丙二醛(MDA)对小鼠游泳能力的影响

MDA是脂质过氧化的重要中间产物之一,常用于表征氧化紧张.采用昆明小鼠(KMMice)研究MDA对整体动物的应激反应,考察一次性给药后小鼠的体重变化和游泳能力,结果发现:给药后10min,注射生理盐水(0.85%)能增加小鼠的体重,注射MDA(200mmol/L,0.01mL/g体重)能提高小鼠的游泳能力,二者均达到显著水平(P<0.05).这一结果对于了解氧应激疲劳和解释相关的体力恢复生化机制,具有一定的临床指导意义.     

KM+, a mannose-binding lectin from Artocarpus integrifolia: amino acid sequence, predicted tertiary structure, carbohydrate recognition, and analysis of the beta-prism fold

The complete amino acid sequence of the lectin KM+ from Artocarpus integrifolia (jackfruit), which contains 149 residues/mol, is reported and compared to those of other members of the Moraceae family, particularly that of jacalin, also from jackfruit, with which it shares 52% sequence identity. KM+ presents an acetyl-blocked N-terminus and is not posttranslationally modified by proteolytic cleavage as is the case for jacalin. Rather, it possesses a short, glycine-rich linker that unites the regions homologous to the alpha- and beta-chains of jacalin. The results of homology modeling implicate the linker sequence in sterically impeding rotation of the side chain of Asp141 within the binding site pocket. As a consequence, the aspartic acid is locked into a conformation adequate only for the recognition of equatorial hydroxyl groups on the C4 epimeric center (alpha-D-mannose, alpha-D-glucose, and their derivatives). In contrast, the internal cleavage of the jacalin chain permits free rotation of the homologous aspartic acid, rendering it capable of accepting hydrogen bonds from both possible hydroxyl configurations on C4. We suggest that, together with direct recognition of epimeric hydroxyls and the steric exclusion of disfavored ligands, conformational restriction of the lectin should be considered to be a new mechanism by which selectivity may be built into carbohydrate binding sites. Jacalin and KM+ adopt the beta-prism fold already observed in two unrelated protein families. Despite presenting little or no sequence similarity, an analysis of the beta-prism reveals a canonical feature repeatedly present in all such structures, which is based on six largely hydrophobic residues within a beta-hairpin containing two classic-type beta-bulges. We suggest the term beta-prism motif to describe this feature.     

Neutrophil haptotaxis induced by the lectin KM+

KM+ is a D(+)mannose binding lectin from Artocarpus integrifolia that induces neutrophil migration in vitro and in vivo.This attractant activity was shown to be caused by haptotaxis rather than chemotaxis. The inhibition by D(+)mannose of the neutrophil attraction exerted by KM+, both in vitro and in vivo, supports the idea that haptotaxis is triggered in vivo by the sugar binding sites interacting with glycoconjugates located on the neutrophil surface and in the extracellular matrix. In the present study an in vivo haptotaxis assay was performed by intradermally (i.d.) injecting 125I-KM+ (200 ng), which led to a selective staining of loose connective tissue and vascular endothelium. The radiolabelled area exhibited a maximum increase (five-fold) in neutrophil infiltration 3 h after injection, relative to i.d. 200 ng 125I-BSA. We characterized the ex vivo binding of KM+ to tissue elements by immunohistochemistry, using paraformaldehyde-fixed, paraffin-embedded, untreated rat skin. Bound KM+ was detected with an affinity-purified rabbit IgG anti-KM+ and visualized with an alkaline phosphatase based system. KM+ binding to connective tissue and vascular endothelium was inhibited by preincubating KM+ with 0.4 m MD(+)mannose and was potentiated by heparan sulfate (100 g ml–1). An in vitro assay carried out in a Boyden microchamber showed that heparan sulfate potentiated the attractant effect of 10 g KM+ by 34%. The present data suggest that KM+ induces neutrophil migration in vivo by haptotaxis and that the haptotactic gradient could be provided by the interaction of the KM+ carbohydrate recognition site(s) with mannose-containing glycoconjugate(s) in vascular endothelium and connective tissue. Heparan sulfate would act as an accessory molecule, enhancing the KM+ tissue binding and potentiating the induced neutrophil haptotaxis.     

Therapeutic potential of chimeric anti-(ganglioside GD3) antibody KM871: antitumor activity in xenograft model of melanoma and effector function analysis

KM871 is a chimeric antibody recognizing ganglioside GD3, which is one of the major gangliosides expressed on the cell surface of human tumors of neuroectodermal origin. This study demonstrates the antitumor activity of KM871 against human melanoma xenografts in nude mice, and analyzes the effector function operating in mice. In a well-established tumor model, KM871 showed antitumor activity against H-15 and SK-MEL-28 human melanoma but not against H-187 and G361 human melanoma when administered intravenously 5 days/week for 2 weeks. The G361 tumor became sensitive when KM871 was first administered on the day of tumor inoculation. In this assay, it was observed that almost all the mice were tumor-free, but a few mice developed tumors. Therefore, we examined the amount and expression pattern of GD3 antigen on G361 tumors escaping from KM871 treatment, but no change was observed. Next we examined the optimal administration schedule for KM871 in mice, using H-15 melanoma. KM871 showed antitumor activity when administered intravenously either 5 days/week for 2 weeks or three biweekly doses. However, the effect of the former schedule was stronger than three biweekly doses. To compare the effector function in humans and mice, we studied the complement-mediated cytotoxicity, antibody-dependent cell-mediated cytotoxicity and antibody-dependent macrophage-mediated cytotoxicity of KM871 using complement or effector cells prepared from humans and mice. It was found that the antibody-dependent cell-mediated cytotoxicity exerted by polymorphonuclear cells and antibody-dependent macrophage-mediated cytotoxicity were the only antitumor mechanism of KM871 in mice. However their action was very weak compared with that in humans, and complement-mediated cytotoxicity, which was strong in humans, was not observed in mice. Therefore, the antitumor activity of KM871 against human melanomas evaluated by the nude mouse model might be underestimated. These results indicate that KM871 shows good antitumor activity against GD3-positive human melanoma and the antitumor activity expected in humans might be superior to that of the nude mouse model. Received: 10 July 1999 / Accepted: 21 January 2000     

Interactions of the natural product kendomycin and the 20S proteasome

Natural products are a valuable source for novel lead structures in drug discovery, but for the majority of isolated bioactive compounds, the cellular targets are unknown. The structurally unique ansa-polyketide kendomycin (KM) was reported to exert its potent cytotoxic effects via impairment of the ubiquitin proteasome system, but the exact mode of action remained unclear. Here, we present a systematic biochemical characterization of KM–proteasome interactions in vitro and in vivo, including complex structures of wild type and mutant yeast 20S proteasome with KM. Our results provide evidence for a polypharmacological mode of action for KM's cytotoxic effect on cancer cells.     

IGF-I-induced apoptosis in LM2d6 cultured at a low concentration of fetal bovine serum

We examined the effects of IGF-I (1-1000 ng/ml) on cell proliferation in LM2d6 mouse fibroblast cells at 0.1, 1.0 and 5.0% fetal bovine serum (FBS). In medium containing 0.1% FBS, treatment of LM2d6 cells with IGF-I significantly reduced the cell number in a dose- and time-dependent manner, whereas no effects were seen at 1 or 5% FBS. Treatment of the cells with 0.1% FBS for 72 h caused DNA laddering and nuclear condensation. However, Scatchard analysis for IGF-I binding sites on the cells revealed that both the number and the affinity of IGF-I receptors were not greater than that of Balb/3T3 cells. Furthermore, the apoptotic action of Long (R(3))-IGF-I, an analogue of IGF-I that has a reduced affinity for IGF binding proteins, was not greater than that of IGF-I. Taken together, we conclude that IGF-I reduces cell proliferation at low levels of FBS due to the induction of apoptosis. This effect is probably not caused by an excess production of IGF binding proteins in LM2d6 cells.     

Focal adhesion kinase is not required for Src-induced formation of invadopodia in KM12C colon cancer cells and can interfere with their assembly

Overexpression of active Src induces invadopodia formation and associated matrix degradation in KM12C colon cancer cells. FAK is present with active Src at sites of matrix-degrading activity (invadopodia), specifically residing in rings surrounding the cortactin-containing invadopodia cores. Since FAK is a key effector protein in many aspects of Src function, we addressed whether FAK is necessary for Src-induced invadopodia formation and matrix degradation in KM12C colon cancer cells. We found that efficient knockdown of FAK expression by siRNA had no effect on invadopodia formation or matrix degradation. However, overexpression of FAK could actually suppress invadopodia formation and matrix degradation. FAK phosphorylation on the putative auto-phosphorylation tyrosine 397 and the Src-specific sites are all required for overexpressed FAK to inhibit invadopodia formation, while the kinase activity of exogenous FAK is apparently not required. These data imply that kinase activities other than FAK auto-phosphorylation may contribute to the phosphorylation of FAK tyrosine 397 in some contexts to promote an activity of FAK that can counteract invadopodia formation. Further work is required to determine how the strength of signalling through FAK suppresses invadopodia, but we propose that FAK controls the balance of adhesion types in cells, and that this is one of the determinants of whether a cancer cell can make stable matrix-degrading invadopodia.     

Toxicity and accumulation of thallium in bacteria and yeast

Thallium sulphate inhibited microbial growth, withBacillus megaterium KM, more sensitive to the metal thanSaccharomyces cerevisiae andEscherichia coli. Inhibition ofB. megaterium KM andS. cerevisiae, but not ofE. coli, was alleviated by increasing the potassium concentration of the medium; inhibition of respiration ofS. cerevisiae, but not ofE. coli, was similarly alleviated. Thallium was rapidly bound, presumably to cell surfaces, byS. cerevisiae andE. coli, and was progressively accumulated by energy-dependent transport systems (probably concerned primarily with potassium uptake) with both organisms. Thallium uptake kinetics suggested more than one transport system operated in yeast, possibly reflecting a multiplicity of potassium transport systems. ApparentK _m andK _i values for competitive inhibition of thallium uptake by potassium indicatedS. cerevisiae to have a higher affinity for thallium uptake than for potassium, whileE. coli had a transport system with a higher affinity for potassium than for thallium. The likely systems for thallium transport are discussed. A mutant ofE. coli with tenfold decreased sensitivity to thallium was isolated and apparently effected surface binding of thallium in amounts equivalent to the wild type organism, but showed no subsequent uptake and accumulation of the metal from buffer, even though it was able to accumulate potassium to normal intracellular concentrations during growth. Abbreviations: Metal are referred to by their recognised atomic symbols (e.g. TI = Thallium; K = potassium; Co = cobalt)     

阿维链霉菌来源的磷脂酰丝氨酸合成酶基因的克隆及其在毕氏酵母中的异源表达

本文旨在构建阿维链霉菌(Streptomyces avermitilis)来源的磷脂酰丝氨酸合成酶基因(pss)的重组质粒,研究其在毕氏酵母中的异源分泌型表达。利用PCR技术克隆阿维链霉菌来源的pss基因,再通过电转化方法将重组质粒pOG-01转入毕氏酵母KM71中,构建重组工程菌KP1。实验结果表明,阿维链霉菌来源的磷酯酰丝氨酸合成酶基因在毕氏酵母KM71中成功表达,2 mL菌体上清催化50 mmol/L卵磷脂,转酯反应的转化率为58%,酶活为4.83 U/mL。     

KM突变小鼠慢性炎症性皮肤病的免疫学改变

目的 观察KM突变小鼠皮肤慢性炎症的病理变化,探讨该小鼠皮肤免疫学改变.方法 通过外部特征、常规HE病理组织学、免疫组织化学、特染方法对3月龄、6月龄KM突变小鼠皮肤炎症细胞及炎症因子进行检测并与KM野生小鼠皮肤炎症细胞及炎症因子浸润进行比较.结果 KM突变小鼠皮肤毛稀、皮屑、皮皱等;组织病理表皮细胞坏死,上皮角化过度或不全,颗粒层增厚,基底细胞层水肿,真皮浅层血管扩张,结缔组织炎细胞浸润等,皮肤CD3+、CD4+T细胞、巨噬细胞、肥大细胞等增多,同时炎症因子IL-6、IL-22、TNF-α、IFN-γ等增多;且这些炎症细胞及炎症因子浸润3月龄较6月龄增多.结论 KM自发突变小鼠皮肤组织出现自发的慢性炎症病变,与人类慢性炎症性皮肤病变有相类似的病理改变和细胞分子改变,有望培育成为一种新的慢性炎症性皮肤病的动物模型.