Abstract
Acute promyelocytic leukemia arises following a reciprocal chromosome translocation t(15;17), which generates PML-retinoic acid receptor alpha fusion proteins (PML-RARalpha). We have shown previously that wild type PML, but not PML-RARalpha, is covalently modified by the sentrin family of ubiquitin-like proteins (Kamitani, T., Nguyen, H. P., Kito, K., Fukuda-Kamitani, T., and Yeh, E. T. H. (1998) J. Biol. Chem. 273, 3117-3120). To understand the mechanisms underlying the differential sentrinization of PML versus PML-RARalpha, extensive mutational analysis was carried out to determine which Lys residues are sentrinized. We show that Lys65 in the RING finger domain, Lys160 in the B1 Box, and Lys490 in the nuclear localization signal contributes three major sentrinization sites. The PML mutant with Lys to Arg substitutions in all three sites is expressed normally, but cannot be sentrinized. Furthermore, the triple substitution mutant is localized predominantly to the nucleoplasm, in contrast to wild type PML, which is localized to the nuclear bodies. Thus, sentrinization of PML, in the context of the RING finger and the B1 box, regulates nuclear body formation. Furthermore, we showed that sentrinization of PML-RARalpha could be restored by overexpression of sentrin, but not by retinoic acid treatment. These studies provide novel insight into the pathobiochemistry of acute promyelocytic leukemia and the sentrinization pathway.
Highlights
Acute promyelocytic leukemia arises following a reciprocal chromosome translocation t(15;17), which generates PML-retinoic acid receptor ␣ fusion proteins (PML-RAR␣)
We showed that sentrinization of PML-RAR␣ could be restored by overexpression of sentrin, but not by retinoic acid treatment
Sentrinization of the RING Finger Domain of PML—We have previously shown that wild type PML could be modified by sentrin, whereas PML-RAR␣-A and PML-RAR␣-B could not [21]
Summary
(Received for publication, February 25, 1998, and in revised form, May 29, 1998). Tetsu Kamitani, Katsumi Kito, Hung Phi Nguyen, Hiroyoshi Wada, Taeko Fukuda-Kamitani, and Edward T. Acute promyelocytic leukemia arises following a reciprocal chromosome translocation t(15;17), which generates PML-retinoic acid receptor ␣ fusion proteins (PML-RAR␣). We have shown previously that wild type PML, but not PML-RAR␣, is covalently modified by the sentrin family of ubiquitin-like proteins We showed that sentrinization of PML-RAR␣ could be restored by overexpression of sentrin, but not by retinoic acid treatment These studies provide novel insight into the pathobiochemistry of acute promyelocytic leukemia and the sentrinization pathway. Acute promyelocytic leukemia (APL) is characterized by the presence of a balanced translocation from the long arm of chromosome 17 to the long arm of chromosome 15 (t(15qϩ; 17qϪ)), which is present in 70 –100% of patients [1] This translocation fuses the PML gene, located on chromosome 15, to the retinoic acid receptor ␣ (RAR␣) gene located on chromosome 17. Identification of the sentrin modification sites in PML will be very useful in further understanding the role of sentrinization in the pathogenesis of APL in particular and the biology of sentrinization in general
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