Project description:Successful viruses have evolved superior strategies to escape host defenses or exploit host biological pathways. Most of the viral immediate-early (ie) genes are essential for viral infection and depend solely on host proteins; however, the molecular mechanisms are poorly understood. In this study, we focused on the modification of viral IE proteins by the crayfish small ubiquitin-related modifier (SUMO) and investigated the role of SUMOylation during the viral life cycle. SUMO and SUMO ubiquitin-conjugating enzyme 9 (UBC9) involved in SUMOylation were identified in red swamp crayfish (Procambarus clarkii). Both SUMO and UBC9 were upregulated in crayfish challenged with white spot syndrome virus (WSSV). Replication of WSSV genes increased in crayfish injected with recombinant SUMO or UBC9, but injection of mutant SUMO or UBC9 protein had no effect. Subsequently, we analyzed the mechanism by which crayfish SUMOylation facilitates WSSV replication. Crayfish UBC9 bound to all three WSSV IE proteins tested, and one of these IE proteins (WSV051) was covalently modified by SUMO in vitro. The expression of viral ie genes was affected and that of late genes was significantly inhibited in UBC9-silenced or SUMO-silenced crayfish, and the inhibition effect was rescued by injection of recombinant SUMO or UBC9. The results of this study demonstrate that viral IE proteins can be modified by crayfish SUMOylation, prompt the expression of viral genes, and ultimately benefit WSSV replication. Understanding of the mechanisms by which viruses exploit host components will greatly improve our knowledge of the virus-host "arms race" and contribute to the development of novel methods against virulent viruses.

Project description:Yeast has proven to be a useful model system for aging studies, including CR effects. We report here that yeast adapted through in vitro evolution to the severe cellular stress caused by loss of the Ulp2 SUMO-specific protease exhibit both enhanced growth rates and replicative lifespan, and they have altered gene expression profiles similar to those observed in CR. Notably, in certain evolved ulp2Δ lines, a dramatic increase in the auto-sumoylation of Ubc9 E2 SUMO-conjugating enzyme results in altered regulation of multiple targets involved in energy metabolism and translation at both transcriptional and post-translational levels. This increase is essential for the survival of aged cells and CR-mediated lifespan extension

Project description:UBC9 protein (E2-conjugating enzyme) plays a key role in post-translation modification named sumoylation. Proteins, which are sumoylated take part in many cellular processes including cell growth, maintaining the genome integrity and stability and cancer development. The aim of this study was to investigate an association between three polymorphisms of the UBC9 gene: c.73G>A (rs11553473), c.430T>G (rs75020906) and g.1289209T>C (rs7187167) and a risk of ductal breast cancer occurrence. We performed a case-control study in 181 breast cancer cases and 277 controls using PCR-RLFP and ASO-PCR. In the case of the 430T>G polymorphism of the UBC9 gene lack of variability suggests that there is not a polymorphic site in polish population. We observed that a risk of breast cancer occurrence is elevated in patients with the G/A genotype (OR 5.03; 95% Cl 3.05-8.28), the A/A genotype (OR 11.3; 95% Cl 4.24-30.3) and the A allele (OR 6.86; 95% Cl 4.43-10.6) of the c.73G>A polymorphism. In the case of the g.1289209T>C polymorphism we found a correlation between estrogen receptor (ER) expression and the T/T genotype (OR 0.22; 95% Cl 0.07-0.64) and the T allele (OR 0.53; 95% Cl 0.32-0.88). We also found a correlation between the T/T genotype (OR 4.13; 95% Cl 1.21-14.1) and the T allele (OR 2.09; 95% Cl 1.07-4.08) of the g.1289209T>C polymorphism with triple negative breast cancer. Our results suggest that the variability of the UBC9 gene can play a role in breast cancer occurrence.

Project description:Yeast has proven to be a useful model system for aging studies, including CR effects. We report here that yeast adapted through in vitro evolution to the severe cellular stress caused by loss of the Ulp2 SUMO-specific protease exhibit both enhanced growth rates and replicative lifespan, and they have altered gene expression profiles similar to those observed in CR. Notably, in certain evolved ulp2Δ lines, a dramatic increase in the auto-sumoylation of Ubc9 E2 SUMO-conjugating enzyme results in altered regulation of multiple targets involved in energy metabolism and translation at both transcriptional and post-translational levels. This increase is essential for the survival of aged cells and CR-mediated lifespan extension

Project description:The human papillomavirus oncogenic protein, E6, interacts with a number of cellular proteins, and for some targets, E6 directs their degradation through the ubiquitin-proteasome pathway. Post-translational modification with ubiquitin-like modifiers, such as SUMO, also influences protein activities, protein-protein interactions, and protein stability. We report that the high risk HPVE6 proteins reduce the intracellular quantity of the sole SUMO conjugation enzyme, Ubc9, concomitant with decreased host sumoylation. E6 did not significantly influence transcription of Ubc9, indicating that the effects were likely at the protein level. Consistent with typical E6-mediated proteasomal degradation, E6 bound to Ubc9 in vitro, and required E6AP for reduction of Ubc9 levels. Under stable E6 expression conditions in differentiating keratinocytes there was a decrease in Ubc9 and a loss of numerous sumoylated targets indicating a significant perturbation of the normal sumoylation profile. While E6 is known to inhibit PIASy, a SUMO ligase, our results suggest that HPV E6 also targets the Ubc9 protein to modulate host cell sumoylation, suggesting that the sumoylation system may be an important target during viral reproduction and possibly the subsequent development of cervical cancer.

Project description:PR-Set7/Set8/KMT5a is a chromatin-modifying enzyme that specifically monomethylates lysine 20 of histone H4 (H4K20me1). In this study we attempted to identify PR-Set7-interacting proteins reasoning that these proteins would provide important insights into the role of PR-Set7 in transcriptional regulation. Using an unbiased yeast two-hybrid approach, we discovered that PR-Set7 interacts with the UBC9 E2 SUMO conjugating enzyme. This interaction was confirmed in human cells and we demonstrated that PR-Set7 was preferentially modified with SUMO1 in vivo. Further in vitro studies revealed that UBC9 directly binds PR-Set7 proximal to the catalytic SET domain. Two putative SUMO consensus sites were identified in this region and both were capable of being SUMOylated in vitro. The absence of either or both SUMO sites did not perturb nuclear localization of PR-Set7. By employing whole genome expression arrays, we identified a panel of genes whose expression was significantly altered in the absence of PR-Set7. The vast majority of these genes displayed increased expression strongly suggesting that PR-Set7 predominantly functions as a transcriptional repressor. Importantly, the reduction of UBC9 resulted in the consistent derepression of several of these newly identified genes regulated by PR-Set7. Our findings indicate that direct interaction with UBC9 facilitates the repressive effects of PR-Set7 at specific target genes, most likely by SUMOylating PR-Set7.

Project description:We previously reported that destruction of the small ubiquitin-like modifier (SUMO) modification site in the axonal collapsin response mediator protein 2 (CRMP2) was sufficient to selectively decrease trafficking of the voltage-gated sodium channel NaV1.7 and reverse neuropathic pain. Here, we further interrogate the biophysical nature of the interaction between CRMP2 and the SUMOylation machinery, and test the hypothesis that a rationally designed CRMP2 SUMOylation motif (CSM) peptide can interrupt E2 SUMO-conjugating enzyme Ubc9-dependent modification of CRMP2 leading to a similar suppression of NaV1.7 currents. Microscale thermophoresis and amplified luminescent proximity homogeneous alpha assay revealed a low micromolar binding affinity between CRMP2 and Ubc9. A heptamer peptide harboring CRMP2's SUMO motif, also bound with similar affinity to Ubc9, disrupted the CRMP2-Ubc9 interaction in a concentration-dependent manner. Importantly, incubation of a tat-conjugated cell-penetrating peptide (t-CSM) decreased sodium currents, predominantly NaV1.7, in a model neuronal cell line. Dialysis of t-CSM peptide reduced CRMP2 SUMOylation and blocked surface trafficking of NaV1.7 in rat sensory neurons. Fluorescence dye-based imaging in rat sensory neurons demonstrated inhibition of sodium influx in the presence of t-CSM peptide; by contrast, calcium influx was unaffected. Finally, t-CSM effectively reversed persistent mechanical and thermal hypersensitivity induced by a spinal nerve injury, a model of neuropathic pain. Structural modeling has now identified a pocket-harboring CRMP2's SUMOylation motif that, when targeted through computational screening of ligands/molecules, is expected to identify small molecules that will biochemically and functionally target CRMP2's SUMOylation to reduce NaV1.7 currents and reverse neuropathic pain.

Project description:To detect genes whose expression is signigicantly altered upon depletion of pr-SET7 Total RNA obtained from 4 days post-transfection of control pSuperior empty plasmid and pSuperior pr-SET7 shRNA plasmid

Project description:Reoviruses are potential anticancer agents due to their ability to induce cell death in tumor cells. Grass carp reovirus (GCRV) is one of the best characterized models on reovirus pathogenesis in vitro. However, there is little known about how SUMOylation affects reovirus pathogenesis. The SUMO conjugating enzyme 9 (Ubc9) determines the targets of SUMOylation. Here, the protein interactions between reovirus outer fiber proteins, specifically GCRV-104 VP55, and Ubc9 were probed using a yeast two-hybrid system. The N-terminal coiled-coil domain of VP55, containing a single lysine residue, was responsible for the interaction between VP55 and Ubc9 in yeast. In solid phase binding assays, a single amino acid mutation (K87R) prevented Ubc9 from binding to VP55. Overexpression of Ubc9 enhanced GCRV-104 infection efficiency, and knockdown of Ubc9 in CIK cells inhibited viral replication, which suggested that Ubc9 was a proviral factor. Furthermore, Ubc9 was shown to bind outer fiber proteins from type II GCRV, avian reovirus and mammalian reovirus in yeast. To our knowledge, this is the first study to show that Ubc9 binds to reovirus outer-fiber proteins and likely contributes to efficient orthoreovirus replication. These results suggest that SUMOylation modifications could be targeted to improve the therapeutic efficacy of oncolytic reovirus.

Project description:To detect genes whose expression is signigicantly altered upon depletion of pr-SET7