鲨鱼软骨血管生成抑制因子的纯化和功能

以中国东海鲸鲨软骨为原料,通过盐抽提、丙酮分级沉淀、离子交换层折、分子筛层析、高效液相色谱等步骤,获得鲨鱼软骨血管生成抑制因子－Ｉ（ｓｈａｒｋ ｃａｒｔｉｌｇａｅ ａｎｇｉｏｇｅｎｅｓｉｓ ｉｎｈｉｂｉｔｏｒｙ ｆａｃｔｏｒ－Ｉ,ＳＣＡＩＦ－Ｉ）,对其分子量、抑制血管生成及抑制肿瘤生长活性进行了研究。结果显示ＳＣＡＩＦ－Ｉ分子量１８ｋＤ,在细胞和整体水平上显著抑制新血管生成,显著抑制小鼠肿瘤的生长     

Expression of TNF-α Gene in Anabaena sp. PCC 7120 and Purification of Its Product by Affinity Chromatography

The effects of N (NaNO3) and C (NaAc) source in medium on the expression of tumor necrosis factor-α (TNF-α) gene in transgenic Anabaena sp. PCC 7120 were compared. The data showed that N source stabilized the expression of foreign protein and C source altered the synthesis of cell walls. Comparing several methods for breaking the cells, supersonic was able to extract TNF-α better than others. For purification of TNF-α, transgenic Anabaena cells were broken, the extracts were precipitated with ammonia sulfate, and the impure TNF-α was eluted from DEAE ion exchange chromatography. Electrophoresis (PAGE-SDS) showed a single band at 17 kD position.     

恒河猴外周血及肾组织SV40病毒基因分析

SV40即猿猴病毒40(simian virus 40),是DNA肿瘤病毒的原型代表,其基因结构为共价闭合环状双股DNA分子,标准参考株SV40-776含5243个核甘酸,不同分离株bp数略有差异.     

MYCN-Related Suppression of Functional CD44 Expression Enhances Tumorigenic Properties of Human Neuroblastoma Cells

Highly malignant neuroblastoma tumors with MYCN amplification have been shown to downregulate the expression of the CD44 adhesion receptor. We have previously shown that MYCN amplified neuroblastoma cell lines either lack CD44 expression or express a nonfunctional, nonhyaluronic acid-binding CD44 receptor. By analysis of cells with manipulated expression of either CD44 or MYCN, we demonstrate that transfection of cells with a CD44 full-length cDNA construct produced a functional receptor in single copy MYCN cells and a nonfunctional CD44 receptor in MYCN amplified cells, similar to the CD44 receptor expressed by cells with enforced MYCN. Analysis of the in vivo growth properties of the transfectants revealed that the restoration of a functional CD44 receptor in nonamplified cells resulted in the suppression of in vivo cell growth, therefore linking the MYCN-related lack of hyaluronic acid-binding function of CD44 to the highly tumorigenic properties of a subset of neuroblastoma cells.     

Effect of 14-3-3 protein induction on cell proliferation of A549 human lung adenocarcinoma

We have previously shown that 14-3-3 protein, amultifunctional adaptor molecule involved in many aspects ofsignal transduction pathways, is a target antigen for thecancer-associated human monoclonal antibody. Although recentevidences suggest a crucial role of 14-3-3 family members inthe control of cell growth and differentiation, their actualcontribution toward tumor development is still controversial. Inthis article, we examined the effect of enforced 14-3-3overexpression on cell growth of the human lung adenocarcinomacell line, A549. To address this issue, we obtained14-3-3 protein-inducible A549 sublines by transfection with14-3-3 expression vector under the control ofdexamethasone-inducible promoter. We found that 14-3-3 proteininduction in some of these sublines promoted their cell proliferation. Microscopic observation revealed that morphologyof these cells became aggressive multilayer condition,suggesting that malignant phenotypes are also acquired uponectopic induction of 14-3-3 protein.     

Ketone body utilization drives tumor growth and metastasis

We have previously proposed that catabolic fibroblasts generate mitochondrial fuels (such as ketone bodies) to promote the anabolic growth of human cancer cells and their metastasic dissemination. We have termed this new paradigm “two-compartment tumor metabolism.” Here, we further tested this hypothesis by using a genetic approach. For this purpose, we generated hTERT-immortalized fibroblasts overexpressing the rate-limiting enzymes that promote ketone body production, namely BDH1 and HMGCS2. Similarly, we generated MDA-MB-231 human breast cancer cells overexpressing the key enzyme(s) that allow ketone body re-utilization, OXCT1/2 and ACAT1/2. Interestingly, our results directly show that ketogenic fibroblasts are catabolic and undergo autophagy, with a loss of caveolin-1 (Cav-1) protein expression. Moreover, ketogenic fibroblasts increase the mitochondrial mass and growth of adjacent breast cancer cells. However, most importantly, ketogenic fibroblasts also effectively promote tumor growth, without a significant increase in tumor angiogenesis. Finally, MDA-MB-231 cells overexpressing the enzyme(s) required for ketone re-utilization show dramatic increases in tumor growth and metastatic capacity. Our data provide the necessary genetic evidence that ketone body production and re-utilization drive tumor progression and metastasis. As such, ketone inhibitors should be designed as novel therapeutics to effectively treat advanced cancer patients, with tumor recurrence and metastatic disease. In summary, ketone bodies behave as onco-metabolites, and we directly show that the enzymes HMGCS2, ACAT1/2 and OXCT1/2 are bona fide metabolic oncogenes.     

Serum CYR61 as a potential biomarker for the diagnosis of esophagogastric junction tumor

Background: Esophagogastric junction tumor (EGJ) is a rare but fatal disease with a rapid rising incidence worldwide in the late 20 years, and it lacks a convenient and safe method for diagnosis. The present study aimed to evaluate the potential of serum CYR61 as a biomarker for the diagnosis of EGJ tumor.Methods: Enzyme-linked immunosorbent assay (ELISA) was used to estimate CYR61 levels in sera of 152 EGJ tumor patients and 137 normal controls. Receiver operating characteristics (ROC) was carried out to evaluate the diagnostic accuracy. The Mann–Whitney’s U test was used to compare the difference of serum levels of CYR61 between groups. And chi-square tests were employed to estimate the correlation of the positive rate of serum CYR61 between/among subgroups.Results: Serum CYR61 levels were statistically lower in EGJ tumor and early-stage EGJ tumor patients than those in normal controls (P<0.0001). The sensitivity, specificity and the area under the curve (AUC) of this biomarker in EGJ tumor were 88.2%, 43.8% and 0.691, respectively, and those for early stage of EGJ tumor were 80.0%, 66.4% and 0.722, respectively. Analyses showed that there was no correlation between the clinical data and the levels of CYR61 (P>0.05).Conclusion: The present study showed that CYR61 might be a potential biomarker to assist the diagnosis of EGJ tumor.     

The multi-PDZ domain protein-1 (MUPP-1) expression regulates cellular levels of the PALS-1/PATJ polarity complex

MUPP-1 (multi-PDZ domain protein-1) and PATJ (PALS-1-associated tight junction protein) proteins are closely related scaffold proteins and bind to many common interactors including PALS-1 (protein associated with Lin seven) a member of the Crumbs complex. Our goal is to understand how MUPP-1 and PATJ and their interaction with PALS-1 are regulated in the same cells. We have shown that in MCF10A cells there are at least two different and co-existing complexes, PALS-1/MUPP-1 and PALS-1/PATJ. Surprisingly, MUPP-1 levels inversely correlated with PATJ protein levels by acting on the stabilization of the PATJ/PALS-1 complex. Upon MUPP-1 depletion, the increased amounts of PATJ are in part localized at the migrating front of MCF10A cells and are able to recruit more PAR3 (partition defective 3). All together these data indicate that a precise balance between MUPP-1 and PATJ is achieved in epithelial cells by regulating their association with PALS-1.