EB病毒感染人胎鼻咽上皮细胞逃避老化期过程中抑制p16^INK4a表达

细胞周期调控紊乱是细胞永生化进程中一个重要的分子事件,本文利用Western blotting和S-P法分别检测p16^INK4a、p53、p21^WAF1／CIP1和E2F1的蛋白表达,试图从细胞周期调控的角度,探讨EB病毒诱导人胎鼻咽上皮细胞逃避老化期的分子机制。结果表明,EB病毒通过抑制p16^INK4a表达而阻断p16^INK4a／Rb途径,上调转录因子E2F1,而对p53、p21^WAF1／CIP表达无明显的影响。结果初步揭示,EB病毒介导的p16^INK4a／Rb／E2F1细胞周期调控紊乱参与了人胎鼻咽上皮细胞逃避老化期过程,为进一步探讨鼻咽癌发病机制提供了科学依据。     

小鼠胚胎干细胞p16^INK4a基因外显子1a打靶研究

在活体水平上,小鼠p16^INK4a基因是否具有抑制肿瘤发生和发展的功能是一个悬而未决的问题。利用筛选基因组文库得到的小鼠p16^INK4a基因组DNA片段,构建了针对小鼠p16^INK4a基因外显子1a的基因打靶载体,其短臂为1.5kbEco81 I/AccⅡ片段,长壁为5.9kb Xba I/Xho I片段。打靶载体经线性化和纯化后通过电穿孔转导小鼠R1 ES细胞,获得37个G418和Gancyclovir双药抗性克隆。用Southern杂交法对双药抗性克隆进行鉴定,获得一个敲除了p16^INK4a基因外显子1a的阳性ES细胞克隆。     

抑癌基因的负转录调控

抑癌基因在正常细胞中适度表达,抑制细胞永生及转化,其转录下调见于某些肿瘤,而在衰老细胞中常见表达上调或活性增强。抑癌基因INK4a／ARF、p53和p21^Cipl的表达及其负调控与肿瘤及细胞衰老的关系十分密切。     

p19~(ARF):INK4α编码的另一种细胞周期抑制蛋白

INK4α的重叠编码框架编码产生出两个不同的蛋白p16INK4α和p19ARF。p19ARF在最近的研究中表明有细胞周期阻滞作用,它发挥作用时依赖于P53。其机制是通过与MDMZ结合并加速其降解,减少了后者对p53的下调,从而引起p53的积聚。p19ARF－MDM2－p53通路的发现对INK4α基因座的功能是个很好的补充。同时也提示INK4α基因突变或缺失可能同时损害p16INK4α－CDK4N6－RB和p19ARF－MDM2－p53这两条通路。一些肿瘤细胞中也发现确实存在p19ARF基因的失活。     

小鼠p16^INK4a基因位点的结构和功能研究

p16^INK4a基因的失活与多种肿瘤的发生和发展有联系。通过筛选小鼠基因组文库,获得长度为14.5kb的p16^INK4a基因组DNA片段。对上述14.5kbDNA 测序后进行生物信号学分析表明：该片段包含3个外显子,编码1个由168个氨基酸残基组成的多肽,其相对分子质量的理论计算值为17941,有7个可能的磷酸化位点,说明p16^INK4a蛋白的功能可能受到磷酸化的调控。该DNA片段的非编码区分布着大量短散布元件、长散布元件和简单重复序列,这样的结构为转座和同源重组提供了结构基因,提示了部分肿瘤细胞中p16^INK4a基因缺失的可能原因。对第一外显子离列与巳发表的相应序列比较发现其DNA序列和所编码的多肽存在多态性。     

p16INK4a/p19Arf与年龄相关性胰岛β细胞功能

2型糖尿病是一种与年龄密切相关的疾病,随着年龄增加,胰岛β细胞增殖能力和分泌能力下降,糖尿病患病率明显增加,但其机制尚不清楚. 最近研究发现,细胞周期蛋白依赖激酶(cyclin-dependent kinase, CDK)抑制剂p16INK4a是引起胰岛β细胞年龄相关性老化的重要调控因子.研究表明,通过p16INK4a介导的胰岛老化机制可能有如下两个：p38MAPK(mitogen-activated protein kinase)途径和PDGFR(platelet-derived growth factor receptor) 途径,两者均引起p16ink4a及p19ARF表达增加,而损害胰岛细胞增殖.本文综述年龄相关性胰岛β细胞功能下降的潜在机制,从而为改善胰岛β细胞功能提供新的分子靶点.     

含p53保守结合位点的microRNA表达载体的构建及应用

目的:构建含p53保守结合位点的microRNA(miRNA)表达载体,促进相关miRNA在具有野生型p53蛋白细胞中的高效表达。方法:改构miRNA表达载体pCMV-miR,在其多克隆位点前插入p53保守结合位点,分别将miR-138、miR-34a和miR-21前体序列pre-miR-138、pre-miR-34a和pre-miR-21插入上述改构的载体pCMV/p53-miR,将构建的pCMV/p53-miR-138、pCMV/p53-miR-34a和pCMV/p53-miR-21表达载体转染具有野生型p53的HeLa细胞和不表达p53的H1299细胞,分析p53对上述miRNA表达调控的影响。结果:转染改构的miRNA表达载体后,HeLa细胞中miR-138、miR-34a和miR-21的表达水平明显提高,它们对应的已知靶基因Cyclin D3、CDK2和PTEN的表达同时被显著下调。结论:在p53转录调控作用下,具有p53保守结合位点的miRNA表达载体能够更加有效地提高miRNA的表达水平;构建的载体不但可用于促进相关miRNA的表达,也能用于miRNA是否受p53调控的检测。     

Genetic aberration in primary hepatocellular carcinoma：correlation between p53 gene mutation and loss—of—heterozygosity on chromosome 16q21—q23 and 9p21—p23

To elucidate the molecular pathology underlying the development of hepatocellular carcinoma (HCC),we used 41 highly polymorphic microsatellite markers to examine 55 HCC and corresponding non-tumor liver tissues on chromosome 9,16 and 17.Loss-of-heterozygosity(LOH) is observed with high frequency on chromosomal region 17p13(36k/55,65%),9q21-p23(28/55,51%),16q21-23(27/55,49%) in tumors.Meanwhile,microsatellite instability is rarely found in these microsatellite loci.Direct sequencing was performed to detect the tentative mutation of tumor wuppressor genes in these regions:p53,MTS1/p16,and CDH1/E-cadherin.Wihin exon 5-9 of p53 gene,14 out of 55 HCC specimens(24%) have somatic mutations,and nucleotide deletion of this gene is reported in HCC for the first time.Mutation in MTS1/p16 is found only in one tumor case.We do not find mutations in CDH1/E-cadherin.Furthermore,a statistically significant correlation is present between p53 gene mutation and loss of chromosome region 16q21-q23 and 9p21-p23,which indicates that synergism between p53 inactivation and deletion of 16q21-q23 and 9p21-p23 may play a role in the pathogenesis of HCC.     

参与细胞衰老的蛋白质结构域

  大多数正常体细胞有有限的复制周期,并最终进入生长停滞状态被称为复制性衰老.迄今比较公认的3条细胞衰老信号转导途径是：p16INK4a/Rb、p19ARF/p53/p21Waf1以及PTEN/p27.目前发现,在基因转录水平上,有些转录因子的结构域对调节p16INK4a、p53/p21Waf1以及p27等与细胞衰老相关基因的表达有重要作用,如E2DBD、环指域(RING finger)等;其次,各条通路要发挥作用,必然要借助其上下游蛋白质的相互作用,其中结构域发挥了纽带作用.本文对其中某些蛋白质相互作用的结构域进行了描述.最后,还总结了其他一些参与细胞衰老的结构域.     

EB病毒感染人胎鼻咽上皮细胞逃避老化期过程中抑制p16INK4a表达

细胞周期调控紊乱是细胞永生化进程中一个重要的分子事件,本文利用Western blotting和S-P法分别检测p16~(INK4a)、p53、p21~(WAF1/CIP1)和E2F1的蛋白表达,试图从细胞周期调控的角度,探讨EB病毒诱导人胎鼻咽上皮细胞逃避老化期的分子机制。结果表明,EB病毒通过抑制p16~(INK4a)表达而阻断p16~(INK4a)/Rb途径,上调转录因子E2F1,而对p53、p21~(WAF1/CIP1)表达无明显的影响。结果初步揭示,EB病毒介导的p16~(INK4a)/Rb/E2F1细胞周期调控紊乱参与了人胎鼻咽上皮细胞逃避老化期过程,为进一步探讨鼻咽癌发病机制提供了科学依据。     

p300/CBP/p53 interaction and regulation of the p53 response.

Substantial evidence points to a critical role for the p300/CREB binding protein (CBP) coactivators in p53 responses to DNA damage. p300/CBP and the associated protein P/CAF bind to and acetylate p53 during the DNA damage response, and are needed for full p53 transactivation as well as downstream p53 effects of growth arrest and/or apoptosis. Beyond this simplistic model, p300/CBP appear to be complex integrators of signals that regulate p53, and biochemically, the multipartite p53/p300/CBP interaction is equally complex. Through physical interaction with p53, p300/CBP can both positively and negatively regulate p53 transactivation, as well as p53 protein turnover depending on cellular context and environmental stimuli, such as DNA damage.     

Regulation of Yeast Actin Cytoskeleton-Regulatory Complex Pan1p/Sla1p/End3p by Serine/Threonine Kinase Prk1p

The serine/threonine kinase Prk1p is known to be involved in the regulation of the actin cytoskeleton organization in budding yeast. One possible function of Prk1p is the negative regulation of Pan1p, an actin patch regulatory protein that forms a complex in vivo with at least two other proteins, Sla1p and End3p. In this report, we identified Sla1p as another substrate for Prk1p. The phosphorylation of Sla1p by Prk1p was established in vitro with the use of immunoprecipitated Prk1p and in vivo with the use of PRK1 overexpression, and was further supported by the finding that immunoprecipitated Sla1p contained PRK1- and ARK1-dependent kinase activities. Stable complex formation between Prk1p and Sla1p/Pan1p in vivo could be observed once the phosphorylation reaction was blocked by mutation in the catalytic site of Prk1p. Elevation of Prk1p activities in wild-type cells resulted in a number of deficiencies, including those in colocalization of Pan1p and Sla1p, endocytosis, and cell wall morphogenesis, likely attributable to a disintegration of the Pan1p/Sla1p/End3p complex. These results lend a strong support to the model that the phosphorylation of the Pan1p/Sla1p/End3p complex by Prk1p is one of the important mechanisms by which the organization and functions of the actin cytoskeleton are regulated.     

p300/CBP及其相关因子PCAF与转录调控

p300/CBP及相关因子PCAF具有乙酰转移酶活性,能通过乙酰化组蛋白和非组蛋白的方式参与基因的转录调控.同时,它们能在转录因子和基本转录复合物之间起到桥梁作用,而且也能为整合多种转录因子提供支架,是一种典型的转录辅激活子. p300/CBP与细胞周期调控、细胞凋亡以及癌症的发生等过程之间有着直接的联系。本文概括了p300/CBP与PCAF的基本特性,并简要介绍它们与其他蛋白之间的相互作用,特别是E1A的最新研究进展。     

Radiation-induced concomitant overexpression of p53, p62c-fos and p21N-fas in mouse epidermis

Abstract. Early molecular events in radiation carcinogenesis in vivo are difficult to study, especially because it is usually impossible to know in advance the exact location of a radiation-induced tumour. In the present study, we have attempted to overcome this difficulty by exposing a very small area of hairless mouse skin to high-dose beta radiation (i.e. immobilized hot particles) on the reasonable assumption that a malignant tumour would subsequently develop and be found at the exposed site in a long-term follow-up. The results showed that at an exposed site, before the appearance of a visible or histologically detectable tumour, overexpression of the product of the tumour suppressor gene p53 was common (28% of the sites studied; tested with PAbl801, PAb421, PAb240 and a polyclonal antibody CM1) and that this change was regularly accompanied by overexpression of p62^c-fos and p21^N-ras. Expression of several other oncoproteins studied (p39^c-jun, p21^K-ras, p21^H-ras) was not altered at these sites. A similar pattern of changes was observed in a visible and histopathologically distinct tumour that was analyzed after its development at an exposed site. These results suggest a re'markably regular pattern of molecular changes, induced by ionizing radiation in mouse epidermis, which might be associated with carcinogenesis.     

The Tim9p/10p and Tim8p/13p complexes bind to specific sites on Tim23p during mitochondrial protein import

The import of polytopic membrane proteins into the mitochondrial inner membrane (IM) is facilitated by Tim9p/Tim10p and Tim8p/Tim13p protein complexes in the intermembrane space (IMS). These complexes are proposed to act as chaperones by transporting the hydrophobic IM proteins through the aqueous IMS and preventing their aggregation. To examine the nature of this interaction, Tim23p molecules containing a single photoreactive cross-linking probe were imported into mitochondria in the absence of an IM potential where they associated with small Tim complexes in the IMS. On photolysis and immunoprecipitation, a probe located at a particular Tim23p site (27 different locations were examined) was found to react covalently with, in most cases, only one of the small Tim proteins. Tim8p, Tim9p, Tim10p, and Tim13p were therefore positioned adjacent to specific sites in the Tim23p substrate before its integration into the IM. This specificity of binding to Tim23p strongly suggests that small Tim proteins do not function solely as general chaperones by minimizing the exposure of nonpolar Tim23p surfaces to the aqueous medium, but may also align a folded Tim23p substrate in the proper orientation for delivery and integration into the IM at the TIM22 translocon.     

Region-Specific Targets of p42/p44MAPK Signaling in Rat Brain

Abstract: In vitro studies indicate that p42/p44^MAPK phosphorylate both nuclear and cytoplasmic proteins. However, the functional targets of p42/p44^MAPK activation in vivo remain unclear. To address this question, we localized activated p42/p44^MAPK in hippocampus and cortex and determined their signaling effects after electroconvulsive shock treatment (ECT) in rats. Phosphorylated p42/p44^MAPK content increased in the cytoplasm of hippocampal neurons in response to ECT. Consistent with this cytoplasmic localization, inhibition of ECT-induced p42/p44^MAPK activation by the extracellular signal-regulated kinase kinase inhibitor PD098059 blocked phosphorylation of the cytoplasmic protein microtubule-associated protein 2c (MAP2c), but failed to inhibit the induction of the nuclear protein c-Fos in response to ECT. In contrast to hippocampal neurons, cortical neurons exhibited an increase in amount of phosphorylated p42/p44^MAPK in both the nucleus and cytoplasm after ECT. Accordingly, PD098059 blocked the induction of Fos-like immunoreactivity in the nuclei of cortical neurons as well as MAP2c phosphorylation in the cytoplasm. Our data indicate that both nuclear and cytoplasmic substrates can be activated by p42/p44^MAPK in vivo. However, the functional targets of p42/p44^MAPK signaling depend on the precise location of p42/p44^MAPK within different subcellular compartments of brain regions. These results indicate unique functional pathways of p42/p44^MAPK-mediated signal transduction within different brain regions in vivo.     

The vesicular transport protein Cgp1p/Vps54p/Tcs3p/Luv1p is required for the integrity of the actin cytoskeleton

The CGP1 gene was identified in a screen for mutations that were synthetic lethal in combination with a deletion of the gene (CPF1) for centromere and promoter factor 1. Cells deleted for CGP1 showed reduced viability, were temperature sensitive for growth and exhibited altered sensitivity to microtubule-destabilizing drugs. Furthermore, Deltacgp1 cells showed increased rates of loss of a circular minichromosome and defects in the positioning of the short mitotic spindle. Further phenotypic analysis of Deltacgp1 cells revealed that loss of Cgp1p function led to severe depolarization of the actin cytoskeleton. In addition, cells deleted for CGP1 were hypersensitive to the actin-disrupting compound Latrunculin-A, exhibited strongly reduced polarized localization of the unconventional myosin Myo2p, and showed defects in other actin-related processes, such as shmoo formation and cell wall integrity. Cgp1p was recently identified by several groups as Vps54p, which is a member of the VFT complex that is involved in vesicular protein transport at the level of the late Golgi, acting as a tethering factor. Our data show for the first time that Cgp1p/Vps54p links aspects of vesicular protein transport with the organization of the actin cytoskeleton.