The multi-functional Smc5/6 complex in genome protection and disease

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Chronic hepatitis B virus infection is a leading cause of cirrhosis and liver cancer. Hepatitis B virus encodes the regulatory HBx protein whose primary role is to promote transcription of the viral genome, which persists as an extrachromosomal DNA circle in infected cells. HBx accomplishes this task by an unusual mechanism, enhancing transcription only from extrachromosomal DNA templates. Here we show that HBx achieves this by hijacking the cellular DDB1-containing E3 ubiquitin ligase to target the 'structural maintenance of chromosomes' (Smc) complex Smc5/6 for degradation. Blocking this event inhibits the stimulatory effect of HBx both on extrachromosomal reporter genes and on hepatitis B virus transcription. Conversely, silencing the Smc5/6 complex enhances extrachromosomal reporter gene transcription in the absence of HBx, restores replication of an HBx-deficient hepatitis B virus, and rescues wild-type hepatitis B virus in a DDB1-knockdown background. The Smc5/6 complex associates with extrachromosomal reporters and the hepatitis B virus genome, suggesting a direct mechanism of transcriptional inhibition. These results uncover a novel role for the Smc5/6 complex as a restriction factor selectively blocking extrachromosomal DNA transcription. By destroying this complex, HBx relieves the inhibition to allow productive hepatitis B virus gene expression.

Through a genetic screen using myosin-like protein strains mlp1Delta mlp2Delta and biochemical purification, we identified a complex of eight proteins, each required for growth and DNA repair in Saccharomyces cerevisiae. Among the subunits are Mms21 that contains a putative Siz/PIAS (protein inhibitor of activated signal transducer and activator of transcription) RING domain characteristic of small ubiquitin-like modifier (SUMO) ligases, two structural-maintenance-of-chromosome (Smc) proteins, Smc5 and Smc6, and a protein that contains an ubiquitin ligase signature domain. We show that these proteins colocalized to several distinct nuclear foci. Biochemical and genetic data demonstrated that Mms21 indeed functions as a SUMO ligase and that this activity requires the Siz/PIAS (protein inhibitor of activated signal transducer and activator of transcription) RING domain. The substrates for this SUMO ligase include a subunit of the octameric complex, Smc5, and the DNA repair protein Yku70. We further show that the abolition of the SUMO E3 activity of Mms21 leads to such disparate phenotypes as DNA damage sensitivity, defects in nucleolar integrity and telomere clustering, silencing, and length regulation. We propose that Mms21 sumoylates proteins involved in these diverse processes and that the other members of the complex, particularly Smc5/6, facilitate proper substrate sumoylation by localizing Mms21 to specific chromosomal regions.