Mechanism of the SDS-resistant Synaptotagmin Clustering Mediated by the Cysteine Cluster at the Interface between the Transmembrane and Spacer Domains
Synaptotagmin I (Syt I), a proposed major Ca2+ sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state during neurotransmitter release. We previously showed that Syts I, II, VII, and VIII form a stable SDS-resistant, β-mercaptoethanol-insensitive, and Ca2+...
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| Published in | The Journal of biological chemistry Vol. 276; no. 43; pp. 40319 - 40325 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Elsevier Inc
26.10.2001
American Society for Biochemistry and Molecular Biology |
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| Abstract | Synaptotagmin I (Syt I), a proposed major Ca2+ sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state during neurotransmitter release. We previously showed that Syts I, II, VII, and VIII form a stable SDS-resistant, β-mercaptoethanol-insensitive, and Ca2+-independent oligomer surrounding the transmembrane domain (Fukuda, M., and Mikoshiba, K. (2000) J. Biol. Chem. 275, 28180–28185), but little is known about the molecular mechanism of the Ca2+-independent oligomerization by the synaptotagmin family. In this study, we analyzed the Ca2+-independent oligomerization properties of Syt I and found that it shows two distinct forms of self-oligomerization activity: stable SDS-resistant self-oligomerization activity and relatively unstable SDS-sensitive self-oligomerization activity. The former was found to be mediated by a post-translationally modified (i.e. fatty-acylated) cysteine (Cys) cluster (Cys-74, Cys-75, Cys-77, Cys-79, and Cys-82) at the interface between the transmembrane and spacer domains of Syt I. We also show that the number of Cys residues at the interface between the transmembrane and spacer domains determines the SDS- resistant oligomerizing capacity of each synaptotagmin isoform: Syt II, which contains seven Cys residues, showed the strongest SDS-resistant oligomerizing activity in the synaptotagmin family, whereas Syt XII, which has no Cys residues, did not form any SDS-resistant oligomers. The latter SDS-sensitive self-oligomerization of Syt I is mediated by the spacer domain, because deletion of the whole spacer domain, including the Cys cluster, abolished it, whereas a Syt I(CA) mutant carrying Cys to Ala substitutions still exhibited self-oligomerization. Based on these results, we propose that the oligomerization of the synaptotagmin family is regulated by two distinct mechanisms: the stable SDS-resistant oligomerization is mediated by the modified Cys cluster, whereas the relatively unstable (SDS-sensitive) oligomerization is mediated by the environment of the spacer domain. |
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| AbstractList | Synaptotagmin I (Syt I), a proposed major Ca 2+ sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state during neurotransmitter
release. We previously showed that Syts I, II, VII, and VIII form a stable SDS-resistant, β-mercaptoethanol-insensitive, and
Ca 2+ -independent oligomer surrounding the transmembrane domain (Fukuda, M., and Mikoshiba, K. (2000) J. Biol. Chem. 275, 28180â28185), but little is known about the molecular mechanism of the Ca 2+ -independent oligomerization by the synaptotagmin family. In this study, we analyzed the Ca 2+ -independent oligomerization properties of Syt I and found that it shows two distinct forms of self-oligomerization activity:
stable SDS-resistant self-oligomerization activity and relatively unstable SDS-sensitive self-oligomerization activity. The
former was found to be mediated by a post-translationally modified ( i.e. fatty-acylated) cysteine (Cys) cluster (Cys-74, Cys-75, Cys-77, Cys-79, and Cys-82) at the interface between the transmembrane
and spacer domains of Syt I. We also show that the number of Cys residues at the interface between the transmembrane and spacer
domains determines the SDS- resistant oligomerizing capacity of each synaptotagmin isoform: Syt II, which contains seven Cys
residues, showed the strongest SDS-resistant oligomerizing activity in the synaptotagmin family, whereas Syt XII, which has
no Cys residues, did not form any SDS-resistant oligomers. The latter SDS-sensitive self-oligomerization of Syt I is mediated
by the spacer domain, because deletion of the whole spacer domain, including the Cys cluster, abolished it, whereas a Syt
I(CA) mutant carrying Cys to Ala substitutions still exhibited self-oligomerization. Based on these results, we propose that
the oligomerization of the synaptotagmin family is regulated by two distinct mechanisms: the stable SDS-resistant oligomerization
is mediated by the modified Cys cluster, whereas the relatively unstable (SDS-sensitive) oligomerization is mediated by the
environment of the spacer domain. Synaptotagmin I (Syt I), a proposed major Ca super(2+) sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state during neurotransmitter release. We previously showed that Syts I, II, VII, and VIII form a stable SDS-resistant, beta -mercaptoethanol-insensitive, and Ca super(2+)-independent oligomer surrounding the transmembrane domain (Fukuda, M., and Mikoshiba, K. (2000) J. Biol. Chem. 275, 28180-28185), but little is known about the molecular mechanism of the Ca super(2+)-independent oligomerization by the synaptotagmin family. In this study, we analyzed the Ca super(2+)-independent oligomerization properties of Syt I and found that it shows two distinct forms of self-oligomerization activity: stable SDS-resistant self-oligomerization activity and relatively unstable SDS-sensitive self-oligomerization activity. The former was found to be mediated by a post-translationally modified (i.e. fatty-acylated) cysteine (Cys) cluster (Cys-74, Cys-75, Cys-77, Cys-79, and Cys-82) at the interface between the transmembrane and spacer domains of Syt I. We also show that the number of Cys residues at the interface between the transmembrane and spacer domains determines the SDS- resistant oligomerizing capacity of each synaptotagmin isoform: Syt II, which contains seven Cys residues, showed the strongest SDS-resistant oligomerizing activity in the synaptotagmin family, whereas Syt XII, which has no Cys residues, did not form any SDS-resistant oligomers. The latter SDS-sensitive self-oligomerization of Syt I is mediated by the spacer domain, because deletion of the whole spacer domain, including the Cys cluster, abolished it, whereas a Syt I(CA) mutant carrying Cys to Ala substitutions still exhibited self-oligomerization. Based on these results, we propose that the oligomerization of the synaptotagmin family is regulated by two distinct mechanisms: the stable SDS-resistant oligomerization is mediated by the modified Cys cluster, whereas the relatively unstable (SDS-sensitive) oligomerization is mediated by the environment of the spacer domain. Synaptotagmin I (Syt I), a proposed major Ca2+ sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state during neurotransmitter release. We previously showed that Syts I, II, VII, and VIII form a stable SDS-resistant, β-mercaptoethanol-insensitive, and Ca2+-independent oligomer surrounding the transmembrane domain (Fukuda, M., and Mikoshiba, K. (2000) J. Biol. Chem. 275, 28180–28185), but little is known about the molecular mechanism of the Ca2+-independent oligomerization by the synaptotagmin family. In this study, we analyzed the Ca2+-independent oligomerization properties of Syt I and found that it shows two distinct forms of self-oligomerization activity: stable SDS-resistant self-oligomerization activity and relatively unstable SDS-sensitive self-oligomerization activity. The former was found to be mediated by a post-translationally modified (i.e. fatty-acylated) cysteine (Cys) cluster (Cys-74, Cys-75, Cys-77, Cys-79, and Cys-82) at the interface between the transmembrane and spacer domains of Syt I. We also show that the number of Cys residues at the interface between the transmembrane and spacer domains determines the SDS- resistant oligomerizing capacity of each synaptotagmin isoform: Syt II, which contains seven Cys residues, showed the strongest SDS-resistant oligomerizing activity in the synaptotagmin family, whereas Syt XII, which has no Cys residues, did not form any SDS-resistant oligomers. The latter SDS-sensitive self-oligomerization of Syt I is mediated by the spacer domain, because deletion of the whole spacer domain, including the Cys cluster, abolished it, whereas a Syt I(CA) mutant carrying Cys to Ala substitutions still exhibited self-oligomerization. Based on these results, we propose that the oligomerization of the synaptotagmin family is regulated by two distinct mechanisms: the stable SDS-resistant oligomerization is mediated by the modified Cys cluster, whereas the relatively unstable (SDS-sensitive) oligomerization is mediated by the environment of the spacer domain. Synaptotagmin I (Syt I), a proposed major Ca(2+) sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state during neurotransmitter release. We previously showed that Syts I, II, VII, and VIII form a stable SDS-resistant, beta-mercaptoethanol-insensitive, and Ca(2+)-independent oligomer surrounding the transmembrane domain (Fukuda, M., and Mikoshiba, K. (2000) J. Biol. Chem. 275, 28180-28185), but little is known about the molecular mechanism of the Ca(2+)-independent oligomerization by the synaptotagmin family. In this study, we analyzed the Ca(2+)-independent oligomerization properties of Syt I and found that it shows two distinct forms of self-oligomerization activity: stable SDS-resistant self-oligomerization activity and relatively unstable SDS-sensitive self-oligomerization activity. The former was found to be mediated by a post-translationally modified (i.e. fatty-acylated) cysteine (Cys) cluster (Cys-74, Cys-75, Cys-77, Cys-79, and Cys-82) at the interface between the transmembrane and spacer domains of Syt I. We also show that the number of Cys residues at the interface between the transmembrane and spacer domains determines the SDS- resistant oligomerizing capacity of each synaptotagmin isoform: Syt II, which contains seven Cys residues, showed the strongest SDS-resistant oligomerizing activity in the synaptotagmin family, whereas Syt XII, which has no Cys residues, did not form any SDS-resistant oligomers. The latter SDS-sensitive self-oligomerization of Syt I is mediated by the spacer domain, because deletion of the whole spacer domain, including the Cys cluster, abolished it, whereas a Syt I(CA) mutant carrying Cys to Ala substitutions still exhibited self-oligomerization. Based on these results, we propose that the oligomerization of the synaptotagmin family is regulated by two distinct mechanisms: the stable SDS-resistant oligomerization is mediated by the modified Cys cluster, whereas the relatively unstable (SDS-sensitive) oligomerization is mediated by the environment of the spacer domain. |
| Author | Fukuda, Mitsunori Ogata, Yukie Mikoshiba, Katsuhiko Kanno, Eiko |
| Author_xml | – sequence: 1 givenname: Mitsunori surname: Fukuda fullname: Fukuda, Mitsunori email: mnfukuda@brain.riken.go.jp organization: Laboratory for Developmental Neurobiology, Brain Science Institute, RIKEN (The Institute of Physical and Chemical Research), 2-1 Hirosawa, Wako, Saitama 351-0198 and the – sequence: 2 givenname: Eiko surname: Kanno fullname: Kanno, Eiko organization: Laboratory for Developmental Neurobiology, Brain Science Institute, RIKEN (The Institute of Physical and Chemical Research), 2-1 Hirosawa, Wako, Saitama 351-0198 and the – sequence: 3 givenname: Yukie surname: Ogata fullname: Ogata, Yukie organization: Laboratory for Developmental Neurobiology, Brain Science Institute, RIKEN (The Institute of Physical and Chemical Research), 2-1 Hirosawa, Wako, Saitama 351-0198 and the – sequence: 4 givenname: Katsuhiko surname: Mikoshiba fullname: Mikoshiba, Katsuhiko organization: Laboratory for Developmental Neurobiology, Brain Science Institute, RIKEN (The Institute of Physical and Chemical Research), 2-1 Hirosawa, Wako, Saitama 351-0198 and the |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/11514560$$D View this record in MEDLINE/PubMed |
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| Snippet | Synaptotagmin I (Syt I), a proposed major Ca2+ sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state during... Synaptotagmin I (Syt I), a proposed major Ca 2+ sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state during... Synaptotagmin I (Syt I), a proposed major Ca(2+) sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state during... Synaptotagmin I (Syt I), a proposed major Ca super(2+) sensor in the central nervous system, has been hypothesized as functioning in an oligomerized state... |
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| SubjectTerms | Amino Acid Sequence Animals Calcium-Binding Proteins - metabolism Cysteine Membrane Glycoproteins - metabolism Mice Molecular Sequence Data Nerve Tissue Proteins - metabolism Protein Structure, Quaternary Receptor Aggregation - drug effects Receptors, Cell Surface - metabolism Signal Transduction Sodium Dodecyl Sulfate - pharmacology Synaptotagmin I Synaptotagmins |
| Title | Mechanism of the SDS-resistant Synaptotagmin Clustering Mediated by the Cysteine Cluster at the Interface between the Transmembrane and Spacer Domains |
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