胰腺癌对TNF相关凋亡诱导配体(TRAIL)的抗性与逆转研究

TRAIL(TNF-related apoptosis-inducing ligand)是一种能识别和选择性杀伤肿瘤细胞的蛋白质因子,但研究发现胰腺癌对TRAIL的敏感程度远远不及其他肿瘤,其抵抗机制主要集中于胞内水平的调节,如c-FLIPS、BCL-2/BCL-xL、XIAP表达上调等,且针对性的逆转策略也进行了深入的研究.本文就TRAIL途径在胰腺癌中的研究进展作一概要的介绍.     

Antiemetic Role of Thalidomide in a Rat Model of Cisplatin-Induced Emesis

The efficacy of thalidomide to attenuate cisplatin-induced emesis was evaluated in a rat model. Four groups were utilized: control group (peritoneal injection and gastric lavage with normal saline), cisplatin group (peritoneal injection of cisplatin at 10 mg/kg and gastric lavage with normal saline), thalidomide group (cisplatin as above and gastric lavage with thalidomide at 10 mg/kg), and granisetron group (positive control for antiemetic effects; cisplatin given as above and gastric lavage done with granisetron at 0.5 mg/kg). The cisplatin-induced kaolin consumption (pica behavior) was used as a model of emesis in patients. The animals’ kaolin and food intakes were measured. Further, medulla and gastric tissues were obtained 5 and 33 h after peritoneal injections to quantify the levels of Substance P and Neurokinin-1 receptor (NK-1R). The cisplatin-induced kaolin consumption was significantly (p < 0.05 vs. cisplatin group) attenuated by thalidomide 72 h after the injection. The levels of Substance P in the medulla and gastric tissue were increased 5 h after the injection in both cisplatin and thalidomide groups, however, returned faster to normal levels in the thalidomide group (p < 0.05 vs. cisplatin group). Further, levels of NK-1R in the cisplatin, thalidomide, and granisetron group were significantly increased at both 5 and 33 h (p < 0.05 vs. control group), with no obvious difference among these three groups. In conclusion, thalidomide attenuates animal equivalent of cisplatin-induced emesis, and this beneficial effect is associated with decreased levels of Substance P levels in the medulla and gastric tissue.     

Solid tumor-targeted infiltrating cytotoxic T lymphocytes retained by a superantigen fusion protein

Successful immune-mediated regression of solid tumors is difficult because of the small number of cytotoxic T lymphocytes (CTLs) that were traffic to the tumor site. Here, the targeting of tumor-specific infiltrating CTLs was dependent on a fusion protein consisting of human epidermal growth factor (EGF) and staphylococcal enterotoxin A (SEA) with the D227A mutation. EGF-SEA strongly restrained the growth of murine solid sarcoma 180 (S180) tumors (control versus EGF-SEA, mean tumor weight: 1.013 versus 0.197 g, difference  = 0.816 g). In mice treated with EGF-SEA, CD4⁺, CD8⁺ and SEA-reactive T lymphocytes were enriched around the EGFR expressing tumor cells. The EGF receptors were potentially phosphorylated by EGF-SEA stimulation and the fusion protein promoted T cells to release the tumoricidal cytokines interferon-γ (IFN-γ) and tumor necrosis factor-α (TNF-α). Intratumoral CTLs secreted cytolytic pore-forming perforins and granzyme B proteins near the surface of carcinomas, causing the death of many tumor cells. We additionally show that labeled EGF-SEA was directly targeted to the tumor tissue after intravenous (i.v.) injection. The findings demonstrate that antibody-like EGF-SEA plays an important role in arresting CTLs in the solid tumor site and has therapeutic potential as a tumor-targeting agent.     

QTL underlying the resistance to soybean aphid (<Emphasis Type="Italic">Aphis glycines</Emphasis> Matsumura) through isoflavone-mediated antibiosis in soybean cultivar ‘Zhongdou 27’

Soybean aphid (Aphis glycines Matsumura) results in severe yield loss of soybean in many soybean-growing countries of the world. A few loci have been previously identified to be associated with the aphid resistance in soybean. However, none of them was via isoflavone-mediated antibiosis process. The aim of the present study was to conduct genetic analysis of aphid resistance and to identify quantitative trait loci (QTL) underlying aphid resistance in a Chinese soybean cultivar with high isoflavone content. One hundred and thirty F_5:6 derived recombinant inbred lines from the ‘Zhongdou 27’ × ‘Jiunong 20’ cross were used. Two QTL were directly associated with resistance to aphid as measured by aphid damage index. qRa_1, close to Satt470 on soybean linkage group (LG) A2 (chromosome 8), was consistently detected for 3- and 4-week ratings and explained a large portion of phenotypic variations ranging from 25 to 35%. qRa_2, close to Satt144 of LG F (chromosome 13), was detected for 3- and 4-week ratings and could explain 7 and 11% of the phenotypic variation, respectively. These two QTL were highly associated with high isoflavone content and both positive alleles were derived from ‘Zhongdou 27’, a cultivar with higher isoflavone content. The results revealed that higher individual or total isoflavones contents in soybean lines could protect soybean against aphid attack. These two QTL detected jointly provide potential for marker-assisted selection to improve the resistance of soybean cultivars to aphid along with the increase of isoflavone content.     

Detection of open and closed conformations of tryptophan synthase by 15N-heteronuclear single-quantum coherence nuclear magnetic resonance of bound 1-15N-L-tryptophan

1-15N-L-Tryptophan (1-15N-L-Trp) was synthesized from 15N-aniline by a Sandmeyer reaction, followed by cyclization to isatin, reduction to indole with LiAlH4, and condensation of the 15N-indole with L-serine, catalyzed by tryptophan synthase. 1-15N-L-Trp was complexed with wild-type tryptophan synthase and beta-subunit mutants, betaK87T, betaD305A, and betaE109D, in the absence or presence of the allosteric ligands sodium chloride and disodium alpha-glycerophosphate. The enzyme complexes were observed by 15N-heteronuclear single-quantum coherence nuclear magnetic resonance (15N-HSQC NMR) spectroscopy for the presence of 1-15N-L-Trp bound to the beta-active site. No 15N-HSQC signal was detected for 1-15N-L-Trp in 10 mm triethanolamine hydrochloride buffer at pH 8. 1-15N-L-Trp in the presence of wild-type tryptophan synthase in the absence or presence of 50 mm sodium chloride showed a cross peak at 10.25 ppm on the 1H axis and 129 ppm on the 15N axis as a result of reduced solvent exchange for the bound 1-15N-L-Trp, consistent with formation of a closed conformation of the active site. The addition of disodium alpha-glycerophosphate produced a signal twice as intense, suggesting that the equilibrium favors the closed conformation. 15N-HSQC NMR spectra of betaK87T and betaE109D mutant Trp synthase with 1-15N-L-Trp showed a similar cross peak either in the presence or absence of disodium alpha-glycerophosphate, indicating the preference for a closed conformation for these mutant proteins. In contrast, the betaD305A Trp synthase mutant only showed a 15N-HSQC signal in the presence of disodium alpha-glycerophosphate. Thus, this mutant Trp synthase favored an open conformation in the absence of disodium alpha-glycerophosphate but was able to form a closed conformation in the presence of disodium alpha-glycerophosphate. Our results demonstrate that the 15N-HSQC NMR spectra of 1-15N-L-Trp bound to Trp synthase can be used to determine the conformational state of mutant forms in solution rapidly. In contrast, UV-visible spectra of wild-type and mutant Trp synthase in the presence of L-Trp with NaCl and/or disodium alpha-glycerophosphate are more difficult to interpret in terms of altered conformational equilibria.