GPRC5D has emerged as a promising therapeutic target in relapsed/refractory multiple myeloma (R/R MM), particularly following progression after B-cell maturation antigen (BCMA)-directed chimeric antigen receptor (CAR) T-cell (CAR-T) therapies. RD118 is a novel CAR-T therapy incorporating a fully human single-domain antibody fragment targeting GPRC5D. In this phase 1 study, 18 R/R patients (17 with MM and 1 with a history of primary plasma cell leukemia) received a single infusion of RD118 at 1.0 × 106, 2.0 × 106, or 3.0 × 106 CAR+ T cells per kg. At a median follow-up of 17.0 months, the overall response rate (ORR) was 94.4%, including 72.2% complete or stringent complete responses. Among the 7 patients previously exposed to BCMA-directed CAR-T therapy, ORR reached 85.7%. Median progression-free survival (PFS) was 18.2 months (95% confidence interval, 14.4 to not estimable), with 12-month PFS and overall survival rates of 82.1% and 93.3%, respectively. Cytokine release syndrome occurred in 88.9% of the patients, primarily grade 1 to 2. One patient developed grade 3 immune effector cell-associated neurotoxicity, which resolved within 72 hours. No cerebellar toxicities or treatment-related deaths were reported. These findings support that RD118 is a highly effective and safe therapeutic option for heavily pretreated R/R MM. This trial was registered at www.clinicaltrials.gov as #NCT05759793 and #NCT05219721.

Myeloid leukemia of Down syndrome (ML-DS) is associated with an excellent prognosis but high treatment-related toxicity and mortality. The Phase 3 Clinical Trial for CPX-351 in ML-DS 2018 aimed to maintain the excellent event-free survival (EFS) achieved in the previous ML-DS 2006 trial while reducing the treatment intensity. Intensity-reduced induction and reinduction therapy with cytarabine and idarubicin with or without etoposide was replaced with CPX-351 (66 U/m2 on 3 days in course 1 and on 2 days in course 2). Risk stratification was based on flow cytometric measurable residual disease (MRD) after first induction. High-risk patients received high-dose cytarabine (3 g/m2 per 12 hour) in consolidation; standard-risk patients received cytarabine at a dose of 1 g/m2 per 12 hour. A total of 35 patients were enrolled until the trial was halted because of an unexpectedly high relapse rate. A per-protocol interim analysis revealed a significantly lower 24-month EFS when compared with the ML-DS 2006 trial (69% vs 90%; P< .001). In contrast with previous studies, most patients who relapsed responded to salvage therapy, leading to a comparable 24-month overall survival of 88% (vs 92%; P = .612). CPX-351 demonstrated a favorable toxicity profile with no treatment-related mortality. Positive MRD by error-corrected GATA1 next-generation sequencing, the presence of trisomy 8 or a complex karyotype were associated with an increased risk for relapse. In conclusion, replacing intensity-reduced induction therapy with CPX-351 in ML-DS led to a significantly lower EFS, highlighting the need for dose optimization to balance the efficacy and toxicity in this sensitive patient population. This trial was registered at https://www.clinicaltrialsregister.eu as EudraCT #2018-002988-25.

Oncogenic growth places great strain and dependence on protein homeostasis (proteostasis). This has made proteostasis pathways attractive therapeutic targets in cancer, but efforts to drug these pathways have yielded disappointing clinical outcomes. One exception is proteasome inhibitors, which are approved for the frontline treatment of multiple myeloma. However, proteasome inhibitors are largely ineffective for the treatment of other cancers at tolerable doses, including acute myeloid leukemia (AML), although reasons for these differences are unknown. Here, we determined that proteasome inhibitors are ineffective in AML due to their inability to disrupt proteostasis. In response to proteasome inhibition, AML cells activated HSF1 and increased autophagic flux to preserve proteostasis. Genetic inactivation of HSF1 sensitized AML cells to proteasome inhibition, marked by accumulation of unfolded protein, activation of the protein kinase R (PKR)-like endoplasmic reticulum kinase (PERK)-mediated integrated stress response, severe reductions in protein synthesis, proliferation and cell survival, and significant slowing of disease progression and extension of survival in vivo. Similarly, combined autophagy and proteasome inhibition suppressed proliferation, synergistically killed human AML cells, and significantly reduced AML burden and extended survival in vivo. Furthermore, autophagy and proteasome inhibition preferentially suppressed protein synthesis and colony formation and induced apoptosis in cells from patients with primary AML, including AML stem/progenitor cells, compared with normal hematopoietic stem/progenitor cells. Combined autophagy and proteasome inhibition activated a terminal integrated stress response, which was surprisingly PKR. These studies unravel how proteostasis pathways are coopted to promote AML growth, progression and drug resistance and reveal that disabling the proteostasis network is a promising strategy to therapeutically target AML.

Acute myeloid leukemia (AML) is a polyclonal malignancy marked by high relapse rates despite initial morphologic remission. Although measurable residual disease (MRD) is an established prognostic tool, increasing evidence supports a role for preemptive, MRD-directed therapy. AML monitoring is hampered by the absence of a universal MRD marker, necessitating a more personalized approach. NPM1 is suited to an MRD-directed strategy because the mutation is AML defining and the monitoring methods are highly sensitive. Critically, rising NPM1mut levels portend clinical relapse with high fidelity, and recent studies demonstrate that venetoclax-based regimens induce rapid and deep MRD responses in a high proportion of patients with NPM1mut MRD relapse. The range of MRD-directed treatment options is expanding and includes FLT3 and menin inhibitors for MRD relapse driven by FLT3-ITD, NPM1mut and KMT2A rearrangements, respectively. To overcome the logistical issue of multiple MRD markers and associated therapies, we have developed a multitarget, multiarm platform trial named INTERCEPT. Novel features include the potential to adaptively expand the range of MRD markers and directed therapies, seamless transition of patients from a local to centralized MRD monitoring framework, a clinical decision rules approach to allocate treatment in a hierarchical and prespecified manner, creation of parallel protocol appendices to enable multiple industry partners to coexist with commercial independence, and development of approaches to minimize the time interval from "MRD relapse to treatment." The future success of MRD-directed therapy will depend on rapid diagnostic turnaround, coordinated logistics, and innovative clinical trial designs able to keep pace with advances in MRD detection technologies and associated targeted therapies.

The BCR::ABL1 tyrosine kinase inhibitors (TKI) in chronic myeloid leukemia (CML) represent a paradigm for molecularly targeted therapy. However, clinical outcomes (rate/depth of response, treatment-free remission [TFR], progression to blast crisis [BC]) and adverse events vary among patients. While additional somatic mutations have been invoked to explain varying clinical outcomes, we here propose a complementary perspective based on single-cell omics (sc-omics) approaches that have enabled unprecedented resolution of the cellular ecosystems, including their composition, interactions, and activity. In patients who were treatment-naïve and in chronic phase (CP), this has revealed differences in the growth-rate of BCR::ABL1+ clones, ratio of TKI-insensitive leukemic stem cells (LSC) to residual hematopoietic stem cells (HSC), and immune cell composition, factors that collectively contribute to variability in therapy efficacy. Together these findings suggest that cellular heterogeneity serves as a foundation of clinical outcome in CML. Patients who remain in CP exhibit an erythroid signature in LSC, while those progressing to BC manifest an inflammatory profile, additional mutations, and expansion of early progenitors. Deep responders with active natural killer, and regulatory T cells are more likely to sustain TFR. Similarly, the outcomes of donor lymphocyte infusion after allogeneic stem cell transplant are heterogeneous, and reflect differences in preexisting T-cell clonotypes, their expansion, and interaction with leukemic cells in responders vs nonresponders. Here, we summarize key insights from sc-omics in CML, and propose an actionable road map to further leverage these technologies. This includes mechanistically explaining heterogeneity, predicting therapy response and BC, tracking leukemogenic clones longitudinally, targeting TKI-insensitive LSC, and restoring hematopoiesis from residual HSCs.

The European LeukemiaNet has periodically issued guidelines for the diagnosis and management of acute myeloid leukemia (AML) in adults. These consensus recommendations, most recently updated in 2022, incorporate recent advances in genomic testing, disease detection methods, target identification, and response assessment. Although similarities exist between AML in children and adults, pediatric AML is frequently characterized by unique cytogenetic and molecular features, which require distinct genetic and immunophenotypic diagnostics, therapeutic approaches, response assessment criteria, and supportive care strategies. To address these specific needs, an international panel of pediatric hematologist-oncologists, biologists, geneticists, and laboratory medicine scientists convened to develop recommendations for the diagnosis and management of AML in children, adolescents, and young adults (hereafter termed pediatric AML) that are discussed in this special report.

Epstein-Barr virus (EBV) infects over 90% of the global population and drives multiple aggressive B-cell malignancies, including Burkitt lymphoma, diffuse large B-cell lymphoma, and Hodgkin lymphoma. Standard chemoimmunotherapy regimens can be highly effective, yet Epstein-Barr virus positive (EBV+) lymphomas sometimes exhibit poorer responses, higher resistance, and worse survival compared with Epstein-Barr virus-negative (EBV-) counterparts. This reflects the virus's ability to drive immune evasion, alter cell death pathways, and exploit host immune dysfunction, underscoring the potential value of EBV-directed strategies. Withaferin A (WA), a steroidal lactone with known anticancer and anti-inflammatory properties, was evaluated for its efficacy against EBV-associated B-cell non-Hodgkin lymphomas (B-NHL). Across a panel of lymphoma cell lines, WA demonstrated selective cytotoxicity toward EBV+ B-NHL, in part through proteasome-dependent degradation of EBNA1 (EBV nuclear antigen 1) and subsequent loss of viral episomes, alongside additional effects on cellular stress and survival pathways. Mechanistic studies revealed that WA collapses antioxidant defenses, drives oxidative stress, and suppresses NF-κB signaling, creating a multipronged disruption of viral and host survival pathways. In primary B-cell models and a cord blood-humanized mouse model of EBV-driven lymphomagenesis, WA inhibited B-cell transformation, reduced splenomegaly and tumor burden, and significantly prolonged survival without evidence of increased viral replication. These findings establish WA as a potent preclinical candidate that selectively targets vulnerabilities unique to EBV-transformed B cells, supporting further optimization and evaluation for EBV+ B-cell malignancies.

The peptide hepcidin is produced by the liver and serves as the central negative regulator of iron trafficking. Recently, drugs that affect the hepcidin pathway have been evaluated as potential treatment options for both controlling the degree of erythrocytosis in patients with polycythemia vera (PV) as well as correcting anemia associated with myelofibrosis (MF). Under normal conditions, increased hepcidin levels limit iron absorption from the gastrointestinal tract and iron recycling from liver and splenic macrophages, thus decreasing plasma iron levels and restricting iron availability for erythropoiesis. In PV, however, unrestricted erythropoiesis occurs despite low systemic iron levels. Because hepcidin levels are relatively low in patients with PV, hepcidin agonists (rusfertide, divesiran, sapablursen) are undergoing clinical development to control PV-associated erythrocytosis, thereby reducing the need for therapeutic phlebotomies and myelosuppressive therapeutic options. By contrast, hepcidin levels are increased in patients with MF leading to the trapping of iron in tissue macrophages, which creates a picture that resembles anemia of chronic inflammation. A number of strategies to lower hepcidin levels (the Janus kinase 2 inhibitors pacritinib and momelotinib, anti-hemojuvelin monoclonal antibody DISC-0974C) are currently undergoing clinical development to make systemic iron available for erythropoiesis and alleviate the degree of MF-associated anemia. These new therapeutic options that modulate iron trafficking in patients with PV and MF represent the application of greater knowledge of iron trafficking to create novel therapeutic options to treat patients with hematological malignancies.

Tissue factor (TF), encoded by F3, binds factor VII (FVII)/activated factor VII (FVIIa) to initiate blood coagulation. Because standard clinical assays do not measure endogenous TF directly, the extent to which human F3 variants affect blood coagulation is unknown. We sought to determine the effect of the human TF missense variants with the highest allele frequency as well as additional rare variants occurring at sites predicted to perturb the initiation of blood coagulation. The variants with the highest allele frequency did not affect coagulation activation. By contrast, some rare human TF missense substitutions did profoundly affect TF-initiated plasma clotting time and the activation of FIX and FX by 2 distinct mechanisms: by precluding TF interaction with FVIIa, or by altering the TF exosite to prevent macromolecular but not amidolytic substrate cleavage. Individuals heterozygous for the rare p.Gly196Arg variant have reduced basal FVIIa-antithrombin complex and D-dimer levels but no major differences in TF or FVII levels. Gly196Arg supported impaired FVII autoactivation in vitro. These data demonstrate that rare missense variants in F3 can impair the activation of FVII, FIX, and FX, and suggest these variants impair the basal activation of blood coagulation in humans.

We describe, to our knowledge, the first case of nicotinamide mononucleotide adenylyl transferase 3 (NMNAT3) deficiency, a novel red cell enzymopathy that causes reduced NAD levels and mild hemolytic anemia, which improved upon NAD precursor supplementation. We therefore propose testing for NMNAT3 variants in unexplained hereditary hemolytic anemia.

CD19 chimeric antigen receptor (CAR) T-cell therapy has become the standard of care in relapse and/or refractory B-cell malignancies. Up to 30% to 60% of patients experience relapsed disease because of the emergence of CD19low or CD19- tumor cell clones. Although bispecific CD19/CD22 CAR T cells have been explored, limited persistence and antigen downregulation of CD19 and/or CD22 have compromised their efficacy in relapsing patients. A comprehensive analysis of CD22 expression revealed that CD22 is ubiquitously expressed across all subgroups of B-cell lymphomas and B-cell leukemias, establishing CD22 as a valuable immunotherapeutic target. Using a humanized mouse model with a diverse human T-cell receptor (TCR) repertoire, we identified a high-affinity TCR targeting a CD22 epitope presented by HLA-A∗02:01. In vitro, this TCR demonstrated high specificity and efficacy in both CD22+ cell lines and primary patient-derived tumor samples. Importantly, CD22 TCR T cells outperformed CD22 CAR T cells in recognizing cells with low CD22 surface expression, including CD22low Nalm6 cells that emerged after in vivo CD19 T-cell treatment. Unlike CD22 CAR T cells, CD22 TCR T cells effectively recognized tumor cells that predominantly express intracellular CD22. Notably, in vivo validation in a Nalm6 B-cell leukemia model confirmed the superior activity of CD22 TCR T cells against CD22low cells compared to CD22 CAR T cells. In conclusion, our findings provide strong preclinical evidence supporting CD22 TCR-based therapy as a potent treatment option for CD22low B-cell malignancies, including patients who relapsed after CD19 CAR T-cell therapy.

In multiple myeloma (MM), cell-specific antigens are valuable targets for developing effective T-cell-engaging therapeutics that can provide good immune responses. Achieving a sustained immune response in recurrent MM, however, remains challenging. Ramantamig (JNJ-79635322) is a trispecific antibody targeting BCMA (B-cell maturation antigen) and GPRC5D (G-protein-coupled receptor family C group 5 member D), both of which are highly expressed on plasmablasts and plasma cells in samples from patients with myeloma. Dual antigen recognition on malignant plasma cells by a trispecific T-cell-engaging antibody could potentially enhance tumor binding through increased avidity, resulting in efficient depletion of the malignant clonal populations, targeting of tumor heterogeneity, and prevention of tumor antigen loss-mediated resistance. At subnanomolar ranges, ramantamig induced potent cytotoxicity in cancer cell lines with concomitant T-cell activation. Ramantamig efficiently depleted both dual- and single-target-expressing MM cell lines. In addition, it induced dose-dependent depletion of malignant plasma cells in samples from patients with MM both in an ex vivo T-cell coculture assay and in healthy fresh whole blood cocultured with H929 MM cells to mimic physiological conditions. Ramantamig exhibited potent antitumor activity in a murine xenograft prevention model (single-target-expressing clonal cells) and 2 tumor regression models. The potent and selective antitumor activity of ramantamig, with a clonal-depleting ability in vitro, ex vivo, and in vivo, warrants clinical evaluation of its ability to induce durable responses in myeloma. Phase 1 clinical trials are ongoing for patients with relapsed/refractory MM. These trials are registered at www.clinicaltrials.gov as NCT05652335 and NCT06768489.

Clinical trial eligibility criteria select a target population and reduce anticipated risks for participants but may unnecessarily limit participation both overall and differently across demographic groups. We previously abstracted eligibility criteria for 190 phase 2/3 acute myeloid leukemia (AML) trials and used US Food and Drug Administration and professional society guidance on modernizing criteria to develop alternative, safety-based eligibility criteria for each trial. In this analysis, these trial- and safety-based eligibility criteria sets were applied to a retrospective cohort of 2226 newly diagnosed patients across 8 hospitals to assess the impact on eligibility. Eligibility proportions increased from a median of 47.9% with trial-based criteria to 84.2% with safety-based criteria (median difference, 30.0%; P< .001); excluding age criteria, the increase was 11.5% (P< .001). Non-Hispanic (NH) Asian, NH Black, NH White, and Hispanic patients were eligible for median proportions of 41.1%, 44.0%, 47.9%, and 50.0%, respectively, with trial-based criteria, increasing by 27.9% to 31.6% when using safety-based criteria (within-group changes, all P< .001; between-group changes, all P> .05). Excluding age criteria, increases were between 10.0% and 11.9%. Moving from trial- to safety-based criteria decreased the proportion of trials with significant eligibility differences between NH White and NH Asian (-11.1%), NH Black (-4.2%), and Hispanic (-12.1%) patients. Criteria significantly associated with increased eligibility and decreased between-group differences in eligibility were coronary artery disease, congestive heart failure, aspartate transaminase level, upper age limits, and previous malignancy. These data suggest that modernization of eligibility for AML trials to focus on safety-based criteria can improve both overall enrollment and population representation.