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Structural flexibility of the tetanus neurotoxin revealed by crystallographic and solution scattering analyses

Although the tetanus neurotoxin (TeNT) delivers its protease domain (LC) across the synaptic vesicle lumen into the cytosol via its receptor binding domain (H(C)) and translocation domain (H(N)), the molecular mechanism coordinating this membrane translocation remains unresolved. Here, we report the...

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Autores principales: Zhang, Chun-ming, Imoto, Yoshihiro, Hikima, Takaaki, Inoue, Tsuyoshi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7868712/
https://www.ncbi.nlm.nih.gov/pubmed/33598655
http://dx.doi.org/10.1016/j.yjsbx.2021.100045
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author Zhang, Chun-ming
Imoto, Yoshihiro
Hikima, Takaaki
Inoue, Tsuyoshi
author_facet Zhang, Chun-ming
Imoto, Yoshihiro
Hikima, Takaaki
Inoue, Tsuyoshi
author_sort Zhang, Chun-ming
collection PubMed
description Although the tetanus neurotoxin (TeNT) delivers its protease domain (LC) across the synaptic vesicle lumen into the cytosol via its receptor binding domain (H(C)) and translocation domain (H(N)), the molecular mechanism coordinating this membrane translocation remains unresolved. Here, we report the high-resolution crystal structures of full-length reduced TeNT (rTeNT, 2.3 Å), TeNT isolated H(N) (TeNT/iH(N), 2.3 Å), TeNT isolated H(C) (TeNT/iH(C), 1.5 Å), together with the solution structures of TeNT/iH(N) and beltless TeNT/iH(N) (TeNT/blH(N)). TeNT undergoes significant domains rotation of the H(N) and LC were demonstrated by structural comparison of rTeNT and non-reduced-TeNT (nrTeNT). A linker loop connects the H(N) and H(C) is essential for the self-domain rotation of TeNT. The TeNT-specific C869-C1093 disulfide bond is sensitive to the redox environment and its disruption provides linker loop flexibility, which enables domain arrangement of rTeNT distinct from that of nrTeNT. Furthermore, the mobility of C869 in the linker loop and the sensitivity to redox condition of C1093 were confirmed by crystal structure analysis of TeNT/iH(C). On the other hand, the structural flexibility of H(N) was investigated by crystallographic and solution scattering analyses. It was found that the region (residues 698–769), which follows the translocation region had remarkable change in TeNT/iH(N). Besides, the so-called belt region has a high propensity to swing around the upper half of TeNT/iH(N) at acidic pH. It provides the first overview of the dynamics of the Belt in solution. These newly obtained structural information that shed light on the transmembrane mechanism of TeNT.
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spelling pubmed-78687122021-02-16 Structural flexibility of the tetanus neurotoxin revealed by crystallographic and solution scattering analyses Zhang, Chun-ming Imoto, Yoshihiro Hikima, Takaaki Inoue, Tsuyoshi J Struct Biol X Article Although the tetanus neurotoxin (TeNT) delivers its protease domain (LC) across the synaptic vesicle lumen into the cytosol via its receptor binding domain (H(C)) and translocation domain (H(N)), the molecular mechanism coordinating this membrane translocation remains unresolved. Here, we report the high-resolution crystal structures of full-length reduced TeNT (rTeNT, 2.3 Å), TeNT isolated H(N) (TeNT/iH(N), 2.3 Å), TeNT isolated H(C) (TeNT/iH(C), 1.5 Å), together with the solution structures of TeNT/iH(N) and beltless TeNT/iH(N) (TeNT/blH(N)). TeNT undergoes significant domains rotation of the H(N) and LC were demonstrated by structural comparison of rTeNT and non-reduced-TeNT (nrTeNT). A linker loop connects the H(N) and H(C) is essential for the self-domain rotation of TeNT. The TeNT-specific C869-C1093 disulfide bond is sensitive to the redox environment and its disruption provides linker loop flexibility, which enables domain arrangement of rTeNT distinct from that of nrTeNT. Furthermore, the mobility of C869 in the linker loop and the sensitivity to redox condition of C1093 were confirmed by crystal structure analysis of TeNT/iH(C). On the other hand, the structural flexibility of H(N) was investigated by crystallographic and solution scattering analyses. It was found that the region (residues 698–769), which follows the translocation region had remarkable change in TeNT/iH(N). Besides, the so-called belt region has a high propensity to swing around the upper half of TeNT/iH(N) at acidic pH. It provides the first overview of the dynamics of the Belt in solution. These newly obtained structural information that shed light on the transmembrane mechanism of TeNT. Elsevier 2021-01-30 /pmc/articles/PMC7868712/ /pubmed/33598655 http://dx.doi.org/10.1016/j.yjsbx.2021.100045 Text en © 2021 The Author(s) http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Zhang, Chun-ming
Imoto, Yoshihiro
Hikima, Takaaki
Inoue, Tsuyoshi
Structural flexibility of the tetanus neurotoxin revealed by crystallographic and solution scattering analyses
title Structural flexibility of the tetanus neurotoxin revealed by crystallographic and solution scattering analyses
title_full Structural flexibility of the tetanus neurotoxin revealed by crystallographic and solution scattering analyses
title_fullStr Structural flexibility of the tetanus neurotoxin revealed by crystallographic and solution scattering analyses
title_full_unstemmed Structural flexibility of the tetanus neurotoxin revealed by crystallographic and solution scattering analyses
title_short Structural flexibility of the tetanus neurotoxin revealed by crystallographic and solution scattering analyses
title_sort structural flexibility of the tetanus neurotoxin revealed by crystallographic and solution scattering analyses
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7868712/
https://www.ncbi.nlm.nih.gov/pubmed/33598655
http://dx.doi.org/10.1016/j.yjsbx.2021.100045
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