Characterization of Novel Secreted and Membrane Proteins Isolated by the Signal Sequence Trap Method

We recently described a method, called the signal sequence trap (SST) method, to clone cDNAs of secreted proteins and/or type I transmembrane proteins containing N-terminal signal sequences by using an epitope-tagging expression plasmid vector. In this paper we describe the summary of a large-scale screening of approximately 5900 clones of an SST cDNA library constructed from mouse bone marrow stromal cell line ST-2 cells. Of 26 positive clones obtained and sequenced, 11 clones appeared to contain authentic signal sequences. Five of the clones corresponded to the 5′ ends of the cDNA of known genes containing N-terminal signal sequences. The full-length cDNA clones of the 6 other unknown clones were isolated and sequenced. One clone, termed SDF3, encoded a mouse counterpart of human pigment epithelium-derived factor. Another clone, termed SDR1, had considerable homology with basigin, a member of the immunoglobulin superfamily. A third clone, termed SDF5, had partial homology with aDrosophilatissue polarity genefrizzled(fz) and its rat homologues,fz-1andfz-2.The other three clones had no significant homology with sequences in the databases. These results indicate that the SST method is effective and useful for the isolation of secreted and membrane proteins without knowledge of their functions.     

Spin Trapping Evidence for Radical Generation by Isolated Hearts and Cultured Heart Cells

The spin trap 5,5-dimethyl-l-pyrroline-l-oxide (DMPO) has been applied to monitor the generation of free oxy-radicals in samples derived from isolated hearts and heart cells. · OH was trapped in the effluent of isolated hearts in the early phase of reperfusion following an ischemia time of only 10min. Radical detection was possible even when the cardioactive DMPO was added to the effluent after draining off the heart, demonstrating that the short-lived · OH was generated by components released from the affected heart. These results support the hypothesis that radicals are of relevance for reperfusion injury.

By omitting antioxidants commonly used for incubation media of cultured cells, it was possible for the first time to demonstrate the formation of · OH in the incubation solution of cardiac cells.     

Spin Trapping Evidence for Radical Generation by Isolated Hearts and Cultured Heart Cells

The spin trap 5,5-dimethyl-l-pyrroline-l-oxide (DMPO) has been applied to monitor the generation of free oxy-radicals in samples derived from isolated hearts and heart cells. · OH was trapped in the effluent of isolated hearts in the early phase of reperfusion following an ischemia time of only 10min. Radical detection was possible even when the cardioactive DMPO was added to the effluent after draining off the heart, demonstrating that the short-lived · OH was generated by components released from the affected heart. These results support the hypothesis that radicals are of relevance for reperfusion injury.

By omitting antioxidants commonly used for incubation media of cultured cells, it was possible for the first time to demonstrate the formation of · OH in the incubation solution of cardiac cells.     

亚硒酸钠诱导的晶状体蛋白质聚合作用

不仅在体内,而且在体外亚硒酸钠可引起晶状体蛋白质聚合。将亚硒酸钠加到pH7.4的晶状体蛋白质溶液中,在37℃保温30min后观察到蛋白质溶液变混浊,随时间的延长混浊程度加重并有沉淀形成。经SDS聚丙烯酰胺凝胶电泳发现,加硒保温后形成的不溶性蛋白质中有大量的高分子聚合物。当加入二硫苏糖醇后混浊的蛋白质溶液变清,其中的高分子聚合物也基本消失,我们还发现;在亚硒酸钠使晶状体蛋白质变混浊的同时,蛋白质巯基减少,而蛋白质结合的硒量增加,且二者之间有较固定的比例关系,即蛋白质上每增加一个硒原子,蛋白质巯基就减少4.26个。当用二硫苏糖醇还原后,68％的硒从蛋白质中释放出来。这些结果表明,亚硒酸钠可引起大鼠晶状体水溶性蛋白质聚合,其可能方式如下:4PSH+SeO_3~-→PSSP+PS-Se-SP+H_2O+2OH~-这可能是亚硒酸钠诱发白内障的主要原因。     

异丙酚和氯胺酮对大鼠离体缺血再灌注损伤心肌脂质过氧化的影响

目的：比较异丙酚和氯胺酮对大鼠离体缺血再灌注损伤心肌脂质过氧化的影响。方法：成年Wistar大鼠18只,雌雄不拘。体重240-300g,随机分为3组（T1=6）：心肌缺血再灌注损伤组（I／R组）,异丙酚组（P组）,氯胺酮组（K组）。采用Langendorff灌装置建立离体心脏缺血再灌注模型,将心脏连接至Langendorff逆灌装置,3组均以K-H液平衡灌注10min后,再分别以K．H液、含30μmol/L。异丙酚的K-H液、含10μmol-L-1氯胺酮的K-H液灌注10min,然后全心停灌25min,再分别以停灌前相同的灌注液恢复灌注30min。留取冠脉流出液测定总LDH活性;灌注末取左室心肌组织置于2．5％的戊二醛固定,观察心肌的超微结构;心尖部心肌组织留待检测8-异前列腺素和SOD活性。结果：与I／R组比较,P组8-异前列腺素含量降低,SOD活性升高,LDH活性降低（P〈0．05）;K组8-异前列腺素含量,SOD及LDH活性均无统计学意义（P〉0．05）;与P组比较,K组8-异前列腺素含量升高,SOD及LDH活性降低（P〈0．05）;P组心肌超微结构损伤较m组和K组也明显改善。结论：异丙酚可显著减轻心肌缺血再灌注损伤大鼠的脂质过氧化和心肌缺血再灌注损伤,而氯胺酮没有抗心肌缺血再灌注损伤心肌脂质过氧化的作用。     

Effects of the Selective Stretch-Activated Channel Blocker GsMtx4 on Stretch-Induced Changes in Refractoriness in Isolated Rat Hearts and on Ventricular Premature Beats and Arrhythmias after Coronary Occlusion in Swine

Mechanical factors may contribute to ischemic ventricular arrhythmias. GsMtx4 peptide, a selective stretch-activated channel blocker, inhibits stretch-induced atrial arrhythmias. We aimed to assess whether GsMtx4 protects against ventricular ectopy and arrhythmias following coronary occlusion in swine. First, the effects of 170-nM GsMtx4 on the changes in the effective refractory period (ERP) induced by left ventricular (LV) dilatation were assessed in 8 isolated rat hearts. Then, 44 anesthetized, open-chest pigs subjected to 50-min left anterior descending artery occlusion and 2-h reperfusion were blindly allocated to GsMtx4 (57 μg/kg iv. bolus and 3.8 μg/kg/min infusion, calculated to attain the above concentration in plasma) or saline, starting 5-min before occlusion and continuing until after reflow. In rat hearts, LV distension induced progressive reductions in ERP (35±2, 32±2, and 29±2 ms at 0, 20, and 40 mmHg of LV end-diastolic pressure, respectively, P<0.001) that were prevented by GsMTx4 (33±2, 33±2, and 32±2 ms, respectively, P=0.002 for the interaction with LV end-diastolic pressure). Pigs receiving GsMtx4 had similar number of ventricular premature beats during the ischemic period as control pigs (110±28 vs. 103±21, respectively, P=0.842). There were not significant differences among treated and untreated animals in the incidence of ventricular fibrillation (13.6 vs. 22.7%, respectively, P=0.696) or tachycardia (36.4 vs. 50.0%, P=0.361) or in the number of ventricular tachycardia episodes during the occlusion period (1.8±0.7 vs. 5.5±2.6, P=0.323). Thus, GsMtx4 administered under these conditions does not suppress ventricular ectopy following coronary occlusion in swine. Whether it might protect against malignant arrhythmias should be tested in studies powered for these outcomes.     

Attenuation of Post-ischemia Reperfusion Injury by Thaliporphine and Morphine in Rat Hearts

Summary Pretreatment with thaliporphine before ischemia affords cardioprotective effects against reperfusion injury via antioxidant activity. This study evaluated whether thaliporphine administered at a certain period after myocardial ischemia conferred the same cardioprotection and assessed its possible new mechanism. The left main coronary artery of anaesthetized rats was occluded for 1 h and then reperfused for 2 h. Thaliporphine was administered at 10 min before reperfusion. Controls received saline only. Morphine, a nonselective opioid receptor agonist, was used as reference compound at 0.3 mg/kg. Thaliporphine at 0.05 and 0.5 mg/kg were found to reduce the infarct size. Recovery of cardiac function was higher in thaliporphine (0.5 mg/kg) group, as assessed by a significant improvement in the rates of pressure development (+dp/dt _max). This compound also reduced plasma creatine kinase and cardiac MPO activity. These protective effects afforded by thaliporphine were diminished by the opioid receptor antagonists (naloxone or naltrexone) and by the mitochondrial K_ATP blocker 5HD. In comparison, morphine reduced infarct size and MPO activity in the myocardium but produced slightly improvement in cardiac function after ischemia-reperfusion. These results demonstrate that reperfusion therapy with thaliporphine protect cardiac injury through further mechanism via activation of opioid receptor and opening of mitochondrial K_ATP channels as morphine but with stronger activity.     

Exoantigens of Trypanosoma cruzi. I. Conditions for Their Detection and Immunogenic Properties in Experimental Infections1

ABSTRACT Exoantigens of Trypanosoma cruzi were produced in experimentally infected BALB/c mice. The exoantigens were detected by the counterimmunoelectrophoresis method (CIE), with antisera raised in rabbits by immunization with total homogenates of culture forms of ***T. cruzi in plasma from ***field animals obtained by centrifugation and filtration. Control experiments indicated that exoantigens are not somatic components of T. cruzi leaked during the preparative procedure. Exoantigens were detected in male and female mice, 11-90 days old, between 6 and 60 days of infection, and in all mice with patent parasitemia. After 13 days of infection, mice developed antibodies to exoantigens; by CIE up to three populations of antibodies were revealed in different groups of animals. In mice between 13 and 60 days of infection, the coexistence of exoantigens and homologous antibodies was also observed. The exoantigens are not strain specific since a cross reactivity between antigens from three strains of T. cruzi (Tulahuén, Higueras, and Alejandro) was seen. Finally, the presence of antibodies to exoantigens in humans with chronic Chagas’ disease was demonstrated.     

浙江省麻疹病毒分离株的基因特性与免疫原性研究

为了研究浙江省1999～2003年麻疹病毒分离株的抗原性变化以及基因特性,阐明其基因特性与麻疹流行的关系,以及抗原性变化对疫苗免疫效果的影响。我们从麻疹患者含漱液中分离麻疹病毒株,制备大鼠免疫血清,与疫苗株沪191和Edmonston株等进行交叉中和试验,测定各毒株之间抗原比;并采集儿童麻疹疫苗免疫前后血清,分别测定其对不同毒株的中和抗体滴度;采用RT-PCR法扩增麻疹毒株血凝素蛋白(H)及核蛋白(N)基因,进行核苷酸序列测定。结果浙江99-1和浙江02-2株与沪191株之间的抗原比分别为3.0和7.3;儿童免疫后血清对浙江02-2株的麻疹中和抗体平均几何滴度(GMT)为15.03,明显低于沪191疫苗株(GMT为68.12);浙江省1999～2003年麻疹分离株之间,H基因氨基酸同源性为99.8%,N基因氨基酸同源性为98.5%～100.0%;与沪191疫苗株的H基因和N基因相比较,分离株与其在氨基酸水平上同源性分别为95.5%～95.7%和95.9%～96.3%。从基因进化树显示,1999～2003年浙江省分离到的麻疹毒株属于H1基因型,但与疫苗株沪191在抗原性和基因特性上已存在明显的差异。     

浙江省麻疹病毒分离株的基因特性与免疫原性研究

为了研究浙江省1999～2003年麻疹病毒分离株的抗原性变化以及基因特性,阐明其基因特性与麻疹流行的关系,以及抗原性变化对疫苗免疫效果的影响.我们从麻疹患者含漱液中分离麻疹病毒株,制备大鼠免疫血清,与疫苗株沪191和Edmonston株等进行交叉中和试验,测定各毒株之间抗原比;并采集儿童麻疹疫苗免疫前后血清,分别测定其对不同毒株的中和抗体滴度;采用RT-PCR法扩增麻疹毒株血凝素蛋白(H)及核蛋白(N)基因,进行核苷酸序列测定.结果浙江99-1和浙江02-2株与沪191株之间的抗原比分别为3.0和7.3;儿童免疫后血清对浙江02-2株的麻疹中和抗体平均几何滴度(GMT)为15.03,明显低于沪191疫苗株(GMT为68.12);浙江省1999～2003年麻疹分离株之间,H基因氨基酸同源性为99.8%,N基因氨基酸同源性为98.5%～100.0%;与沪191疫苗株的H基因和N基因相比较,分离株与其在氨基酸水平上同源性分别为95.5%～95.7%和95.9%～96.3%.从基因进化树显示,1999～2003年浙江省分离到的麻疹毒株属于H1基因型,但与疫苗株沪191在抗原性和基因特性上已存在明显的差异.     

Induction and Assessment of Ischemia-reperfusion Injury in Langendorff-perfused Rat Hearts

The biochemical events surrounding ischemia reperfusion injury in the acute setting are of great importance to furthering novel treatment options for myocardial infarction and cardiac complications of thoracic surgery. The ability of certain drugs to precondition the myocardium against ischemia reperfusion injury has led to multiple clinical trials, with little success. The isolated heart model allows acute observation of the functional effects of ischemia reperfusion injury in real time, including the effects of various pharmacological interventions administered at any time-point before or within the ischemia-reperfusion injury window. Since brief periods of ischemia can precondition the heart against ischemic injury, in situ aortic cannulation is performed to allow for functional assessment of non-preconditioned myocardium. A saline filled balloon is placed into the left ventricle to allow for real-time measurement of pressure generation. Ischemic injury is simulated by the cessation of perfusion buffer flow, followed by reperfusion. The duration of both ischemia and reperfusion can be modulated to examine biochemical events at any given time-point. Although the Langendorff isolated heart model does not allow for the consideration of systemic events affecting ischemia and reperfusion, it is an excellent model for the examination of acute functional and biochemical events within the window of ischemia reperfusion injury as well as the effect of pharmacological intervention on cardiac pre- and postconditioning. The goal of this protocol is to demonstrate how to perform in situ aortic cannulation and heart excision followed by ischemia/reperfusion injury in the Langendorff model.     

A Library of Functional Recombinant Cell-surface and Secreted P. falciparum Merozoite Proteins

Malaria, an infectious disease caused by parasites of the Plasmodium genus, is one of the world''s major public health concerns causing up to a million deaths annually, mostly because of P. falciparum infections. All of the clinical symptoms are associated with the blood stage of the disease, an obligate part of the parasite life cycle, when a form of the parasite called the merozoite recognizes and invades host erythrocytes. During erythrocyte invasion, merozoites are directly exposed to the host humoral immune system making the blood stage of the parasite a conceptually attractive therapeutic target. Progress in the functional and molecular characterization of P. falciparum merozoite proteins, however, has been hampered by the technical challenges associated with expressing these proteins in a biochemically active recombinant form. This challenge is particularly acute for extracellular proteins, which are the likely targets of host antibody responses, because they contain structurally critical post-translational modifications that are not added by some recombinant expression systems. Here, we report the development of a method that uses a mammalian expression system to compile a protein resource containing the entire ectodomains of 42 P. falciparum merozoite secreted and cell surface proteins, many of which have not previously been characterized. Importantly, we are able to recapitulate known biochemical activities by showing that recombinant MSP1-MSP7 and P12-P41 directly interact, and that both recombinant EBA175 and EBA140 can bind human erythrocytes in a sialic acid-dependent manner. Finally, we use sera from malaria-exposed immune adults to profile the relative immunoreactivity of the proteins and show that the majority of the antigens contain conformational (heat-labile) epitopes. We envisage that this resource of recombinant proteins will make a valuable contribution toward a molecular understanding of the blood stage of P. falciparum infections and facilitate the comparative screening of antigens as blood-stage vaccine candidates.Parasites of the Plasmodium genus are the etiological agents responsible for malaria, an infectious disease mostly occurring in developing countries with up to 40% of the world''s population described as being at risk of the disease. Among the Plasmodium species that can affect humans, Plasmodium falciparum is responsible for the highest mortality, causing around one million deaths annually, mostly in children under the age of five (1). The clinical symptoms of malaria occur during the cyclic asexual blood stage of the parasite lifecycle when merozoites, that have invaded and replicated within host erythrocytes, are released into the bloodstream before invading new red blood cells (2). Despite intensive efforts from the research community there is currently no licensed vaccine for malaria. The leading candidate RTS,S/AS01, which targets the pre-erythrocytic stage of the disease and was tested in phase III trials, conferred 30 to 50% protection from clinical malaria, depending on the age group studied (3, 4). This limited efficacy has led to calls for a more effective vaccine and many have suggested that a combinatorial vaccine that additionally targets the blood stage may increase efficacy.A vaccine targeting the proteins expressed on the surface of the blood stage of the parasite is conceptually attractive because merozoites are repeatedly and directly exposed to the human humoral immune system and naturally acquired antibodies against these proteins have been shown to confer at least partial immunity (5–8). Despite this, only a few antigens discovered before the completion of the parasite genome sequence have been assessed in detail (9) and clinical vaccine trials using antigens that target the blood stage have so far shown limited efficacy, mostly caused by antigenic diversity (10). The sequencing of the parasite genome (11) has identified all possible targets but the systematic screening of these new candidates to assess their potential as a vaccine is hampered by the inability to systematically express recombinant Plasmodium proteins in their native conformation (12–15). Likely explanations might be the high (∼80%) A:T content of the P. falciparum genome resulting in low codon usage compatibility in heterologous expression systems, the large size (> 50 kDa) of many proteins, the presence of long stretches of highly repetitive amino acids, and the difficulty in identifying clear structural domains within these proteins using standard prediction computer programs (11). Extracellular proteins, in particular, present an additional challenge because they often have signal peptides and transmembrane regions that can negatively impact expression (16–18) and contain structurally important disulfide bonds. However, unlike most other eukaryotic extracellular proteins, Plasmodium cell surface and secreted proteins are not modified by N-linked glycans because of the absence of the necessary enzymes (19).To express Plasmodium proteins for basic research and vaccine development, a diverse range of expression systems have been tried (12) ranging from bacteria (17, 18), yeast (13), Dictyostelium (20), and plants (21) to mammalian cells (22) and cell-free systems (23–25). To circumvent the problem of codon usage, bacterial (26) and yeast (27) strains with modified tRNA pools have been developed, or sequences of the gene of interest synthesized and codon-optimized to match that of the expression host (28, 29). Although Escherichia coli has been the most popular expression system because of its relative simplicity and cost effectiveness, large-scale production of soluble functional Plasmodium falciparum recombinant proteins remains challenging with success rates ranging from just 6 to 21% (17, 18) and is often hindered by the need for complex refolding procedures. Similarly, attempts have been made to compile large panels of parasite proteins using in vitro translation systems (23, 25, 30, 31). These systems, however, require reducing conditions and are therefore not generally suitable for the systematic expression of extracellular proteins that occupy an oxidizing environment and critically require the formation of disulfide bonds for proper function. As a result, functional analyses of extracellular parasite proteins have often been restricted to smaller subfragments of the proteins that can be expressed in a soluble form rather than the entire extracellular region. Although eukaryotic expression systems are able to add disulfide bonds, they also often inappropriately glycosylate parasite proteins, adding further complication (32). A generic method that would overcome these technical challenges to express, in a systematic way, panels of recombinant Plasmodium proteins that have retained their native function and conformation would therefore be a valuable resource for the molecular investigations of erythrocyte invasion and the development of a blood stage vaccine.To generate a resource of correctly folded recombinant merozoite proteins, we used a mammalian expression system and established the parameters necessary for high-level expression. Using this method, we compiled a panel of 42 proteins that corresponds to the repertoire of abundant cell surface and secreted merozoite proteins of the 3D7 strain of Plasmodium falciparum. Biochemical activity of these proteins was demonstrated by recapitulating known protein interactions and by showing conformation-sensitive immunoreactivity of the recombinant proteins using immune sera.     

Cannabinoid HU210 Protects Isolated Rat Stomach against Impairment Caused by Serum of Rats with Experimental Acute Pancreatitis

Acute pancreatitis (AP), especially severe acute pancreatitis often causes extra-pancreatic complications, such as acute gastrointestinal mucosal lesion (AGML) which is accompanied by a considerably high mortality, yet the pathogenesis of AP-induced AGML is still not fully understood. In this report, we investigated the alterations of serum components and gastric endocrine and exocrine functions in rats with experimental acute pancreatitis, and studied the possible contributions of these alterations in the pathogenesis of AGML. In addition, we explored the intervention effects of cannabinoid receptor agonist HU210 and antagonist AM251 on isolated and serum-perfused rat stomach. Our results showed that the AGML occurred after 5 h of AP replication, and the body homeostasis was disturbed in AP rat, with increased levels of pancreatic enzymes, lipopolysaccharide (LPS), proinflammtory cytokines and chemokines in the blood, and an imbalance of the gastric secretion function. Perfusing the isolated rat stomach with the AP rat serum caused morphological changes in the stomach, accompanied with a significant increment of pepsin and [H⁺] release, and increased gastrin and decreased somatostatin secretion. HU210 reversed the AP-serum-induced rat pathological alterations, including the reversal of transformation of the gastric morphology to certain degree. The results from this study prove that the inflammatory responses and the imbalance of the gastric secretion during the development of AP are responsible for the pathogenesis of AGML, and suggest the therapeutic potential of HU210 for AGML associated with acute pancreatitis.     

Control of Airway Tube Diameter and Integrity by Secreted Chitin-Binding Proteins in Drosophila

The transporting function of many branched tubular networks like our lungs and circulatory system depend on the sizes and shapes of their branches. Understanding the mechanisms of tube size control during organ development may offer new insights into a variety of human pathologies associated with stenoses or cystic dilations in tubular organs. Here, we present the first secreted luminal proteins involved in tube diametric expansion in the Drosophila airways. obst-A and gasp are conserved among insect species and encode secreted proteins with chitin binding domains. We show that the widely used tracheal marker 2A12, recognizes the Gasp protein. Analysis of obst-A and gasp single mutants and obst-A; gasp double mutant shows that both genes are primarily required for airway tube dilation. Similarly, Obst-A and Gasp control epidermal cuticle integrity and larval growth. The assembly of the apical chitinous matrix of the airway tubes is defective in gasp and obst-A mutants. The defects become exaggerated in double mutants indicating that the genes have partially redundant functions in chitin structure modification. The phenotypes in luminal chitin assembly in the airway tubes are accompanied by a corresponding reduction in tube diameter in the mutants. Conversely, overexpression of Obst-A and Gasp causes irregular tube expansion and interferes with tube maturation. Our results suggest that the luminal levels of matrix binding proteins determine the extent of diametric growth. We propose that Obst-A and Gasp organize luminal matrix assembly, which in turn controls the apical shapes of adjacent cells during tube diameter expansion.     

大肠埃希氏杆菌UTI89分泌蛋白组的预测分析

目的：从大肠埃希氏杆菌UTI89基因组中筛选出全部潜在的分泌蛋白并进行初步研究。方法：使用SignalP3.0、TatP1.0、 SecretomeP2.0等蛋白分析软件对5211个ORF进行预测;对筛选出的信号肽及分泌蛋白的基本特征进行统计学分析;使用Blast 2 Sequences进行同源性分析。结果：共筛选出432个sec途径分泌蛋白,19个Tat途径分泌蛋白,386个非经典分泌蛋白;信号肽、分泌蛋白平均长度分别为25.5aa、282.8aa;信号肽中出现频率最高的3种氨基酸依次为L、A、S;仅有两个信号肽的氨基酸序列完全相同,相应的分泌蛋白高度同源。结论：大肠埃希氏杆菌UTI89基因组中有837个ORF可能编码分泌蛋白;分泌蛋白集中在500aa以下;组成信号肽的氨基酸相对保守,多数为疏水氨基酸;信号肽变异性较大,含相同信号肽的蛋白可能由同源基因编码。     

Effects of Oxidative Stress Caused by Hyperoxia and Diquat. A Study in Isolated Hepatocytes

The effects of oxidative stress caused by hyperoxia or administration of the redox active compound diquat were studied in isolated hepatocytes, and the relative contribution of lipid peroxidation, glutathione (GSH) depletion, and NADPH oxidation to the cytotoxicity of active oxygen species was investigated.

The redox cycling of diquat occurred primarily in the microsomal fraction since diquat was found not ' to penetrate into the mitochondria. Depletion of intracellular GSH by pretreatment of the animals with diethyl maleate promoted lipid peroxidation and sensitized the cells to oxidative stress. Diquat toxicity was also greatly enhanced when glutathione reductase was inhibited by pretreatment of the cells with 1,3-bis(2-chloroethyI)-1-nitrosourea. Despite extensive lipid peroxidation, loss of cell viability was not observed, with either hyperoxia or diquat, until the GSH level had fallen below ≈ 6 nmol/10⁶ cells.

The iron chelator desferrioxamine provided complete protection against both diquat-induced lipid peroxidation and loss of cell viability. In contrast, the antioxidant a-tocopherol inhibited lipid peroxidation but provided only partial protection from toxicity. The hydroxy! radical scavenger α-keto-γ-methiol butyric acid, finally, also provided partial protection against diquat toxicity but had no effect on lipid peroxidation.

The results indicate that there is a critical GSH level above which cell death due to oxidative stress is not observed. As long as the glutathione peroxidase – glutathione reductase system is unaffected, even relatively low amounts of GSH can protect the cells by supporting glutathione peroxidase-mediated metabolism of H₂O₂ and lipid hydroperoxides.     

Identification of Proteins Secreted by Malaria Parasite into Erythrocyte using SVM and PSSM profiles

Background  

Malaria parasite secretes various proteins in infected RBC for its growth and survival. Thus identification of these secretory proteins is important for developing vaccine/drug against malaria. The existing motif-based methods have got limited success due to lack of universal motif in all secretory proteins of malaria parasite.     

Modulation of AMP Deaminase in Rat Hearts Subjected to Ischemia and Reperfusion by Purine Riboside

Changes in AMP deaminase (AMPD) activity influence heart function and progression of heart disease, but the underlying mechanism is unknown. We evaluated the effect of purine riboside (Purr) on the activity of AMPD in perfused rat hearts and in isolated rat cardiomyocytes. Brief perfusion of the pre-ischemic heart with 200 μ M Purr resulted in activation of AMPD, more pronounced degradation of the adenine nucleotides, and reduced recovery of the adenine nucleotide pool during reperfusion. Brief incubation of rat cardiomyocytes with 200 μ M Purr also activated AMPD, while prolonged exposure resulted in enzyme inhibition. We conclude that Purr activates AMPD, whereas metabolites of this compound may inhibit the enzyme.