Biogenic amines modulate pulse rate in the dorsal blood vessel of Lumbriculus variegatus

The biogenic amines are widespread regulators of physiological processes, and play an important role in regulating heart rate in diverse organisms. Here, we present the first pharmacological evidence for a role of the biogenic amines in the regulation of dorsal blood vessel pulse rate in an aquatic oligochaete, Lumbriculus variegatus (Müller, 1774). Bath application of octopamine to intact worms resulted in an acceleration of pulse rate, but not when co-applied with the adenylyl cyclase inhibitor MDL-12,330a. The phosphodiesterase inhibitor theophylline mimicked the effects of OA, but the polar adenosine receptor antagonist 8(p-sulphophenyl)theophylline was significantly less potent than theophylline. Pharmacologically blocking synaptic reuptake of the biogenic amines using the selective 5-HT reuptake blocker fluoxetine or various tricyclic antidepressants also accelerated heart rate. Depletion of the biogenic amines by treatment with the monoamine vesicular transporter blocker reserpine dramatically depressed pulse rate. Pulse rate was partially restored in amine-depleted worms after treatment with octopamine or dopamine, but fully restored following treatment with serotonin. This effect of 5-HT was weakly mimicked by 5-methoxytryptamine, but not by α-methylserotonin; it was completely blocked by clozapine and partially blocked by cyproheptadine. Because they are known to orchestrate a variety of adaptive behaviors in invertebrates, the biogenic amines may coordinate blood flow with behavioral state in L. variegatus.     

Efficient targeting of conserved cryptic epitopes of infectious agents by single domain antibodies. African trypanosomes as paradigm

Antigen variation is a successful defense system adopted by several infectious agents to evade the host immune response. The principle of this defense strategy in the African trypanosome paradigm involves a dense packing of variant surface glycoproteins (VSG) exposing only highly variable and immuno-dominant epitopes to the immune system, whereas conserved epitopes become inaccessible for large molecules. Reducing the size of binders that target the conserved, less-immunogenic, cryptic VSG epitopes forms an obvious solution to combat these parasites. This goal was achieved by introducing dromedary Heavy-chain antibodies. We found that only these unique antibodies recognize epitopes common to multiple VSG classes. After phage display of their antigen-binding repertoire, we isolated a single domain antibody fragment with high specificity for the conserved Asn-linked carbohydrate of VSG. In sharp contrast to labeled concanavalin-A that stains only the flagellar pocket where carbohydrates are accessible because of less dense VSG packing, the single domain binder stains the entire surface of viable parasites, irrespective of the VSG type expressed. This corroborates the idea that small antibody fragments, but not larger lectins or conventional antibody fragments, are able to penetrate the dense VSG coat to target their epitope. The diagnostic potential of this fluorescently labeled binder was proven by the direct, selective, and sensitive detection of parasites in blood smears. The employment of this binder as a molecular recognition unit in immuno-toxins designed for trypanosomosis therapy becomes feasible as well. This was illustrated by the specific trypanolysis induced by an antibody::beta-lactamase fusion activating a prodrug.     

A conserved flagellar pocket exposed high mannose moiety is used by African trypanosomes as a host cytokine binding molecule

Trypanosomes use antigenic variation of their variant-specific surface glycoprotein (VSG) coat as defense against the host immune system. However, in order to sustain their growth, they need to expose conserved epitopes, allowing host macromolecule binding and receptor-mediated endocytosis. Here we show that Trypanosoma brucei uses the conserved chitobiose-oligomannose (GlcNAc(2)-Man(5-9)) moieties of its VSG as a binding ligand for tumor necrosis factor (TNF), a host cytokine with lectin-like properties. As endocytosis in trypanosomes is restricted to the flagellar pocket, we show that soluble flagellar pocket extracts, and in particular soluble VSG, inhibit the binding of (125)I-TNF to trypanosomes. The interaction between TNF and VSG is confirmed by affinity chromatography, biosensor, and dot-blot affinity measurements, and soluble VSG inhibition of TNF-mediated trypanolysis. In all approaches, removal of N-linked carbohydrates abrogates the TNF-VSG interaction. In addition, synthetic high mannose oligosaccharides can block TNF-VSG interactions, and a VSG glycopeptide carrying the GlcNAc(2)-Man(5-9) moiety is shown to inhibit TNF-mediated trypanosome killing in mixed parasite/macrophage cell cultures. Together, these results support the observation that TNF plays a role in growth control of trypanosomes and, moreover, suggest that, by the use of conserved VSG carbohydrates as lectin-binding epitopes, trypanosomes can limit the necessity to express large numbers of invariant surface exposed receptors.     

Selective pressure can influence the resistance of Trypanosoma congolense to normal human serum

Resistance and sensitivity to normal human serum (NHS) of Trypanosoma congolense, a parasite believed to cause disease in animals only, were investigated in vivo as well as in vitro. Our results indicate that like Trypanosoma brucei, T. congolense can be grouped into three different phenotypes according to its resistance to NHS. Some strains are completely resistant to NHS, like Trypanosoma brucei gambiense and the resistant form of Trypanosoma brucei rhodesiense. Other strains show a very low degree of resistance comparable to the sensitive form of T. b. rhodesiense, and some are completely sensitive to NHS. Continuous passaging in mice in the presence or absence of NHS shows that the resistance and sensitivity of T. congolense can be reversed like in T. b. rhodesiense. Our data suggest that T. congolense might be able to infect man in regions where animals may serve as reservoirs for the infection.     

Increased lymphocyte DNA strand breaks in rubber workers

Objective: To study the effect of occupational exposure to rubber processing, smoking, and alcohol drinking on lymphocyte DNA damage. Subjects and Methods: Of 371 employees (197 men and 174 women) from a rubber factory in Guangzhou, 281 were rubber processing workers from five production sections and 90 were managerial workers. Information on occupational exposure, smoking, and drinking was collected by interviews. Blood samples were taken in the morning by venipuncture. DNA damages were measured by the Comet assay. Possible DNA-protein crosslinks were broken down by proteinase K. Tail moment, measured by Komet 4.0 image analysis software, was the measure of DNA damage. Results: The rubber processing workers had larger tail moment than the managerial workers (Geometric mean, 95%CI) [1.77 μm (1.64–1.90) versus 1.52 μm (1.36–1.71), P=0.04]. Both smoking [1.93 μm (1.74–2.13) versus 1.59 μm (1.47–1.71), P=0.003] and alcohol drinking [2.21 μm (1.87–2.62) versus 1.63 μm (1.53–1.74), P<0.001] increased tail moment. Tail moment differed significantly among job categories (F=3.21, P=0.008), the largest was observed in mixers. In the non-smoking and non-drinking workers, rubber processing workers had larger tail moment than managerial workers after adjusting for age (P=0.033). General linear model analysis showed that after adjusting for each other, occupational exposure (P=0.027), smoking (P=0.012), and alcohol drinking (P=0.013) was associated with larger tail moment, whereas age and gender had no effect. Conclusions: Occupational exposure to rubber processing, smoking, and alcohol drinking can cause DNA damage.     

厌氧菌微量生化板的研制

利用预成酶的原理,研制厌氧菌微量化生鉴定板,用国际标准菌株检测其符合率达９５．９％,重复率达９６．３３％,用己知引进参考菌株检测,其符合率达９４．８４％,重复率达９４．３３％,而对临床分离的革兰阴性细菌的符合率达８１％,对临床分离的革兰阳性细菌符合率达９０％,此法效果与国外ＡＰＩ－２０Ａ产品效果类似,但此法具有快速,操作简便,重复性好等优点,值得在广大临床检测中推广和普及。     

混合氨基酸月桂酰胺的合成

本文以玉米淀粉生产副产物为原料,提取蛋白质水解制取混合氨基酸,与酰化剂月桂酰氯合成混合氨基酸月桂酰胺表面活性剂,研究了反应条件,并测定了它的pH值、表面张力、乳化力等。     

酪氨酸-铜体系电化学氧化行为的研究

在ｐＨ值３．９４的Ｂ－Ｒ缓冲溶液中,酪氨酸－铜络合物在玻碳电极出现氧化峰。用新极谱法测定,酪氨酸浓度在０．３μｇ／ｍｌ－３μｇ／ｍｌ范围内与氧化峰的２．５次微分值呈线性,检测下限０．２μｇ／ｍｌ。直接用于氨基酸药物样品的测定结果满意,并对酪氨酸－铜络合物的电化学氧化行为进行了研究。