Kathleen F. Conklin

Cytogenetic and molecular heterogeneity of 7q36/12p13 rearrangements in childhood AML

The t(7;12)(q36;p13) is a recurrent abnormality in acute myeloid leukemia (AML) of childhood. The involved gene on chromosome 12 is TEL; the 7q36 partner gene has not been identified. We describe morphologic, molecular and cytogenetic characterization of two cases of 7q36/12p13-associated AML that provide important insights regarding the consequences of this rearrangement. First, the molecular organization of the breakpoint regions differ significantly: one case is a reciprocal 7;12 translocation (RTR); the other has an insertion of 7q into 12p (INS). While 12p13 breakpoints in both patients interrupt TEL intron 1, the centromere to telomere orientation of the 7q36 sequences relative to the TEL sequences are inverted in INS compared to RTR. This difference makes it difficult to postulate a mechanism whereby both patients could produce a common fusion transcript. Further, no evidence was obtained for any TEL-containing fusion transcripts. Finally, we report the first cloning of a 7;12 genomic breakpoint (from RTR) and find that it maps to a site 30 kbp proximal to the HLXB9 gene in 7q36. Together, these data suggest that, unlike most leukemia-associated chromosomal rearrangements, the important consequence of the t(7;12) is likely not the generation of a novel fusion transcript, but instead the inactivation of TEL and/or a gene at 7q36.

Nom1 targets protein phosphatase I to the nucleolus

Protein phosphatase I (PP1) is an essential eukaryotic serine/threonine phosphatase required for many cellular processes, including cell division, signaling, and metabolism. In mammalian cells there are three major isoforms of the PP1 catalytic subunit (PP1α, PP1β, and PP1γ) that are over 90% identical. Despite this high degree of identity, the PP1 catalytic subunits show distinct localization patterns in interphase cells; PP1α is primarily nuclear and largely excluded from nucleoli, whereas PP1γ and to a lesser extent PP1β concentrate in the nucleoli. The subcellular localization and the substrate specificity of PP1 catalytic subunits are determined by their interaction with targeting subunits, most of which bind PP1 through a so-called “RVXF” sequence. Although PP1 targeting subunits have been identified that direct PP1 to a number of subcellular locations and/or substrates, no targeting subunit has been identified that localizes PP1 to the nucleolus. Identification of nucleolar PP1 targeting subunit(s) is important because all three PP1 isoforms are included in the nucleolar proteome, enzymatically active PP1 is present in nucleoli, and PP1γ is highly concentrated in nucleoli of interphase cells. In this study, we identify NOM1 (nucleolar protein with MIF4G domain 1) as a PP1-interacting protein and further identify the NOM1 RVXF motif required for its binding to PP1. We also define the NOM1 nucleolar localization sequence. Finally, we demonstrate that NOM1 can target PP1 to the nucleolus and show that a specific NOM1 RVXF motif and the NOM1 nucleolar localization sequence are required for this targeting activity. We therefore conclude that NOM1 is a PP1 nucleolar targeting subunit, the first identified in eukaryotic cells.