用来自三种宿主物种的抗毒素抗体对肉毒杆菌神经毒素重链结构域855 - 1296上的抗体结合区域进行定位。

Mapping of the antibody-binding regions on botulinum neurotoxin H-chain domain 855-1296 with antitoxin antibodies from three host species.

作者信息

Atassi M Z, Dolimbek B Z, Hayakari M, Middlebrook J L, Whitney B, Oshima M

机构信息

Verma and Marrs McLean Department of Biochemistry, Baylor College of Medicine, Houston, Texas 77030, USA.

出版信息

J Protein Chem. 1996 Oct;15(7):691-700. doi: 10.1007/BF01886751.

DOI:10.1007/BF01886751

PMID:8968960

Abstract

Botulism due to food poisoning is caused mainly by protein toxins, botulinum neurotoxins (BoNTs), produced by Clostridium botluinum in seven known immunological serotypes. These are the most potent toxins and poisons known. BoNT effects blockade of neuromuscular transmission by preventing neurotransmitter release. Human botulism is most frequently caused by types A, B, and E. Recent studies have shown that immunization with a 43-kDa C-terminal fragment (Hc, residues 860-1296) of BoNT/A affords excellent protection against BoNT/A poisoning. We raised antibodies (Abs) against BoNT/A in horse, and against pentavalent toxoid (BoNTs A, B, C, D, E) in human volunteers and outbred mice. Thirty-one 19-residue peptides that started at residue 855, overlapped consecutively by 5 residues, and encompassed the entire length of the Hc of BoNT/A were synthesized and used for mapping the Ab-binding regions recognized by the anti-BoNT/A antisera. Horse Abs against BoBT/A were bound by peptides 855-873, 939-957, 1079-1097/1093-1111 overlap, 1191-1209/1205-1223 overlap, 1261-1279 and 1275-1296. In addition, peptides 883-901, 911-929, 995-1013, 1023-1041/1037-1055 overlap, 1121-1139, and 1149-1167 gave low, but significant and reproducible, binding. With human antisera, high amounts of Abs were bound by peptides 869-887, 925-943, 981-999, 995-1013, 1051-1069, and 1177-1195. In addition, lower amounts of Abs were bound by peptides 911-929, 939-957, 967-985, and the overlaps 1121-1139/1135-1153 and 1247-1265/1261-1279/1275-1296. With outbred mouse antisera, high amounts of Abs were bound by peptides 869-887, 1051-1069, and 1177-1195, while peptides 939-957, 995-1013, 1093-1111, and 1275-1296 bound lower amounts of Abs. The results indicate that horse antiserum against BoNT/A or human and mouse (outbred) antisera against the toxoid recognized similar regions on BoNT/A, but exhibited some boundary frame shifts and differences in immunodominance of these regions among the antisera. Selected synthetic epitopes will be used as immunogens to stimulate active or passive (by Ab transfer) immunity against toxin poisoning.

摘要

食物中毒引起的肉毒中毒主要由肉毒杆菌产生的蛋白质毒素——肉毒神经毒素（BoNTs）所致，肉毒杆菌有七种已知的免疫血清型。这些是已知的最有效的毒素和毒物。BoNT通过阻止神经递质释放来阻断神经肌肉传递。人类肉毒中毒最常见由A、B和E型引起。最近的研究表明，用BoNT/A的43 kDa C末端片段（Hc，第860 - 1296位氨基酸残基）进行免疫可提供针对BoNT/A中毒的极佳保护。我们在马体内产生了针对BoNT/A的抗体（Abs），并在人类志愿者和远交系小鼠体内产生了针对五价类毒素（BoNTs A、B、C、D、E）的抗体。合成了31个19氨基酸残基的肽段，这些肽段从第855位氨基酸残基开始，连续重叠5个氨基酸残基，涵盖了BoNT/A的Hc全长，用于绘制抗BoNT/A抗血清识别的Ab结合区域图谱。针对BoBT/A的马抗体与肽段855 - 873、939 - 957、1079 - 1097/1093 - 1111重叠区、1191 - 1209/1205 - 1223重叠区、1261 - 1279和1275 - 1296结合。此外，肽段883 - 901、911 - 929、995 - 1013、1023 - 1041/1037 - 1055重叠区、1121 - 1139和1149 - 1167有较低但显著且可重复的结合。对于人类抗血清，肽段869 - 887、925 - 943、981 - 999、995 - 1013、1051 - 1069和1177 - 1195结合了大量抗体。此外，肽段911 - 929、939 - 957、967 - 985以及1121 - 1139/1135 - 1153和1247 - 1265/1261 - 1279/1275 - 1296重叠区结合了较少量抗体。对于远交系小鼠抗血清，肽段869 - 887、1051 - 1069和1177 - 1195结合了大量抗体，而肽段939 - 957、995 - 1013、1093 - 1111和1275 - 1296结合的抗体量较少。结果表明，针对BoNT/A的马抗血清或针对类毒素的人类及小鼠（远交系）抗血清识别BoNT/A上的相似区域，但在这些区域的边界框架偏移以及抗血清之间的免疫显性方面存在一些差异。选定的合成表位将用作免疫原，以刺激针对毒素中毒的主动或被动（通过抗体转移）免疫。

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Mapping of the antibody-binding regions on botulinum neurotoxin H-chain domain 855-1296 with antitoxin antibodies from three host species.用来自三种宿主物种的抗毒素抗体对肉毒杆菌神经毒素重链结构域855 - 1296上的抗体结合区域进行定位。

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用来自三种宿主物种的抗毒素抗体对肉毒杆菌神经毒素重链结构域855 - 1296上的抗体结合区域进行定位。

Mapping of the antibody-binding regions on botulinum neurotoxin H-chain domain 855-1296 with antitoxin antibodies from three host species.

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