Characterization of Clostridium botulinum Type B Neurotoxin Associated with Infant Botulism in Japan

Author:

Kozaki Shunji1,Kamata Yoichi1,Nishiki Tei-ichi2,Kakinuma Hiroaki3,Maruyama Hiromi3,Takahashi Hiroaki3,Karasawa Tadahiro4,Yamakawa Kiyotaka4,Nakamura Shinichi4

Affiliation:

1. Department of Veterinary Science, College of Agriculture, Osaka Prefecture University, Sakai, Osaka,1

2. Mitsubishi Kasei Institute of Life Science, Machida, Tokyo,2

3. Department of Pediatrics, Kanazawa Medical University, Uchinada,3 and

4. Department of Bacteriology, School of Medicine, Kanazawa University, Kanazawa,4 Ishikawa, Japan

Abstract

ABSTRACT The neurotoxin of strain 111 (111/NT) associated with type B infant botulism showed antigenic and biological properties different from that (Okra/NT) produced by a food-borne botulism-related strain, Okra. The specific toxicity of 111/NT was found to be about 10 times lower than that of Okra/NT. The monoclonal antibodies recognizing the light chain cross-reacted with both neurotoxins, whereas most of the antibodies recognizing the carboxyl-terminal half of the heavy chain of Okra/NT did not react to 111/NT. Binding experiments with rat brain synaptosomes revealed that 125 I-labeled 111/NT bound to a single binding site with a dissociation constant ( K d ) of 2.5 nM; the value was rather lower than that (0.42 nM) of 125 I-Okra/NT for the high-affinity binding site. In the lipid vesicles reconstituted with ganglioside GT1b, 125 I-Okra/NT interacted with the amino-terminal domain of synaptotagmin 1 (Stg1N) or synaptotagmin 2 (Stg2N), fused with the maltose-binding protein, in the same manner as the respective full-length synaptotagmins, and the K d values accorded with those of the low- and high-affinity binding sites in synaptosomes. However, 125 I-111/NT only exhibited a low capacity for binding to the lipid vesicles containing Stg2N, but not Stg1N, in the presence of ganglioside GT1b. Moreover, synaptobrevin-2, an intracellular target protein, was digested to the same extent by the light chains of both neurotoxins in a concentration-dependent manner. These findings indicate that the 111/NT molecule possesses the receptor-recognition site structurally different from Okra/NT, probably causing a decreased specific toxicity.

Publisher

American Society for Microbiology

Subject

Infectious Diseases,Immunology,Microbiology,Parasitology

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