Browsing by keyword "sumoylation"

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    • Cbx4 Sumoylates Prdm16 to Regulate Adipose Tissue Thermogenesis
      Chen, Qingbo; Huang, Lei; Pan, Dongning; Zhu, Lihua (Julie); Wang, Yong-Xu (2018-03-13)
      Transcriptional co-activator Prdm16 controls brown fat development and white fat browning, but how this thermogenic function is modulated post-translationally is poorly understood. Here, we report that Cbx4, a Polycomb group protein, is a SUMO E3 ligase for Prdm16 and that Cbx4-mediated sumoylation of Prdm16 is required for thermogenic gene expression. Cbx4 expression is enriched in brown fat and is induced in adipose tissue by acute cold exposure. Sumoylation of Prdm16 at lysine 917 by Cbx4 blocks its ubiquitination-mediated degradation, thereby augmenting its stability and thermogenic function. Moreover, this sumoylation event primes Prdm16 to be further stabilized by methyltransferase Ehmt1. Heterozygous Cbx4-knockout mice develop metabolic phenotypes resembling those of Prdm16-knockout mice. Furthermore, fat-specific Cbx4 knockdown and overexpression produce remarkable, opposite effects on white fat remodeling. Our results identify a modifying enzyme for Prdm16, and they demonstrate a central role of Cbx4 in the control of Prdm16 stability and white fat browning.

    • Regulation of Toll signaling and inflammation by beta-arrestin and the SUMO protease Ulp1
      Anjum, Saima G.; Xu, Wenjian; Nikkholgh, Niusha; Basu, Sukanya; Nie, Yingchao; Thomas, Mary; Satyamurti, Mridula; Budnik, Bogdan A.; Ip, Y. Tony; Veraksa, Alexey (2013-12-01)
      The Toll signaling pathway has a highly conserved function in innate immunity and is regulated by multiple factors that fine tune its activity. One such factor is beta-arrestin Kurtz (Krz), which we previously implicated in the inhibition of developmental Toll signaling in the Drosophila melanogaster embryo. Another level of controlling Toll activity and immune system homeostasis is by protein sumoylation. In this study, we have uncovered a link between these two modes of regulation and show that Krz affects sumoylation via a conserved protein interaction with a SUMO protease, Ulp1. Loss of function of krz or Ulp1 in Drosophila larvae results in a similar inflammatory phenotype, which is manifested as increased lamellocyte production; melanotic mass formation; nuclear accumulation of Toll pathway transcriptional effectors, Dorsal and Dif; and expression of immunity genes, such as Drosomycin. Moreover, mutations in krz and Ulp1 show dosage-sensitive synergistic genetic interactions, suggesting that these two proteins are involved in the same pathway. Using Dorsal sumoylation as a readout, we found that altering Krz levels can affect the efficiency of SUMO deconjugation mediated by Ulp1. Our results demonstrate that beta-arrestin controls Toll signaling and systemic inflammation at the level of sumoylation.