细胞周期抑制蛋白p27的研究进展

p27基因位于人类染色体12p13,其编码的蛋白对cyclinsCDKs具有广泛的抑制活性,是细胞周期调控的抑制蛋白。它以化学剂量的方式调节细胞周期的进程,参与细胞的生长、分化等过程。对p27基因的发现、基因结构、对细胞周期和细胞分化的调控机制以及与肿瘤的关系作一介绍。     

喉癌的比较基因组杂交研究

寻找与喉癌发生进展的相关基因,应用比较基因组杂交技术分析了18例喉癌患者。结果显示,每例喉癌细胞染色体均有不同程度的变化,包括染色体全部或部分的扩增或丢失。平均每例有12．9处异常区域,丢失多于扩增,分别为每例7．2处和5．7处。主要为3q(78％,)、5p(61％)、11q(56％)、1q(50％,)、8p(44％)、8q(39％)和15q(39％)的扩增;3p(70％)、5q(78％)、90(67%)、13q(50％)、1p(44％)和14q(39％)的丢失。有多条染色体区带上出现特异的扩增或丢失,特别是1p13-21(8／18)、3p21-23(14／18)、5p21-22(14／18)、9p12-pter(10／18)和13q21-31(8／18)的拷贝数增加明显,而1q11-2l(11／18)、3q15-21(12／18)、8p22-24(6／18)、11q12-13(8／18)、15q21-23(7／18)和18p11(8／18)区域的丢失为喉癌的特征性变化,说明这些区域中存在与喉癌发生发展密切相关的癌基因、抑癌基因或其他相关基因。     

erbB族癌基因的结构和功能

AEV病毒诱发鸡成红细胞增多症和肉瘤,并能体外转化成红细胞和成纤维细胞。AEV基因组的erbB对细胞转化和动物致瘤起主要作用,而erbA能加强前者的效果。现已证明EGFR基因是c-erbB原癌基因。v-ebB编码截短的EGFR蛋白。人c-erbB 1(HER 1)定位于染色体7p11-P13,转录5.8kb和10.5kbmRNA,转详p170 EGFR蛋白。另有c-erbB2(HER2,neu)定位于染色体17q21,转录4.8kb mRNA,转译p185蛋白。在许多人体肿瘤及其细胞株中,c-erbB族基因扩增,而且过度表达,这与肿瘤生物学行为相关。     

通过比较基因组杂交研究肝癌中非随机染色体畸变

本研究通过使用比较基因组杂交的方法,研究肝癌中的非随机染色体畸变,旨在为肝癌的临床诊断和治疗提供参考资料。本研究收集了我院在2016年9月至2017年9月收治的10例肝癌患者,采集其肝癌标本。使用比较基因组杂交法(CGH)对所有肝癌标本的非随机染色体畸变进行分析。结果表明,所有肝癌标本均出现了非随机染色体畸变,即4q区域、16q区域、8p区域和17p区域的缺失变化。同时在1q区域、8q区域、17q区域以及6p区域出现了扩增变化。本研究初步得出结论,在肝癌出现后,其非随机区域会出现染色体畸变,这些情况的出现可对肝癌进行较好诊断,同时也可指导对肝癌的治疗。     

鼻咽癌转移相关基因的比较基因组杂交和cDNA微阵列研究

为筛选在鼻咽癌转移中起重要作用的基因 ,应用比较基因组杂交 (CGH)和cDNA微阵列方法研究成瘤和转移能力不同的鼻咽癌细胞株 6 10B和 5 8F .CGH结果显示 ,2种细胞株在 5p、7q、8p、9q、11p、12q和 17p的一定区域存在差异性扩增 ,在 2q存在差异性缺失 ;cDNA微阵列显示 ,相对于非转移性 6 10B细胞株 ,高转移性 5 8F细胞表现一些基因表达的上调及下调 ,CGH和cDNA微阵列的结合是筛选转移相关基因较好方法     

候选抑癌基因 ING1的研究进展

人候选抑癌基因ING1定位于13q33-34,有3个外显子和2个内含子。ING1mRNA至少有3种变位剪接形式,分别编码3种不同的蛋白质：p47ING1a,p33ING1b和p24ING1。ING1与p53相互作用能够抑制细胞的生长,促进细胞凋亡。在一些肿瘤中还发现ING1表达下调或ING1突变。P33ING1b参与mSin3复合体的形成而介导转录抑制。     

低氧诱导因子在肾透明细胞癌中作用的研究进展

VHL基因具有调节转录、稳定细胞生长相关基因和调节细胞周期的功能,其突变、缺失、重排和超甲基化与肾细胞癌(RCC)的发生密切相关。VHL基因产物VHL肿瘤抑制蛋白(p VHL)是泛素连接酶的成分,具有调节低氧诱导因子(HIF)稳定性的作用。HIF家族主要包含三种HIFα因子(HIF1α、HIF2α、HIF3α)和两种HIFβ因子(HIF1β、HIF2β)。HIF1α位于14q染色体上,在肾透明细胞癌中该染色体经常缺失,且这种14q的缺失常伴有预后不良。HIF2α的表达异常促进了p VHL缺陷型肾透明细胞癌中的发生。目前,抑制HIF2α及其下游的血管内皮生长因子(VEGF)的药物都处于临床试验的不同阶段,已有四种VEGF抑制剂获准用于肾透明细胞癌的治疗。选择抑制HIF或具有HIF靶基因抑制选择性的药物进行研究,可能为肾透明细胞癌的治疗提供新的方法。本文就HIF在VHL蛋白缺陷型肾透明细胞癌中作用的研究进展进行了综述。     

利用cDNA微阵列-CGH筛选支气管上皮细胞恶性转化中的扩增基因

目的:基因组不稳定是导致肺癌发生与发展的重要分子机理之一。本研究旨在筛选支气管上皮细胞恶性转化过程中拷贝数扩增的基因。方法:利用业已建立的支气管上皮细胞体外恶性转化模型,通过cDNA微阵列-CGH技术对支气管上皮来源的永生化细胞和癌变细胞的基因拷贝数进行了检测,并对部分结果进行了实时PCR验证。结果:永生化BEP2D细胞染色体中的某些区域存在不同程度的扩增,包括5q31.3、9q32-33.1、14q22.2-23.1、19p13.12-13.13、20q13.12-13.31;恶性转化BERP35T2细胞染色体中的扩增区域集中在1p12-13.1、5q33.1、5q31.3、9q32、19p13.12-13.13;5q31.3、9q32、19q13.12-13.13是以上2种细胞系中的共同扩增区域。共检测到201个基因的拷贝数发生扩增,其中PCNA、TP53及GADD45A基因的异常扩增已经实时PCR进一步验证。结论:在支气管上皮细胞恶性转化过程中,病毒与低剂量辐射的双重作用使得某些重要基因的拷贝数发生扩增,因基因剂量增加而导致某些癌基因高表达可能是细胞恶性转化的重要机制之一。     

体外模拟人体细胞癌变的进展

癌症的发生是一个多基因决定和多阶段演进的过程 ,首先是某些基因发生突变并不断积累 ,引起细胞分化生长失控。然而这些突变必须克服机体设置的细胞增殖障碍、应激产生的染色体基因修补机制以及多种抑癌基因的作用。在染色体受到损伤时 ,这些抑癌因子会激活表达 ,调控基因转录以抑制肿瘤生长 ,所以只有当排除了抑癌因子的多重作用后 ,一个正常细胞才能逐渐突破防线而转化成为一个肿瘤细胞[1] 。经过多年研究 ,科学家虽已搞清了主导肿瘤转化的相关基因及其在转化过程中所起的作用 ,但能否根据这些已经了解的细胞转化机制 ,在体外模拟肿瘤的发…     

p53肿瘤抑制基因

正常细胞的增殖常取决于促进生长的原癌基因和抑制生长的肿瘤抑制基因的平衡调节。原癌基因的激活或者肿瘤抑制基因的失活都能导致细胞生长的失控。事实上,许多肿瘤的发生需要基因组中这两类基因的同时突变。虽然人们对肿瘤抑制基因的认识较细胞癌基因晚了近10年,但当今它已成为了解肿瘤起源分子     

Human augmenter of liver regeneration: molecular cloning, biological activity and roles in liver regeneration

The complete amino acid sequence of human augmenter of liver regeneration (hALR) was reported by deduction from nucleotide sequence of its complementary DNA . The cDNA for hALR was isolated by screening a human fetal liver cDNA library and the sequencing of this insert revealed an open reading frame encoding a protein with 125aa and highly homologous (87% ) with rat ALR encoding sequence. The recombinant hALR expressed from its cDNA in transient expression experiments in cos-7 cells could stimulate DNA synthesis of HTC hepatoma cell in the dose-dependent and heat-resistant way. Northern blot analysis with rat ALR cDNA as probe confirmed that ALR mRNA was expressed in the normal rat liver at low level and that dramatically increased in the regenerating liver after partial hepatectomied rat. This size of hALR mRNA is 1.4 kb long and expressed in human fetal liver, kidney and testis. These findings indicated that liver itself may be the resource of ALR and suggested that ALR seems to be an im-portant parac     

Characterization of the cDNA Coding for Rat Brain Cysteine Sulfinate Decarboxylase

Cysteine sulfinate decarboxylase (CSD) is considered as the rate-limiting enzyme in the biosynthesis of taurine, a possible osmoregulator in brain. Through cloning and sequencing of RT-PCR and RACE-PCR products of rat brain mRNAs, a 2,396-bp cDNA sequence was obtained encoding a protein of 493 amino acids (calculated molecular mass, 55.2 kDa). The corresponding fusion protein showed a substrate specificity similar to that of the endogenous enzyme. The sequence of the encoded protein is identical to that encoded by liver CSD cDNA. Among other characterized amino acid decarboxylases, CSD shows the highest homology (54%) with either isoform of glutamic acid decarboxylase (GAD65 and GAD67). A single mRNA band, approximately 2.5 kb, was detected by northern blot in RNA extracts of brain, liver, and kidney. However, brain and liver CSD cDNA sequences differed in the 5' untranslated region. This indicates two forms of CSD mRNA. Analysis of PCR-amplified products of genomic DNA suggests that the brain form results from the use of a 3' alternative internal splicing site within an exon specifically found in liver CSD mRNA. Through selective RT-PCR the brain form was detected in brain only, whereas the liver form was found in liver and kidney. These results indicate a tissue-specific regulation of CSD genomic expression.     

Down－regulated expression of atypical PKC－binding domain deleted asip isoforms in human hepatocellular carcinomas

INTRODUCTIONCell polarity is the reflection of complex mechanisms that establish and maintain the functionally specialized regions in the plasma membrane and cytoplasm, and is fundamentally important for differentiation, proliferation, morphogenesis and other functions of simple and complicated organisms[1].Molecular mechanisms of cell polarity during animal development have been analyzed mainly in the nematode Caenorhabditis elegans and the fruit fly Drosophila melanogaster[2]. In early …     

应用逆转录聚合酶链反应法扩增类胰岛素生长因子Ⅱ基因

利用酸性异硫氰酸胍-酚-氯仿一步法从人胚胎组织中提取总RNA,经Oligo(dT)纤维柱分离纯化出mRNA。用逆转录与聚合酶链反应相结合的RT-PCR法,扩增出人类胰岛素生长因子Ⅱ(IGFⅡ)的cDNA片段,在限制性内切酶Sma Ⅰ存在的连接体系中,将扩增出的cDNA片段克隆进PUC12的Sma Ⅰ位点处。经限制性内切酶EcoR Ⅰ、Sal Ⅰ、Eco47Ⅲ酶切鉴定其方向。以重组质粒的双链DNA为模板,用末端终止法测定其全部核苷酸顺序,证实其核苷酸编码的IGFⅡ在氨基酸顺序上与文献报道的相同。     

Molecular cloning of cDNA for rat and human carbamyl phosphate synthetase I

Recombinant plasmids with inserts complementary to the mRNA for carbamyl phosphate synthetase I were identified from a rat liver cDNA library by hybrid-selected mRNA translation. Four clones, the largest being 3100 base pairs, were identified for the rat liver enzyme. Using the rat liver cDNA as a probe, two homologous recombinant plasmids of approximately 1200 base pairs in length were isolated from a human liver cDNA library. Northern blot analysis of rat liver mRNA and baboon liver mRNA revealed the presence of a 5000-base mRNA homologous to both rat and human cDNA probes. No homologous mRNA was observed in mRNA from rat heart or rat kidney as is consistent with the known tissue distribution of this enzyme. The induction of carbamyl phosphate synthetase and argininosuccinate synthetase mRNA during the fetal and postnatal development of the rat was studied by dot blot analysis of isolated mRNA. The mRNA for both enzymes appeared between 17 and 19 days of fetal life and reached approximately 40% of adult levels during this period. This initial increase was followed by a rapid decline just prior to birth. The mRNA levels slowly increased during postnatal life, not reaching adult levels until after the 20th day of neonatal life. Using the human cDNA clones, the human carbamyl phosphate synthetase gene was mapped to chromosome 2 utilizing a panel of Chinese hamster X human somatic cell hybrids. Analysis of one hybrid with a human-Chinese hamster translocation provided a provisional assignment to the short arm of chromosome 2.     

Molecular cloning and functional expression of rat liver cytosolic acetyl-CoA hydrolase.

A cytosolic acetyl-CoA hydrolase (CACH) was purified from rat liver to homogeneity by a new method using Triton X-100 as a stabilizer. We digested the purified enzyme with an endopeptidase and determined the N-terminal amino-acid sequences of the two proteolytic fragments. From the sequence data, we designed probes for RT-PCR, and amplified CACH cDNA from rat liver mRNA. The CACH cDNA contains a 1668-bp ORF encoding a protein of 556 amino-acid residues (62 017 Da). Recombinant expression of the cDNA in insect cells resulted in overproduction of functional acetyl-CoA hydrolase with comparable acyl-CoA chain-length specificity and Michaelis constant for acetyl-CoA to those of the native CACH. Database searching shows no homology to other known proteins, but reveals high similarities to two mouse expressed sequence tags (91% and 93% homology) and human mRNA for KIAA0707 hypothetical protein (50% homology) of unknown function.     

Primary structure of rat hepatocyte growth factor and induction of its mRNA during liver regeneration following hepatic injury

Overlapping cDNA clones for rat hepatocyte growth factor (rHGF) were isolated by cross-hybridization with the cloned cDNA for human hepatocyte growth factor (hHGF) and the nucleotide sequence of the cDNA was determined. The entire primary structure of rHGF was deduced from the sequence. Comparison of the amino acid sequences between rat and human HGFs revealed that the two sequences are highly conserved throughout the protein structures, suggesting that rat and human HGFs may be functionally similar. Responses of the rHGF mRNA during liver regeneration in rats were examined by Northern blot hybridization analysis with the aid of the cDNA probe for rHGF. The mRNA levels increased in the liver and spleen but not in the kidney after administration of carbon tetrachloride. At the maximum level of induction, the rHGF mRNA increased in the liver about 4.5-fold over its normal level. The mRNA levels also increased in the liver and spleen after administration of D-galactosamine. On the other hand, no obvious increase of the mRNA was observed in the liver and spleen after partial hepatectomy. These observations suggest that HGF may function as a regulator of liver regeneration following hepatic injury caused by hepatotoxins.