Abstract
Acute promyelocytic leukemia (APL) is characterized by the expansion of malignant myeloid cells blocked at the promyelocytic stage of hemopoietic development and is invariably associated with reciprocal chromosomal translocations involving the retinoic acid receptor α (RARα) gene on chromosome 17. RARα variably fuses to PML, PLZF, NPM, NuMA, and Stat5B genes (X genes/proteins). These translocations are balanced and reciprocal, thus leading to the generation of X-RARα and RARα-X fusion genes of which the products coexist in the APL blast. The invariable involvement in these translocations of RARα, a prototypical transcription factor, makes APL a compelling example of aberrant transcriptional mechanisms in the etiopathogenesis of cancer. This paper focuses on the recent progress in defining the molecular mechanisms underlying APL pathogenesis and addresses how this new understanding has allowed the proposal and development of novel therapeutic strategies with compounds such as histone deacetylase inhibitors and inorganic arsenicals such as As2O3 which are currently being tested in murine leukemia models as well as in human APL patients. In particular, the crucial role played by the aberrant transcriptional activities of X-RARα and RARα-X fusion proteins in APL pathogenesis is discussed by reviewing the relevant therapeutic implications resulting from this analysis.
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Pandolfi, P. Histone deacetylases and transcriptional therapy with their inhibitors. Cancer Chemother Pharmacol 48 (Suppl 1), S17–S19 (2001). https://doi.org/10.1007/s002800100322
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DOI: https://doi.org/10.1007/s002800100322