there was no difference in the hematological toxicity grades in the two kinds of therapies.ConclusionThe anti-CD22-CAR T cell salvage therapy is highly effective in R/R DLBCL patients than in R/R B-ALL patients who failed in anti-CD19-CAR T cell therapy before. We need to expand the number of R/R DLBCL or B-ALL patients and continue to observe.Trial RegistrationChiCTR-ONN-16009862 and ChiCTR1800019298.

Increased Incidence of Philadelphia Negative B-Cell Acute Lymphoblastic Leukemia Among Adults of Hispanic Ethnicity: A Population Based Study

Introduction:Previous population-based studies in pediatric acute lymphoid leukemia (ALL) have identified racial and ethnic differences in incident childhood ALL (Med Pediatr Oncol 2002;39:554), but the degree to which these disparities persist among adult ALL patients, who have distinct differences in the molecular subtypes of ALL compared to children, is less clear. Larger studies that look across broad populations of patients are needed to assess these findings in adult ALL. We therefore used the National Cancer Institute Surveillance, Epidemiology, and End Results (SEER) database to characterize the incidence of distinct subtypes of ALL in adults, to evaluate whether differences in racial or ethnic incidence rates are seen in the adult population and relate to molecular subtypes of disease.Methods:The 1973-2014 SEER-18 database was used to identify adults, age 20 years or older, diagnosed with lymphoid leukemia between 2000 and 2014. We included only patients with documented race/ethnicity and known age at diagnosis. Leukemia subtypes were defined by the third edition of the Internal Classification of Diseases for Oncology (ICD-O-3) and stratified by cell lineage and BCR-ABL mutation status. BCR-ABL mutation status was added to SEER in 2010 so analysis of these subgroups includes only patients diagnosed 2010-2014. Analysis was carried out comparing ethnicity, Hispanic (H) vs. non- Hispanic (NH), as well as race/ethnicity, non-Hispanic White (NHW) vs. Hispanic White (HW), non-Hispanic Black (NHB) or non-Hispanic Asian-Pacific Islander (NHAPI). Age-adjusted incidence rates (IRs) per 100,000 person-years were calculated using the Rate Session in SEER*Stat. Incidence rate ratios (IRR) were calculated using STATA software. Two-sided p-values were calculated using the mid-p test.Results:An overall higher incidence of ALL was present among patients of Hispanic ethnicity as compared to non-Hispanic (IR 1.59 vs. 1.08, IRR 1.47 p<0.001). The highest rates of ALL occurred in HW versus NHW, NHB, NHAPI (IR 1.613 HW vs. 0.994 NHW, IRR 1.623 p<0.001). The lowest rates occurred in NHB and NHAPI (IR 0.871 NHB and 0.817 NHAPI, IRR .876 and .822 respectively vs. NHW, p<0.001). The higher incident ALL rate among HW appeared to be explained by rates of B-ALL (IR 1.094 HW vs. 0.479 NHW, IRR 2.284 p <0.001). Further exploration, based on molecular subtype, revealed that there was no difference in incidence of BCR-ABL mutated B-cell ALL based on ethnicity (IR 0.066 H vs. 0.071 NH, IRR 0.935 p=0.706). There was, however, an increased incidence of B-cell ALL without a reported BCR-ABL mutation among patients of Hispanic ethnicity (IR 1.392 H vs. 0.695 NH, IRR 2.004 p<0.001). T-ALL was least prevalent among HW and there was no difference in incidence of mixed phenotype leukemia. NHB patients has significantly lower rates of ALL overall, however they had a higher age-adjusted incidence of T-cell ALL (IR 0.352 NHB vs. 0.211 NHW, IRR 1.665 p<0.001).Conclusions:In children, published data suggests an overall increased incidence of ALL among patients of Hispanic ethnicity and a decreased incidence among patients of Black race. Our analysis of SEER data from 2000-2014 shows that these patterns persist among adult patients. Interestingly, in this large, population-based study, we found that the higher rates of ALL among Hispanic populations are largely related to a higher incidence of Ph-negative B-cell ALL, a pattern that persists across all ages (figure 1). We also found an overall decreased rate among NHB patients, despite an increase in T-cell ALL. This is also consistent with findings seen in childhood ALL. The specific trends with Ph-negative B-cell ALL have not been previously described, likely due to limited availability of molecular data until this point. In this study, we found no difference in incidence rates of Ph-positive ALL in Hispanic vs. non-Hispanic populations across all age groupings. Our findings suggest that some underlying mechanism may contribute to higher rates of Ph-negative ALL in this population. Previously hypothesized explanations for this difference include susceptibility genes (ARID5B, PIP4K2A) which may be enriched in certain populations, environmental toxins or chemicals, viruses or other environmental factors. Whether some or most of these factors would account for the approximately double incidence of Ph-negative B-cell ALL across all ages remains unclear and requires further study. [Display omitted] DisclosuresFathi:Amgen: Consultancy, Membership on an entity's Board of Directors or advisory committees; Agios: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees; Medimmune: Consultancy, Membership on an entity's Board of Directors or advisory committees; Seattle Genetics: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding; Juno: Membership on an entity's Board of Directors or advisory committees; Takeda: Research Funding; Pfizer: Honoraria; Celgene: Consultancy, Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding. Brunner:Celgene: Research Funding; Takeda: Research Funding.

In Search of an Ideal CAR-T Cell Antigen Target.

Chimeric antigen receptor T (CAR-T) cells are proving their value in hematological cancers such as B cell acute lymphoid leukemia (B-ALL). This success is in great part due to the chosen target antigen, the lineage marker CD19, that is expressed by leukemia blasts and B lymphocytes, which are not crucial. For solid tumors, the challenge is greater because antigen expression is highly heterogeneous within the tumor and even an efficient CAR-T strategy would not kill all tumor cells. Also, many antigens are shared between solid tumors and healthy cells, causing off-target cell lysis and dangerous collateral damage. New antigen sources are emerging as targets, such as viruses, endogenous viruses, and immune checkpoint molecules. New technologies are in search of the ideal target, with antigen combinations the leading candidates.

KCTD15 is overexpressed in human childhood B-cell acute lymphoid leukemia

Leukemic cells originate from the malignant transformation of undifferentiated myeloid/lymphoid hematopoietic progenitors normally residing in bone marrow. As the precise molecular mechanisms underlying this heterogeneous disease are yet to be disclosed, the identification and the validation of novel actors in leukemia is of extreme importance. Here, we show that KCTD15, a member of the emerging class of KCTD ((K)potassium Channel Tetramerization Domain containing) proteins, is strongly upregulated in patients affected by B-cell type acute lymphoblastic leukemia (B-ALL) and in continuous cell lines (RS4;11, REH, TOM-1, SEM) derived from this form of childhood leukemia. Interestingly, KCTD15 downregulation induces apoptosis and cell death suggesting that it has a role in cellular homeostasis and proliferation. In addition, stimulation of normal lymphocytes with the pokeweed mitogen leads to increased KCTD15 levels in a fashion comparable to those observed in proliferating leukemic cells. In this way, the role of KCTD15 is likely not confined to the B-ALL pathological state and extends to activation and proliferation of normal lymphocytes. Collectively, data here presented indicate that KCTD15 is an important and hitherto unidentified player in childhood lymphoid leukemia, and its study could open a new scenario for the identification of altered and still unknown molecular pathways in leukemia.

N-MYC INDUCES VARIOUS TYPES OF MOUSE ACUTE LEUKEMIA

N-Myc plays a role in the regulation of proliferation, differentiation, and survival of hematopoietic stem cells (HSCs) and leukemogenesis. We studied the cell of origin in the mouse acute leukemia model by N-Myc-overexpression. Our single cell RNA-seq data showed that N-Myc is restrictively expressed in HSCs and hematopoietic progenitor cells (HPCs) whereas c-Myc, but not L-Myc, is widely expressed in a variety of hematopoietic cells. HSC1, HSC2, HPC1, HPC2, and HPC3 with different self-renewal and differentiation potentials were isolated from the bone marrow of adult B6 mice. These cells were retrovirally overexpressed with N-Myc and transplanted into lethally irradiated mice with competitor cells. Acute leukemia developed from all these populations. Notably, not only B cell acute lymphoid leukemia (B-ALL), but also T cell ALL (T-ALL), acute myeloid leukemia (AML), acute undifferentiated leukemia (AUL), and mixed phenotype acute leukemia (MPAL) developed. Metascape analysis of RNA-seq data showed that RNA profiles each from B-ALL, T-ALL, AML and AUL samples were enriched in special cellular signaling pathways. Collectively, the multiple cells of origin suggested that the self-renewal and differentiation potentials of cells were not related to leukemogenesis induced by N-Myc-overexpression. In addition, whole genome sequencing data suggested that retroviral integration sites play a role in the development of different types of leukemia.

Abstract B035: Enhancing antitumoral activity of cell-based immunotherapies by modulating the JAK-STAT axis

Abstract Mounting a T helper 1 (Th1) type of response is required for the successful priming of antigen specific CD8 T-cells which ultimately lead to effective antitumoral responses. Several cellular components of the immune system participate of the Th1 decision-making process. They include innate cells sensing the transformed cells, mainly dendritic cells (DCs), and the further involvement of antigen specific CD4 T-cells promoting direct activation of CD8 T-cells through cross-presentation (1). The correct stimulation of DCs by type I interferons and molecular pattern sensors as STING is required to drive their differentiation to conventional DC 1 (cDC1) which through the secretion of large amounts of IL-12 and the expression of CD40 skew the CD4 T-cells differentiation to Th1 (2). However, this system is sensitive to modifications of the tumor cytokine microenvironmen,t leading to failure. Adoptive cell transfer (ACT) cancer immunotherapies are promising treatments for advanced malignancies. These therapies attempt to supply key cellular actors missing and induce proper antitumoral immunity. They include mainly the in vitro modification of autologous cells, from DCs loaded with tumor antigens to the expression of chimeric antigen receptor (CAR) on T and NK cells. Constant development of these technologies has given successful results as clinical trials have already showed up to 90 % of complete remission in relapsed/refractory B cell acute lymphoid leukemia (B-ALL) (3), treatment now approved for commercial use. However, there is still lack of consistency in the responses obtained from different individuals and in different trials. Previously our laboratory has already shown that modulation of the JAK-STAT inhibitory protein tyrosine phosphatases (PTPs), PTPN1 and PTP-N2, enhance proinflammatory type I interferon signalling while decreases the effects of immunosuppressive cytokines acting through STAT3 signaling (4, 5). Specifically, we have demonstrated that partial inhibition of these phosphatases in immune cells enhances the secretion of IL-12p70 by DCs[6] and increases the cytotoxic activity of antigen specific CD8 T-cells [Pérez-Quintero LA, Tremblay ML, unpublished results]. Moreover, the partial inhibition of these phosphatases in CD8 T-cells enhance the acquisition of a central memory (Tcm) phenotype, which has been found to be associated with better remission in CAR-T-cells therapies. Nevertheless, alternative methods to enrich this phenotype, as cytokine cocktails, have proven expensive and ineffective. Having this in mind, we propose here the use of small-molecule inhibitors specific for PTPN1 and PTPN2 as a simple and cost-effective method to enhance antitumoral responses. By treating ex vivo the cellular products in animal models for DCs and CD8 ACT therapies we show, as a proof of concept, a marked improvement on the reduction of tumor burden and remission, with the late goal of translating these findings into a clinical setup.

Decreased RORC expression and downstream signaling in HTLV‐1‐associated adult T‐cell lymphoma/leukemia uncovers an antiproliferative IL17 link: A potential target for immunotherapy?

Retinoic acid‐related drugs have shown promising pre‐clinical activity in Adult T‐cell Leukemia/Lymphoma, but RORC signaling has not been explored. Therefore, we investigated transcriptome‐wide interactions of the RORC pathway in HTLV‐1 and ATL, using our own and publicly available gene expression data for ATL and other leukemias. Gene expression data from ATL patients were analyzed using WGCNA to determine gene modules and their correlation to clinical and molecular data. Both PBMCs and CD4+ T‐Cells exhibited decreased RORC expression in four different ATL cohorts. A small subset of RORChi ATL patients was identified with significantly lower pathognomonic CADM1 and HBZ levels but similar levels of other ATL markers (CD4/CD25/CCR4), hinting at a less aggressive ATL subtype. An age‐dependent decrease in RORC expression was found in HTLV‐1‐infected individuals, but not in healthy controls, suggesting an early molecular event predisposing to leukemogenesis. Genes upstream of RORC signaling were members of a proliferative gene module (containing proliferation markers PCNA/Ki67), whereas downstream members clustered in an anti‐proliferative gene module. IL17C transcripts showed the strongest negative correlation to PCNA in both ATL cohorts, which was replicated in two large cohorts of T‐ and B‐cell acute lymphoid leukemia (ALL). Finally, IL17C expression in purified CD4 + CCR4 + CD26‐CD7‐ “ATL‐like” cells from HTLV‐1‐infected individuals and ATL patients was negatively correlated with clonality, underscoring a possible antileukemic/antiproliferative role. In conclusion, decreased RORC expression and downstream signaling might represent an early event in ATL pathogenesis. An antiproliferative IL17C/PCNA link is shared between ATL, T‐ALL and B‐ALL, suggesting (immuno)therapeutic benefit of boosting RORC/IL17 signaling.

Inotuzumab Ozogamicin Compassionate Use for French Pediatric Patients with Relapsed or Refractory Acute Lymphoblastic Leukemia

Introduction: Inotuzumab ozogamicin (INO) is an anti-CD22-drug conjugate therapeutic agent, in which a cytotoxic agent, calicheamicin, is conjugated to a humanized IgG4 anti-CD22 mAb (de Vries et al., Leukemia, 2012). As CD22 expression is confined to the B-cell lineage and is largely expressed in mature and immature B-cell malignancies, INO represents an attractive drug to treat B-cell acute lymphoid leukemia (ALL). INO has been evaluated in clinical trials and its efficacy has been reported in adult and elderly patients (pts) with ALL (Kantarjian et al., NEJM, 2016; Lancet Oncol 2018 and Cancer 2018). Since half of the total number of cases of ALL occurs in children and teenagers and it is the most frequently diagnosed malignancy in children, with the vast majority arising from B-cell lineage (85%), INO is also a drug of interest for the 15% of pediatric pts who are not cured by current treatments. We here report French pediatric pts with refractory or relapsed (r/r) B-cell ALL who were treated by INO through a compassionate use access program.Methods: French pediatric hematology centers provided retrospective clinical follow-up on pts' ≤ 18 years old affected by r/r B-cell ALL who received at least one dose of INO, provided by Pfizer through a compassionate use program following authorization by the French regulatory agency (ANSM) between 2015 and 2017. All pts were treated according to the adult phase 3 clinical trial dose of 1.8 mg/m2 during the first course divided as followed: 0.8 mg/m2 of body surface at day 1 and 0.5 mg/m2 at day 8 and 15. A second course could be repeated at the same dosage if the response was not complete after the first course. Then the consolidation courses of treatment could be continued at the dose of 1.5 mg/m2 divided as 0.5 mg/m2 of body surface at day 1, 8 and 15, up to 3 total cycles.Results: Eleven pts aged from 3 to 18 years old received INO; and were: 2 between 1 and 10 years old, 4 between 10 and 15 and 5 between 15 and 18. They received from 1 to 3 cycles of INO. They were heavily pretreated, as 6 of them received INO while refractory to the treatment of a first relapse, and 5 of them in treatment of second relapse or more. Prior to INO therapy, 4/11 pts had undergone allogenic hematopoietic stem cell transplantation (HSCT) and 7/11 pts had received anti-CD19 therapy with either Blinatumomab (6/7) or CAR-T cells (1/7). Pre-INO treatment medullary status was M3 (>25% blasts) for 8/11 pts, M2 (5-25%) for 2 pts and M1 (<5%) with positive minimal residual disease (MRD) and extra-medullary disease for 1 patient (pt).Eight pts were in complete remission (CR) after one cycle (M2/M3 marrow prior to INO: 7, M1: 1), including 2 pts with an undetectable MRD (< 10-5). These 2 pts received a second cycle of INO and were brought to HSCT; both of them are alive (20 months (m)+, 27 m+). The 6 remaining pts in CR but MRD+ subsequently died: 1) 5 received a second cycle of INO without documentation of MRD negativity. All of them relapsed whatever the following treatment (time to disease progression ranged from 1 week to 17 months). 2) 1 pt was brought to HSCT but died of cardiac failure 3 months after the procedure.As observed in adults, hepatic and hematologic adverse events were observed. All pts developed hematologic toxicities, 10/11 pts with grade 3/4 anemia, neutropenia or thrombocytopenia. Febrile neutropenia of grade 3/4 occurred for 5 pts. Cholestasis with grade 3/4 elevations of GGT or transaminases was noted in 4/11 pts. Sinusoidal obstruction syndrome (SOS) occurred in 1 pt who had previously undergone HSCT, during his first course of INO. Two pts who subsequently underwent HSCT developed SOS during transplant. All of these 3 pts recovered normal hepatic function. None of them died from INO direct toxicities.Conclusion: Toxicities developed by these young patients were very similar to the ones reported in adults with hepatic and infectious toxicities. The incidence of SOS seems significant in patients that underwent HSCT either before or after INO treatment. INO showed promising results in pediatric compassionate use program in our French cohort, similarly to the one reported by Bhojwani D et al. (ASCO abstract, 2017). Its safety and efficacy in r/r B-cell ALL are to be further investigated in pediatric populations within prospective clinical trials currently underway in EU and US. DisclosuresBaruchel:Novartis: Membership on an entity's Board of Directors or advisory committees; Roche: Consultancy; Amgen: Consultancy; Jazz Pharmaceuticals: Consultancy, Honoraria, Other: Travel, accommodations or expenses; Celgene: Consultancy; Servier: Consultancy; Shire: Research Funding.

Blinatumumab Induces Responses in Extramedulary B-Cell Acute Lymphoid Leukemia (B-ALL) and Lymphoid Blast Crisis Chronic Myelogenous Leukemia (CML), and Rarely Results in CD19 Negative Relapse

Blinatumumab Induces Responses in Extramedulary B-Cell Acute Lymphoid Leukemia (B-ALL) and Lymphoid Blast Crisis Chronic Myelogenous Leukemia (CML), and Rarely Results in CD19 Negative Relapse

Prognostic Effect of Complex Karyotype, Monosomal Karyotype, and Chromosome 17Abnormalities in B-Cell Acute Lymphoblastic Leukemia.

The effect of monosomal karyotype (MK), complex karyotype (CK), and chromosome 17 abnormalities (abnl 17) on prognosis in B-cell acute lymphoid leukemia (B-ALL) has not yet been established. We conducted a retrospective analysis of prognostic factors on 237 adult patients with B-ALL treated at our institution. Older age (older than 60 years), higher white blood cell count (> 30), and abnl 17 were associated with shorter overall survival in univariate analysis, but multivariable analysis only identified older age as an independent poor prognostic actor. There was a significant correlation between abnl 17 and older age. In contrast to the patients with acute myeloid leukemia, our results show that MK and CK do not play a predictive role in patients with B-ALL, but further study is required to determine whether specific changes on chromosome 17 might have prognostic value when investigated separately.

Downregulation of SETD2-H3K36me3 Tumor Suppression Axis Promotes MLL Leukemia through Activation of DOT1L-H3K79me2 Axis

SET domain containing 2 (SETD2) gene encodes the sole methyltransferase that is specific for histone H3 lysine 36 trimethylation (H3K36me3) in mammals. Previously we identified somatic SETD2 loss-of-function (LOF) mutations in both acute myeloid leukemia (AML) and acute lymphoid leukemia (ALL) patients. Interestingly, SETD2 mutations were identified in over 20% of leukemia patients with MLL gene rearrangement. Using an Mll-Af9 (MA9) knock-in AML mouse model, we found that downregulation of Setd2 by shRNA or genetic knock-out/knock-in strategies significantly accelerated disease development. However, the contribution of SETD2-H3K36me3 axis downregulation to MLL leukemia progression has not yet been fully understood. In MLL leukemia, high expression levels of MLL targets, driven by aberrant histone H3 lysine 79 dimethylation (H3K79me2), have been reported. Both H3K36me3 and H3K79me2 are enriched within the body of transcriptionally active genes and are associated with phosphorylated RNA Polymerase II. Whether H3K36me3 also contributes to gene dysregulation in MLL leukemia, whether SETD2-H3K36me3 downregulation has impacts on DOT1L-H3K79me2 axis, and how it promotes MLL leukemia progression are unclear. More importantly, SETD2 mutations were enriched in relapsed B-cell ALL patients. SETD2 LOF mutation could cause chemotherapy resistance or relapse after bone marrow transplantation. Thus, mechanistic-driven novel therapies are urgently needed for leukemia with SETD2 mutation.Firstly, to understand SETD2-H3K36me3 axis on gene regulation in MLL leukemia, we purified c-Kit+ hematopoietic stem/progenitor cells (HSPCs) fromMA9 and normal C57/BL/6 wild-type (WT) adult mice. Using immuno-blotting, we found increased H3K36me3 and H3K79me2 in the HSPCs from MA9 compared to those from WT mice. To further study the global histone modification and gene regulation, we performed ChIP-seq and RNA-seq analyses. Genome-wide increase of H3K36me3 and H3K79me2 were confirmed in the HSPCs from MA9 mice, and both modifications were positively correlated with gene expression. Our results indicate that not only increased H3K79me2, but also increased H3K36me3 are related to gene dysregulation in MLL leukemogenesis. Next, to explore the impact of SETD2-H3K36me3 loss on DOT1L-H3K79me2 axis and leukemia progression, we performed KD of Setd2 gene. Setd2 KD caused increased self-renewal and proliferation abilities of both WT and MA9 HSPCs. However, Setd2 KD-WT HSPCs could be replated only 3-4 times in vitro, suggesting that the SETD2 single mutation is not sufficient for leukemic transformation. In contrast, Setd2 KD significantly enhanced in vitro replating ability and in vivo leukemia development of MA9 HSPCs. Immuno-blotting and ChIP-seq results revealed the dramatic loss of H3K36me3 in Setd2 KD cells. Surprisingly, global H3K79me2 was further increased in Setd2 KD cells. As upregulation of MLL targets is the main driver for MLL leukemogenesis, we measured the expression levels of known MLL targets. However, no significant change was found either in the RNA-seq or qPCR validation. Moreover, up-regulated genes with higher H3K79me2 in their 5' gene bodies were not enriched in the classical known MLL targets but a different group of AML related genes including Arg, Erg and Bcl2l1. This partially explains the corporative activity between SETD2 LOF and MLL fusions. Thirdly, due to the further increase of H3K79me2 in Setd2 KD cells, we tested epigenetic inhibitors for DOT1L-H3K79me2 axis in MLL leukemia with SETD2 LOF mutant models. DOT1L inhibitor EPZ-5676 induced differentiation and cell death of Setd2 KD MA9 cellsor MA9/Setd2 LOF mutant cells with significantly lower concentration (450nM) compared to the case of MA9 cells (1000nM), indicating that DOT1L-H3K79me2 axis could be the tumor vulnerability of this chemo-resistant type of leukemia.In conclusion, using MA9 genetic knock-in mouse model and modulating SETD2-H3K36me3 axis, we found that, 1) not only H3K79me2, but also H3K36me3 were aberrantly modified in MLL leukemia which related to gene dysregulation, 2) Downregulation of SETD2-H3K36me3 axis could further upregulate DOT1L-H3K79me2 axis, leading to activation of a new set of AML related genes which could contributes to quick leukemia onset, 3) EPZ-5676 could be an effective therapeutic option for MLL leukemia patients with SETD2 mutations by targeting its tumor vulnerability. DisclosuresNo relevant conflicts of interest to declare.