Acute promyelocytic leukemia, arsenic, and PML bodies
H de Thé, M Le Bras… - Journal of Cell Biology, 2012 - rupress.org
H de Thé, M Le Bras, V Lallemand-Breitenbach
Journal of Cell Biology, 2012•rupress.orgAcute promyelocytic leukemia (APL) is driven by a chromosomal translocation whose
product, the PML/retinoic acid (RA) receptor α (RARA) fusion protein, affects both nuclear
receptor signaling and PML body assembly. Dissection of APL pathogenesis has led to the
rediscovery of PML bodies and revealed their role in cell senescence, disease
pathogenesis, and responsiveness to treatment. APL is remarkable because of the fortuitous
identification of two clinically effective therapies, RA and arsenic, both of which degrade …
product, the PML/retinoic acid (RA) receptor α (RARA) fusion protein, affects both nuclear
receptor signaling and PML body assembly. Dissection of APL pathogenesis has led to the
rediscovery of PML bodies and revealed their role in cell senescence, disease
pathogenesis, and responsiveness to treatment. APL is remarkable because of the fortuitous
identification of two clinically effective therapies, RA and arsenic, both of which degrade …
Acute promyelocytic leukemia (APL) is driven by a chromosomal translocation whose product, the PML/retinoic acid (RA) receptor α (RARA) fusion protein, affects both nuclear receptor signaling and PML body assembly. Dissection of APL pathogenesis has led to the rediscovery of PML bodies and revealed their role in cell senescence, disease pathogenesis, and responsiveness to treatment. APL is remarkable because of the fortuitous identification of two clinically effective therapies, RA and arsenic, both of which degrade PML/RARA oncoprotein and, together, cure APL. Analysis of arsenic-induced PML or PML/RARA degradation has implicated oxidative stress in the biogenesis of nuclear bodies and SUMO in their degradation.
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