Mutant AF-2 Domain of PML-RARalpha in Retinoic Acid-resistant NB4 Cells: Differentiation Induced by RA is Triggered Directly Through PML-RARalpha and Its Down-regulation in Acute Promyelocytic Leukemia

To study the molecular mechanism of the differentiation induced by retinoic acid (RA) in acute promyelocytic leukemia (APL), we established a new RA-resistant NB4 subline, NB4/RA. The NB4/RA cells were neither differentiated by a single or a combination of RA isoforms, nor by the addition of clotrimazole (P450-inhibitor) or interferon gamma. However, the combination of RA and 8-(4-chlorophenylthio) adenosine cyclic 3',5'-monophosphate (a cAMP analog, 8-CPT-cAMP) induced differentiation. Immunostaining of NB4/RA cells using anti-PML antibody showed a microgranular pattern which was not restored even by the combination of RA and 8-CPT-cAMP, whereas the microgranular pattern in NB4 cells was rapidly restored to the normal speckled pattern by RA. Western blot analysis revealed that RA alone or the combination with 8-CPT-cAMP did not down-regulate PML-RARalpha in NB4/RA cells, which was in contrast to NB4 cells. The PML-RARalpha fusion gene and transcript in NB4/RA cells were conserved as well as the RARalpha gene and transcripts. Sequence analysis of the PML-RARalpha transcript in NB4/RA cells indicated a Pro (CCG) to Leu (CTG) mutation at codon 900 (type L) in AF-2 domain, while the RARalpha transcript had a normal sequence. These data suggest that differentiation of APL by RA is triggered directly through PML-RARalpha, and is associated with its degradation. Furthermore, there might be another mechanism of differentiation which does not require the down-regulation of PML-RARalpha and the restoration of the PML-staining pattern.