A novel tumor-derived SGOL1 variant causes abnormal mitosis and unstable chromatid cohesion.

Mitosis is the most conspicuous cell cycle phase, because it is the phase in which the dynamic physical distributions of cellular components into the two daughter cells occur. The separation of sister chromatids is especially important during mitosis, because of the extreme accuracy required for distribution to the next generation of cells. Shugoshin-like 1 (SGOL1) is a key protein in protecting sister chromatids from precocious separation. We have reported finding that chromosome instability is more likely in SGOL1-downregulated colorectal cancers, but it is still unknown whether there is an association between cancer and SGOL1 transcript variation. Here, we identified a novel SGOL1 variant, SGOL1-P1, in human colon cancer. The SGOL1-P1 transcript contains an exon-skip of exon 3 that results in a stop codon occurring within exon 4. Overexpression of SGOL1-P1 in HCT116 cells resulted in an increased number of cells with aberrant chromosome alignment, precociously separated chromatids and delayed mitotic progression, occasionally followed by inaccurate distribution of the chromosomes. These phenotypes, observed when SGOL1-P1 was present, were also observed very frequently in SGOL1-knockdown cells. Furthermore, the overexpression of SGOL1-P1 inhibited the localization of endogenous SGOL1 and cohesin subunit RAD21/SCC1 to the centromere. These results suggest that SGOL1-P1 may function as a negative factor to native SGOL1, and that abundant expression of SGOL1-P1 may be responsible for chromosomal instability.

Involvement of PIAS1 in the sumoylation of tumor suppressor p53.

Sumoylation of p53 by the ubiquitin-like protein, SUMO-1/sentrin/PIC1, has been shown to stimulate its transcriptional activation activity. The SUMO E3 ligase, a key enzyme in the recognition of substrates to be sumoylated, has not yet been identified. We isolated PIAS1 (protein inhibitor of activated STAT1) as a SUMO-1 binding protein by yeast two-hybrid screening. In addition, PIAS1 bound p53 and Ubc9, the E2 for SUMO. PIAS1 that was mutated in the RING finger-like domain bound p53 and SUMO-1, but not Ubc9. PIAS1 catalyzed the sumoylation of p53 both in U2OS cells and in vitro in a domain-dependent manner. These data suggest that PIAS1 functions as a SUMO ligase, or possibly as a tightly bound regulator of it, toward p53.

Yeast Ull1/Siz1 is a novel SUMO1/Smt3 ligase for septin components and functions as an adaptor between conjugating enzyme and substrates.

SUMO1/Smt3, a ubiquitin-like protein modifier, is known to conjugate to other proteins and modulate their functions in various important processes. Similar to the ubiquitin conjugation system, SUMO/Smt3 is transferred to substrate lysine residues through the thioester cascade of E1 (activating enzyme) and E2 (conjugating enzyme). In our previous report (Takahashi, Y., Toh-e, A., and Kikuchi, Y. (2001) Gene 275, 223-231), we showed that Siz1/Ull1 (YDR409w) of budding yeast, a member of the human PIAS family containing a RING-like domain, is a strong candidate for SUMO1/Smt3 ligase because the SUMO1/Smt3 modification of septin components was abolished in the ull1 mutant and Ull1 associated with E2 (Ubc9) and the substrates (septin components) in immunoprecipitation experiments. Here we have developed an in vitro Smt3 conjugation system for a septin component (Cdc3) using purified recombinant proteins. In this system, Ull1 is additionally required as well as E1 (Sua1.Uba2 complex), E2 (Ubc9), and ATP. A cysteine residue of the RING-like domain was essential for the conjugation both in vivo and in vitro. Furthermore, a region containing the RING-like domain directly interacted with Ubc9 and Cdc3. Thus, this SUMO/Smt3 ligase functions as an adaptor between E2 and the target proteins.