美洲牡蛎两个地理品系凝集素结合在血细胞上的差异

T. Cheng, W. Dougherty, V. Burrell
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引用次数: 12

摘要

采用8种已知糖特异性的凝集素(Con A、Tetragonolobus purpureas、limus polyphemus、Dilichos biflorus、Sambucas nigra、Glycine max、Triticum vulgaris和Lathyrus odoratus)测定了产自佛罗里达州Apalachicola湾和德克萨斯州加尔维斯顿湾的美洲牡蛎(Crassostrea virginica)血红细胞表面的糖性成分。已知的抑制糖残基被用来抑制凝集素处理的牡蛎血细胞的结块。结果,以下糖类被证明发生在牡蛎血细胞上:n -乙酰-D-葡萄糖胺、n -乙酰-D-半乳糖胺、甲基-a-D-甘露糖、D(+)-葡萄糖、蔗糖、D(+)甘露糖、a-甲基-D-半乳糖、D(-)-果糖、L(-)-焦糖、n -乙酰神经氨酸和D(+)-半乳糖。此外,D-葡萄糖醛酸只出现在Apalachicola湾的牡蛎细胞上,而一种与L. odoratus凝集素结合的未知糖既不是D(+)-葡萄糖也不是D(+)-甘露糖,这两种通常的抑制糖都出现在Apalachicola湾和Galveston湾的血细胞上。两个采集地点牡蛎血细胞表面糖质成分的定量和定性差异归因于菌株差异。在无脊椎动物中自然产生的凝集素已被反复提出,除其他功能外,在从非我中识别自我方面发挥作用(Anderson & Good, 1976;程,1984;Cheng et al., 1984;Renwrantz, 1981)。这些蛋白质或糖蛋白包括识别特定糖残基的结合位点。碳水化合物是许多细胞的细胞特性的主要决定因素(Gaveriaux & Loor, 1987),为了鉴定碳水化合物,并通过这样做来增加我们对凝集素介导的生物入侵者的附着或不附着的理解,我们测试了具有已知糖特异性的精选凝集素对美洲牡蛎Crassostrea virginica (Gmelin)血细胞的影响。材料和方法牡蛎。本研究中使用的牡蛎来自两个来源:佛罗里达州的阿巴拉契科拉湾和美国德克萨斯州的加尔维斯顿湾。所有牡蛎都是在1992年2月的最后一周到4月的第二周期间收获的。所有的牡蛎都在3点30分在实验室保存。C在15%的海水中,直到出血前1小时。没有人被关押超过三天。i感谢珍妮特·巴托女士出色的技术援助。本研究由美国商务部国家海洋渔业局拨款(NA16FLO408-01)支持。反式。点。MICROSC。Soc。中国生物医学工程学报,32(2):551 - 557。1993. ? 版权所有,1993年,美国显微学会,Inc。此内容下载自207.46.13.124星期三,2016年6月22日05:21:35 UTC所有使用以http://about.jstor.org/terms TRANS为准。点。MICROSC。SOC。
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Lectin-binding differences on hemocytes of two geographic strains of the American oyster, Crassostrea virginica
The saccharidal constituents of the surfaces of hemocytes of the American oyster, Crassostrea virginica, from Apalachicola Bay, Florida, and Galveston Bay, Texas, were determined by employing eight lectins with known sugar specificities (Con A, Tetragonolobus purpureas, Limulus polyphemus, Dilichos biflorus, Sambucas nigra, Glycine max, Triticum vulgaris, and Lathyrus odoratus). Known inhibiting sugar residues were used to inhibit clumping of lectin-treated oyster hemocytes. As a result, the following saccharides were demonstrated to occur on oyster hemocytes: N-acetyl-D-glucosamine, N-acetyl-D-galactosamine, methyl-a-D-mannopyranoside, D(+)-glucose, sucrose, D(+)mannose, a-methyl-D-galactoside, -D(-)-fructose, L(-)-fucose, N-acetylneuraminic acid, and D(+)-galactose. In addition, D-glucuronic acid occurred only on oyster cells from Apalachicola Bay and an unidentified sugar that binds to the L. odoratus lectin that is neither D(+)-glucose nor D(+)-mannose, the usual inhibiting sugars, occurs on hemocytes from both Apalachicola and Galveston Bays. Quantitative and qualitative differences in the saccharidal constituents on the surfaces of hemocytes from oysters from the two collecting sites are attributed to strain differences. Naturally occurring lectins in invertebrates have been repeatedly proposed, among other functions, to play a role in the recognition of self from nonself (Anderson & Good, 1976; Cheng, 1984; Cheng et al., 1984; Renwrantz, 1981). These proteins or glycoproteins include binding sites that recognize specific sugar residues. In order to identify the carbohydrates, which are the primary determinants of cellular identity of many cells (Gaveriaux & Loor, 1987), and by so doing increase our understanding of lectin-mediated attachment or nonattachment of biotic invaders, we have tested the effects of selected lectins with known saccharidal specificities on hemocytes of the American oyster, Crassostrea virginica (Gmelin). MATERIALS AND METHODS Oysters. The oysters employed in this study originated from two sources: Apalachicola Bay, Florida, and Galveston Bay, Texas, U.S.A. All were harvested during the last week in February through the second week in April 1992. All oysters were held in the laboratory at 3?C in 15% seawater until 1 h prior to bleeding. None was held for more than three days. i The outstanding technical assistance by Ms. Janet M. Barto is gratefully acknowledged. This research was supported by a grant (NA16FLO408-01) from the National Marine Fisheries Service, U.S. Department of Commerce. TRANS. AM. MICROSC. Soc., 112(2): 151-157. 1993. ? Copyright, 1993, by the American Microscopical Society, Inc. This content downloaded from 207.46.13.124 on Wed, 22 Jun 2016 05:21:35 UTC All use subject to http://about.jstor.org/terms TRANS. AM. MICROSC. SOC.
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