Evidence that the expression of transferrin receptor 1 on erythroid marrow cells mediates hepcidin suppression in the liver

Hepcidin is the key regulator of iron absorption and recycling, and its expression is suppressed by red blood cell production. When erythropoiesis is expanded, hepcidin expression decreases. To gain insight into the stage of erythroid differentiation at which the regulation might originate, we measured serum hepcidin levels in archived pure red cell aplasia samples from patients whose block in erythroid differentiation was well defined by hematopoietic colony assays and marrow morphologic review. Hepcidin values are high or high normal in pure red cell aplasia patients in whom erythropoiesis is inhibited prior to the proerythroblast stage, but are suppressed in patients with excess proerythroblasts and few later erythroid cells. These data suggest that the suppressive effect of erythropoietic activity on hepcidin expression can arise from proerythroblasts, the stage at which transferrin receptor 1 expression peaks, prompting the hypothesis that transferrin receptor 1 expression on erythroid precursors is a proximal mediator of the erythroid regulator of hepcidin expression. Our characterization of erythropoiesis, iron status, and hepcidin expression in mice with global or hematopoietic cell-specific haploinsufficiency of transferrin receptor 1 provides initial supporting data for this model. The regulation appears independent of erythroferrone and growth differentiation factor 15, supporting the concept that several mechanisms signal iron need in response to an expanded erythron

Genetic features of myelodysplastic syndrome and aplastic anemia in pediatric and young adult patients

The clinical and histopathological distinctions between inherited versus acquired bone marrow failure and myelodysplastic syndromes are challenging. The identification of inherited bone marrow failure/myelodysplastic syndromes is critical to inform appropriate clinical management. To investigate whether a subset of pediatric and young adults undergoing transplant for aplastic anemia or myelodysplastic syndrome have germline mutations in bone marrow failure/myelodysplastic syndrome genes, we performed a targeted genetic screen of samples obtained between 1990–2012 from children and young adults with aplastic anemia or myelodysplastic syndrome transplanted at the Fred Hutchinson Cancer Research Center. Mutations in inherited bone marrow failure/myelodysplastic syndrome genes were found in 5.1% (5/98) of aplastic anemia patients and 13.6% (15/110) of myelodysplastic syndrome patients. While the majority of mutations were constitutional, a RUNX1 mutation present in the peripheral blood at a 51% variant allele fraction was confirmed to be somatically acquired in one myelodysplastic syndrome patient. This highlights the importance of distinguishing germline versus somatic mutations by sequencing DNA from a second tissue or from parents. Pathological mutations were present in DKC1, MPL, and TP53 among the aplastic anemia cohort, and in FANCA, GATA2, MPL, RTEL1, RUNX1, SBDS, TERT, TINF2, and TP53 among the myelodysplastic syndrome cohort. Family history or physical examination failed to reliably predict the presence of germline mutations. This study shows that while any single specific bone marrow failure/myelodysplastic syndrome genetic disorder is rare, screening for these disorders in aggregate identifies a significant subset of patients with inherited bone marrow failure/myelodysplastic syndrome

Phase 1/2 Trial of CLAG-M with Dose-Escalated Mitoxantrone in Combination with Fractionated-Dose Gemtuzumab Ozogamicin for Newly Diagnosed Acute Myeloid Leukemia and Other High-Grade Myeloid Neoplasms

Gemtuzumab ozogamicin (GO) improves outcomes when added to intensive AML chemotherapy. A meta-analysis suggested the greatest benefit when combining fractionated doses of GO (GO3) with 7 + 3. To test whether GO3 can be safely used with high intensity chemotherapy, we conducted a phase 1/2 study of cladribine, high-dose cytarabine, G-CSF, and dose-escalated mitoxantrone (CLAG-M) in adults with newly diagnosed AML or other high-grade myeloid neoplasm (NCT03531918). Sixty-six patients with a median age of 65 (range: 19–80) years were enrolled. Cohorts of six and twelve patients were treated in phase 1 with one dose of GO or three doses of GO (GO3) at 3 mg/m2 per dose. Since a maximum-tolerated dose was not reached, the recommended phase 2 dose (RP2D) was declared to be GO3. At RP2D, 52/60 (87%) patients achieved a complete remission (CR)/CR with incomplete hematologic recovery (CRi), 45/52 (87%) without flow cytometric measurable residual disease (MRD). Eight-week mortality was 0%. Six- and twelve-month event-free survival (EFS) were 73% and 58%; among favorable-risk patients, these estimates were 100% and 95%. Compared to 186 medically matched adults treated with CLAG-M alone, CLAG-M/GO3 was associated with better survival in patients with favorable-risk disease (EFS: p = 0.007; OS: p = 0.030). These data indicate that CLAG-M/GO3 is safe and leads to superior outcomes than CLAG-M alone in favorable-risk AML/high-grade myeloid neoplasm

Evidence that the expression of transferrin receptor 1 on erythroid marrow cells mediates hepcidin suppression in the liver

Hepcidin is the key regulator of iron absorption and recycling, and its expression is suppressed by red blood cell production. When erythropoiesis is expanded, hepcidin expression decreases. To gain insight into the stage of erythroid differentiation at which the regulation might originate, we measured serum hepcidin levels in archived pure red cell aplasia samples from patients whose block in erythroid differentiation was well defined by hematopoietic colony assays and marrow morphologic review. Hepcidin values are high or high normal in pure red cell aplasia patients in whom erythropoiesis is inhibited prior to the proerythroblast stage, but are suppressed in patients with excess proerythroblasts and few later erythroid cells. These data suggest that the suppressive effect of erythropoietic activity on hepcidin expression can arise from proerythroblasts, the stage at which transferrin receptor 1 expression peaks, prompting the hypothesis that transferrin receptor 1 expression on erythroid precursors is a proximal mediator of the erythroid regulator of hepcidin expression. Our characterization of erythropoiesis, iron status, and hepcidin expression in mice with global or hematopoietic cell-specific haploinsufficiency of transferrin receptor 1 provides initial supporting data for this model. The regulation appears independent of erythroferrone and growth differentiation factor 15, supporting the concept that several mechanisms signal iron need in response to an expanded erythron