SUMMARY: Acute Promyelocytic Leukemia (APL) is a subtype (M3) of Acute Myeloid Leukemia (AML) accounting for 5-10% of AMLs in adults. The diagnostic hallmark of this subtype of AML is the balanced reciprocal translocation involving the long arms of chromosomes 15 and 17 – t(15;17)(q22;q11-12), leading to the fusion of ProMyeLocytic (PML) gene with the Retinoic Acid Receptor Alpha (RARA) gene. This hybrid PML-RARA hybrid oncoprotein blocks the differentiation of promyelocytes resulting in APL. The median age for patients diagnosed with APL is around 40 years.
Patients with APL often present with life-threatening bleeding secondary to consumptive coagulopathy and more rarely thrombosis. Therefore, rapid diagnosis of APL and institution of anti-leukemic and supportive therapy is of paramount importance, to prevent bleeding related mortality. Given the early mortality rate of 17-29%, immediate institution of anti-leukemic therapy without delay is strongly recommended upon clinical suspicion of APL following morphologic evaluation of the bone marrow, pending cytogenetics. Invasive procedures, routinely done at initial presentation of AML, should be avoided. APL is a curable disease and approximately 80% of the all APL patients present with non-high risk disease (WBC 10,000 or less per microliter).
The FDA in early 2018 approved the use of TRISENOX® (Arsenic Trioxide) injection, in combination with VESANOID® (All-Trans Retinoic Acid (ATRA), Tretinoin), for the treatment of adults with newly diagnosed low-risk APL, whose APL is characterized by the presence of the t(15;17) translocation or PML/RARA gene expression. This approval was based on the superiority of Arsenic Trioxide plus ATRA which resulted in a to a 2-year Event-Free Survival (EFS) rate of 97%, compared with 86% for chemotherapy plus ATRA. The combination of chemotherapy-free ATRA and Intravenous Arsenic Trioxide is therefore considered the standard of care for non-high risk APL patients. TRISENOX® (Arsenic Trioxide) was initially approved by the FDA in 2000 for the treatment of patients with APL who are refractory or have relapsed on Retinoid and Anthracycline chemotherapy.
First published from China in the 1980’s, ATRA induces terminal differentiation of leukemic promyelocytes and leads to an immediate improvement in bleeding symptoms and almost complete resolution of the associated coagulopathy within 1-2 weeks of treatment. Arsenic Trioxide is probably the most effective single agent used in the treatment of APL. It directly binds to the PMLâ€RARA oncoprotein inducing its proteosomal degradation and leads to apoptosis of leukemic cells.
Arsenic Trioxide infusion requires hospitalization. There is however an oral tetra-arsenic tetra-sulfide (As4S4) -containing formulation, Realgar-Indigo naturalis Formula (RIF). In a previously published study, a more convenient oral RIF plus ATRA was found not to be inferior to intravenous Arsenic Trioxide plus ATRA, as first-line treatment in patients with APL (J Clin Oncol. 2013 ;31:4215-4221).
The authors in this study compared oral RIF plus ATRA treatment regimen with the standard intravenous Arsenic Trioxide plus ATRA treatment regimen in patients with non-high-risk APL. In this multicentre, non-inferiority, open-label, randomized, controlled phase III trial, patients with newly diagnosed (within 7 days) non-high-risk APL (N=109), were randomly assigned 2:1 to receive treatment with RIF-ATRA (N=72) or Arsenic Trioxide-ATRA (N=37) as the induction and consolidation therapy. Patients received RIF 60 mg/kg orally daily in divided doses or Arsenic Trioxide 0.15 mg/kg IV daily and ATRA 25 mg/m2 orally daily in divided doses. Treatment was continued until complete remission was achieved. The home-based consolidation therapy consisted of RIF 60 mg/kg orally daily in divided doses or Arsenic Trioxide 0.15 mg/kg IV daily, 4 weeks on and 4 weeks off for four cycles and ATRA 25 mg/m2 orally daily in divided doses, 2 weeks on and 2 weeks off for seven cycles. The median patient age was 35 years. The Primary outcome was Event-Free Survival at 2 years.
After a median follow up of 32 months, 97% of patients in the RIF-ATRA group and 94% in the Arsenic Trioxide-ATRA group had achieved 2-year Event-Free Survival confirming non-inferiority of RIF-ATRA compared with Arsenic Trioxide and ATRA (P=0.0017 for non-inferiority). The 2 year Overall Survival was 100% in the RIF-ATRA group and 94% in the Arsenic Trioxide-ATRA group (P=0.049). Toxicities during induction treatment included grade 3-4 hepatotoxity (elevated AST or ALT) in 9% of patients in the RIF-ATRA group versus 14% in the Arsenic Trioxide-ATRA group. Grade 3-4 infections were reported in 23% versus 42% in the two groups respectively. Two patients in the Arsenic Trioxide-ATRA group died during induction therapy (one from hemorrhage and one from thrombocytopenia).
It was concluded that oral RIF plus ATRA was not inferior to intravenous Arsenic Trioxide plus ATRA, for the treatment of patients with non-high-risk Acute Promyelocytic Leukemia. The authors suggested that this completely oral, chemotherapy-free therapy might be an alternative to the standard intravenous treatment for patients with non-high-risk APL. Oral arsenic plus retinoic acid versus intravenous arsenic plus retinoic acid for non-high-risk acute promyelocytic leukaemia: a non-inferiority, randomised phase 3 trial. Zhu HH, Wu DP, Du X, et al. Lancet Oncol. 2018;19:871-879