利用重组荧光素酶报告基因载体研究E2F调控组蛋白H2A的转录

转录因子E2F与细胞增殖、凋亡及癌变密切相关,组蛋白H2A是构成核小体的重要成员之一.研究通过特异性的阻断Rb基因的表达发现组蛋白H2A家族成员:HIST1H2AJ表达下调,再进一步研究转录因子E2F对HIST1H2AJ的转录调控.通过PCR得到HIST1H2hJ的5非翻译区序列,克隆到荧光素酶报告载体pGL3中,然后转染入HEK293,再检测荧光素酶的活性来判断E2F是否调控HIST1H2AJ的转录.研究结果表明:转录因子E2F能够调控组蛋白H2A家族成员之一HIST1H2AJ的转录.     

Isolated spinal cord contusion in rats induces chronic brain neuroinflammation,neurodegeneration, and cognitive impairment

Cognitive dysfunction has been reported in patients with spinal cord injury (SCI), but it has been questioned whether such changes may reflect concurrent head injury, and the issue has not been addressed mechanistically or in a well-controlled experimental model. Our recent rodent studies examining SCI-induced hyperesthesia revealed neuroinflammatory changes not only in supratentorial pain-regulatory sites, but also in other brain regions, suggesting that additional brain functions may be impacted following SCI. Here we examined effects of isolated thoracic SCI in rats on cognition, brain inflammation, and neurodegeneration. We show for the first time that SCI causes widespread microglial activation in the brain, with increased expression of markers for activated microglia/macrophages, including translocator protein and chemokine ligand 21 (C–C motif). Stereological analysis demonstrated significant neuronal loss in the cortex, thalamus, and hippocampus. SCI caused chronic impairment in spatial, retention, contextual, and fear-related emotional memory—evidenced by poor performance in the Morris water maze, novel objective recognition, and passive avoidance tests. Based on our prior work implicating cell cycle activation (CCA) in chronic neuroinflammation after SCI or traumatic brain injury, we evaluated whether CCA contributed to the observed changes. Increased expression of cell cycle-related genes and proteins was found in hippocampus and cortex after SCI. Posttraumatic brain inflammation, neuronal loss, and cognitive changes were attenuated by systemic post-injury administration of a selective cyclin-dependent kinase inhibitor. These studies demonstrate that chronic brain neurodegeneration occurs after isolated SCI, likely related to sustained microglial activation mediated by cell cycle activation.     

E2F1 介导8-氯-腺苷引起的人肺癌细胞H1299的凋亡

8-氯-腺苷（8-Cl-adenosine,8-Cl-Ado）可诱导人非小细胞性肺癌细胞H1299发生凋亡,但其分子机制还没有阐明．首先用四唑盐（MTT）比色法检测了8-Cl-Ado 对H1299 细胞的生长抑制作用．进一步采用蛋白质免疫印迹法(Western blotting) 检测了8-Cl-Ado 处理H1299细胞后,procaspase-3 的激活情况以及E2F1的蛋白水平．通过用pcDNA-HA-E2F1表达载体和pSUPER-E2F1 RNA 干扰载体分别转染H1299 细胞,研究在E2F1 过表达和RNA 干扰（RNA interference, RNAi）两种情况下对凋亡的影响．实验结果表明,8-Cl-Ado可抑制H1299 细胞的生长,激活凋亡关键执行蛋白procaspase-3,升高E2F1 蛋白水平．当E2F1 过表达后,同时伴有procaspase-3 的激活,而E2F1 表达受到抑制后,与对照相比,8-Cl-Ado 引起的procaspase-3 的激活被明显抑制,说明E2F1 介导8-Cl-Ado 引起的人肺癌细胞H1299 的凋亡．     

E2F-1- and E2Ftr-mediated apoptosis: the role of DREAM and HRK

E2F-1-deleted mutant, 'truncated E2F' (E2Ftr, E2F-1[1-375]), lacking the carboxy-terminal transactivation domain, was shown to be more potent at inducing cancer cell apoptosis than wild-type E2F-1 (wtE2F-1; full-length E2F-1). Mechanisms by which wtE2F-1 and E2Ftr induce apoptosis, however, are not fully elucidated. Our study demonstrates molecular effects of pro-apoptotic BH3-only Bcl-2 family member Harakiri (Hrk) in wtE2F-1- and E2Ftr-induced melanoma cell apoptosis. We found that Hrk mRNA and Harakiri (HRK) protein expression was highly up-regulated in melanoma cells in response to wtE2F-1 and E2Ftr overexpression. HRK up-regulation did not require the E2F-1 transactivation domain. In addition, Hrk gene up-regulation and HRK protein expression did not require p53 in cancer cells. Hrk knockdown by Hrk siRNA was associated with significantly reduced wtE2F-1- and E2Ftr-induced apoptosis. We also found that an upstream factor, 'downstream regulatory element antagonist modulator' (DREAM), may be involved in HRK-mediated apoptosis in response to wtE2F-1 and E2Ftr overexpression. DREAM expression levels increased following wtE2F-1 and E2Ftr overexpression. Western blotting detected increased DREAM primarily in dimeric form. The homodimerization of DREAM resulting from wtE2F-1 and E2Ftr overexpression may contribute to the decreased binding activity of DREAM to the 3'-untranslated region of the Hrk gene as shown by electromobility shift assay. Results showed wtE2F-1- and E2Ftr-induced apoptosis is partially mediated by HRK. HRK function is regulated in response to DREAM. Our findings contribute to understanding the mechanisms that regulate wtE2F-1- and E2Ftr-induced apoptosis and provide insights into the further evaluation of how E2Ftr-induced apoptosis may be used for therapeutic gain.