A Review of CAR-T Therapy in Pediatric and Young Adult B-Lineage Acute Leukemia: Clinical Perspectives in Singapore.

Approximately 10-15% of pediatric B-cell acute lymphoblastic leukemia (B-ALL) are high risk at diagnosis or relapsed/ refractory. Prior to the availability of chimeric antigen receptor T-cell (CAR-T) in Singapore and the region, the treatment options for these paediatric and young adults are conventional salvage chemotherapy or chemo-immunotherapy regimens as a bridge to allogeneic total body irradiation-based hematopoietic stem cell transplantation (allo-HSCT). This results in significant acute and long-term toxicities, with suboptimal survival outcomes. Finding a curative salvage therapy with fewer long-term toxicities would translate to improved quality-adjusted life years in these children and young adults. In this review, we focus on the burden of relapsed/refractory pediatric B-ALL, the limitations of current strategies, the emerging paradigms for the role of CAR-T in r/r B-ALL, our local perspectives on the health economics and future direction of CAR-T therapies in pediatric patients.

Emerging CAR landscape for cancer immunotherapy.

In the last decade, there has been great advancement in manipulating the immune system or the cells of the immune system to bring about effective therapies. While harnessing the immune system against cancer is not a new concept, successful reprograming with T cells with chimeric antigen receptor (CAR) forming CAR-T cell therapy has revolutionized the treatment landscape for patients with refractory, high-grade B cell malignancies. The journey from proof-of-concept to FDA-approved commercial CAR-T products has taken almost 3 decades and untold amount of efforts, resources and manpower. With the success of CD19 CAR adoptive cellular immunotherapy leading the charge, CARs targeting various malignancies are in various stages of active development, racing towards regulatory approval, and raising hopes of further breakthroughs in cancer treatment options. In this review we will highlight recent clinical developments of the B cell maturation antigen (BCMA) CAR-T therapy for multiple myeloma (MM) to showcase how innovative CAR designs, coupled with careful selection of tumor-associated antigens, used in combination with other therapeutic agents, could help overcome some of the current limitations experienced in CAR-T immunotherapy. More patients could benefit from novel upfront cell therapy trials, that when combined with the current established induction regimens could have the potential to recondition and alter tumor environments, help restore somnolent anti-tumor immunity, and induce more effective and durable remissions.

Hepatic iron concentration, fibrosis and response to venesection associated with the A77D and V162del "loss of function" mutations in ferroportin disease.

Ferroportin disease is an autosomal dominant form of hemochromatosis associated with siderosis in cells of the mononuclear phagocyte system and, to varying degrees, in hepatocytes. Ferroportin was investigated as a candidate gene in two pedigrees with hyperferritinaemia and siderosis in mononuclear phagocytes. The entire ferroportin coding region was sequenced and hepatic iron concentration, histology and response to treatment were determined. The results were compared with previously reported cases. The A77D mutation was detected in patient 1, his father (patient 2) and his brother (patient 3), who had portal fibrosis. The V162del mutation was detected in patient 4, who developed anemia after the third weekly venesection. While the disease is rare, A77D and V162del are the most common ferroportin mutations in Caucasians. The spectrum of clinical expression of these two mutations was reviewed in all cases described to date. These mutations were associated with fibrosis in about a third of cases. For A77D and V162del, this analysis confirms that the threshold hepatic iron concentration for development of fibrosis may be higher than for classical hemochromatosis. These two mutations, which both decreased iron export in cell culture studies, give rise to similar patterns of clinical expression and morbidity, although the highest hepatic iron concentrations have been observed with A77D. It is important for clinicians to consider ferroportin disease in cases where there are features of iron overload unrelated to HFE, autosomal dominant inheritance and/or iron deposition in mononuclear phagocytes.