Abstract
Although acute promyelocytic leukemia (APL) is one of the most characterized forms of acute myeloid leukemia (AML), the molecular mechanisms involved in the development and progression of this disease are still a matter of study. APL is defined by the PML-RARA rearrangement as a consequence of the translocation t(15;17)(q24;q21). However, this abnormality alone is not able to trigger the whole leukemic phenotype and secondary cooperating events might contribute to APL pathogenesis. Additional somatic mutations are known to occur recurrently in several genes, such as FLT3, WT1, NRAS and KRAS, whereas mutations in other common AML genes are rarely detected, resulting in a different molecular profile compared to other AML subtypes. How this mutational spectrum, including point mutations in the PML-RARA fusion gene, could contribute to the 10%–15% of relapsed or resistant APL patients is still unknown. Moreover, due to the uncertain impact of additional mutations on prognosis, the identification of the APL-specific genetic lesion is still the only method recommended in the routine evaluation/screening at diagnosis and for minimal residual disease (MRD) assessment. However, the gene expression profile of genes, such as ID1, BAALC, ERG, and KMT2E, once combined with the molecular events, might improve future prognostic models, allowing us to predict clinical outcomes and to categorize APL patients in different risk subsets, as recently reported. In this review, we will focus on the molecular characterization of APL patients at diagnosis, relapse and resistance, in both children and adults. We will also describe different standardized molecular approaches to study MRD, including those recently developed. Finally, we will discuss how novel molecular findings can improve the management of this disease.
Highlights
promyelocytic leukemia (PML)-retinoic acid receptor alpha (RARA) rearrangement is the cytogenetic hallmark of acute promyelocytic leukemia (APL), in vitro studies performed on transgenic mice support the hypothesis that secondary cooperating genetic events accumulated over time are essential to trigger the whole leukemic phenotype [113,114]
In an era of medicine in which several novel cases of targeted therapy are emerging for acute myeloid leukemia (AML) (e.g., Midostaurin for FLT3mut, and Enasidenib for IDHmut), APL has been a pioneer, considering that this has been a reality for this neoplasm for 30 years [8,172]
It should be noted that the introduction of all-trans-retinoic acid (ATRA) and ATO into clinical practice has been accompanied by a huge number of studies at molecular level, which we have tried to revise to the best of our knowledge, to understand the pathophysiology of the disease and its responsiveness to treatment
Summary
Acute promyelocytic leukemia (APL) is a biologically and clinically distinct subtype of acute myeloid leukemia (AML) with unique molecular pathogenesis, clinical manifestations and treatment that is cytogenetically characterized by a balanced translocation t(15;17)(q24;q21) [1,2,3] This translocation involves the retinoic acid receptor alpha (RARA) gene on chromosome 17 and the promyelocytic leukemia (PML) gene on chromosome 15 that results in a PML-RARA fusion gene [4,5,6,7]. The present review discusses some ofwith the differentiating most recent findings concerning the molecular genetics of plus chemotherapy or ATRA plus arsenic-trioxide (ATO), converting this once fatal leukemia into a APL, beyond the PML-RARA fusion gene and its variants, both at diagnosis and relapse; and includes highly curable disease both for pediatric and adult patients (cure rates of approximately 90%) [8,9,10,11]. The present review discusses some of the most recent findings concerning the molecular genetics of APL, beyond the PML-RARA fusion gene and its variants, both at diagnosis and relapse; and includes
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