热休克转录因子1的抗炎症作用

热休克转录因子1(heat shock factor 1, HSF1)是调节细胞保护性应激蛋白--热休克蛋白表达的主要转录因子,可被热应激、氧化应激等多种理化因素激活.近年研究表明,HSF1具有抗炎症作用:HSF1可抑制TNFα、IL-1β、M-CSF等致炎因子表达,促进IL-10等抗炎因子表达,并降低NF-κB、AP-1等致炎转录因子的活性.HSF1上调热休克蛋白和抑制炎症的双重活性,提示其很可能是联系应激反应和炎症反应的重要因子.     

β-酪蛋白启动子的活性调控机制

β-酪蛋白启动子是一种活性很强的乳蛋白启动子,它不但能在乳腺细胞中高效启动β-酪蛋白的表达,而且能在其它细胞中实现对外源基因的有效表达.β-酪蛋白启动子之所以能高效启动酪蛋白基因或其它蛋白质基因的表达是因为许多激素和细胞因子能调节β-酪蛋白启动子的活性.催乳激素、CCAAT增强子结合蛋白、八聚体结合转录因子等可直接作用于β-酪蛋白启动子以调控它的活性;糖皮质激素(G),ERBB4,肿瘤坏死因子,P300/CBP等则可以通过间接的途径调控β-酪蛋白启动子的活性.本文就近年来β-酪蛋白启动子活性的直接和间接调控这两个方面的研究进行综述.     

ZNF198, a zinc finger protein rearranged in myeloproliferative disease, localizes to the PML nuclear bodies and interacts with SUMO-1 and PML

The ZNF198/FGFR1 fusion gene in atypical myeloproliferative disease produces a constitutively active cytoplasmic tyrosine kinase, unlike ZNF198 which is normally a nuclear protein. We have now shown that the ZNF198/FGFR1 fusion kinase interacts with the endogenous ZNF198 protein suggesting that the function of ZNF198 may be compromised in cells expressing it. Little is currently known about the endogenous function of ZNF198 and to investigate this further we performed a yeast two-hybrid analysis and identified SUMO-1 as a binding partner of ZNF198. These observations were confirmed using co-immunoprecipitation which demonstrated that ZNF198 is covalently modified by SUMO-1. Since many of the SUMO-1-modified proteins are targeted to the PML nuclear bodies we used confocal microscopy to show that SUMO-1, PML and ZNF198 colocalize to punctate structures, shown by immunocytochemistry to be PML bodies. Using co-immunoprecipitation we now show that PML and sumoylated ZNF198 can be found in a protein complex in the cell. Mutation of the SUMO-1 binding site in wild-type ZNF198 resulted in loss of distinct PML bodies, reduced PML levels and a more dispersed nuclear localization of the PML protein. In cells expressing ZNF198/FGFR1, which also lack the SUMO-1 binding site, SUMO-1 is preferentially localized in the cytoplasm, which is associated with loss of distinct PML bodies. Recently, arsenic trioxide (ATO) was proposed as an alternative therapy for APL that was resistant to traditional therapy. Treatment of cells expressing ZNF198/FGFR1 with ATO demonstrated reduced autophosphorylation of the ZNF198/FGFR1 protein and induced apoptosis, which is not seen in cells expressing wild-type ZNF198. Overall our results suggest that the sumoylation of ZNF198 is important for PML body formation and that the abrogation of sumoylation of ZNF198 in ZNF198/FGFR1 expressing cells may be an important mechanism in cellular transformation.     

SUMO-1 targets RanGAP1 to kinetochores and mitotic spindles

RanGAP1 was the first documented substrate for conjugation with the ubiquitin-like protein SUMO-1. However, the functional significance of this conjugation has not been fully clarified. We sought to examine RanGAP1 behavior during mitosis. We found that RanGAP1 associates with mitotic spindles and that it is particularly concentrated at foci near kinetochores. Association with kinetochores appeared soon after nuclear envelope breakdown and persisted until late anaphase, but it was lost coincident with nuclear envelope assembly in telophase. A mutant RanGAP1 protein lacking the capacity to be conjugated to SUMO-1 no longer associated with spindles, indicating that conjugation was essential for RanGAP1's mitotic localization. RanBP2, a nuclear pore protein that binds SUMO-1-conjugated RanGAP1 during interphase, colocalized with RanGAP1 on spindles, suggesting that a complex between these two proteins may be involved in mitotic targeting of RanGAP1. This report shows for the first time that SUMO-1 conjugation is required for mitotic localization of RanGAP1, and suggests that a major role of SUMO-1 conjugation to RanGAP1 may be the spatial regulation of the Ran pathway during mitosis.     

类泛素家族SUMO-1和UBC9的克隆、融合表达及纯化

目的：克隆类泛素化家族SUMO-1和UBC9基因,表达并纯化二者与谷胱甘肽S-转移酶（GST）的融合蛋白。方法：用PCR方法从乳腺文库中扩增SUMO-1和UBC9的编码序列,分别将其以正确相位与pGEX-KG载体中的GST编码序列融合,得到重组质粒pGST-SUMO-1和pGST-UBC9,分别转化大肠杆菌DH5α,表达融合蛋白GST-SUMO-1和GST-UBC9;用谷胱甘肽-Sepharose4B亲和纯化融合蛋白;用Western印迹检测融合蛋白的表达及纯化。结果：分别构建了SUMO-1和UBC9的融合表达载体;Western印迹检测表明,GST-SUMO-1和GST-UBC9融合蛋白获得表达;纯化得到了融合蛋白。结论：克隆、表达并纯化了SUMO-1和UBC9与GST的融合蛋白。     

Interaction of the developmental regulator SALL1 with UBE2I and SUMO-1

Mutations in the SALL1 gene on chromosome 16q12.1 cause Townes-Brocks syndrome (TBS). This autosomal dominantly inherited disorder is characterized by typical malformations of the thumbs, the ears, and the anus, and also commonly affects the kidneys and other organ systems. SALL1 has recently been shown to localize to chromocenters and other heterochromatin foci in murine fibroblasts and to interact with the telomere-repeat-binding factor TRF1/PIN2. Here, we show that the ubiquitin-conjugating enzyme 2I (UBE2I), the human homolog of S. cerevisiae UBC9, and the small ubiquitin-like modifier-1 (SUMO-1) interact with SALL1 in the yeast two-hybrid system. The interaction of SALL1 and UBE2I was confirmed in a glutathione S-transferase (GST) pull-down experiment. In an in vitro assay, it could be demonstrated that SALL1 is covalently modified by at least two SUMO-1 molecules in the presence of UBA2/AOS1 and UBE2I. Mutation of lysine 1086 of SALL1 to arginine abrogates SALL1 sumoylation, suggesting the presence of a polymeric SUMO-1 chain in the wild type state.     

SUMO-2/3 regulates topoisomerase II in mitosis

We have analyzed the abundance of SUMO-conjugated species during the cell cycle in Xenopus egg extracts. The predominant SUMO conjugation products associated with mitotic chromosomes arose from SUMO conjugation of topoisomerase II. Topoisomerase II was modified exclusively by SUMO-2/3 during mitosis under normal circumstances, although we observed conjugation of topoisomerase II to SUMO-1 in extracts with exogenous SUMO-1 protein. Inhibition of SUMO modification by a dominant-negative mutant of the SUMO-conjugating enzyme Ubc9 (dnUbc9) did not detectably alter topoisomerase II activity, but it did increase the amount of unmodified topoisomerase II retained on mitotic chromosomes after high salt washing. dnUbc9 did not disrupt the assembly of condensed mitotic chromosomes or block progression of extracts through mitosis, but it did block the dissociation of sister chromatids at the metaphase-anaphase transition. Together, our results suggest that SUMO conjugation is important for chromosome segregation in metazoan systems, and that mobilization of topoisomerase II from mitotic chromatin may be a key target of this modification.