Molecular modeling elucidates the cellular mechanism of synaptotagmin-SNARE inhibition: a novel plausible route to anti-wrinkle activity of botox-like cosmetic active molecules
Synaptotagmin 1 (Syt1) is the Ca 2+ sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive muscle fiber stimulation in the face, a helpful stratagem to diminish the wrinkle line intenseness is to weaken the innervating neuron activity t...
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| Published in: | Molecular and cellular biochemistry Vol. 442; no. 1-2; pp. 97 - 109 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
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| Abstract | Synaptotagmin 1 (Syt1) is the Ca
2+
sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive muscle fiber stimulation in the face, a helpful stratagem to diminish the wrinkle line intenseness is to weaken the innervating neuron activity through Syt1 inhibition which is one of the possible therapeutic strategies against wrinkles. Recently, experimental evidence showed that botox-like peptides, which are typically used as SNARE modulators, may inhibit Syt1. In this work, we applied molecular modeling to (1) characterize the structural framework and (2) define the atomistic information of the factors for the inhibition mechanism. The modeling identified the plausible binding cleft able to efficiently bind all botox-like peptides. The MD simulations revealed that all peptides induced significant Syt1 rigidity by binding in the cleft of the C2A–C2B interface. The consequence of this binding event is the suppression of the protein motion associated with conformational change of Syt1 from the closed form to the open form. On this basis, this finding may therefore be of subservience for the advancement of novel botox-like molecules for the therapeutic treatment of wrinkle, targeting and modulating the function of Syt1. |
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| AbstractList | Synaptotagmin 1 (Syt1) is the Ca
sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive muscle fiber stimulation in the face, a helpful stratagem to diminish the wrinkle line intenseness is to weaken the innervating neuron activity through Syt1 inhibition which is one of the possible therapeutic strategies against wrinkles. Recently, experimental evidence showed that botox-like peptides, which are typically used as SNARE modulators, may inhibit Syt1. In this work, we applied molecular modeling to (1) characterize the structural framework and (2) define the atomistic information of the factors for the inhibition mechanism. The modeling identified the plausible binding cleft able to efficiently bind all botox-like peptides. The MD simulations revealed that all peptides induced significant Syt1 rigidity by binding in the cleft of the C2A-C2B interface. The consequence of this binding event is the suppression of the protein motion associated with conformational change of Syt1 from the closed form to the open form. On this basis, this finding may therefore be of subservience for the advancement of novel botox-like molecules for the therapeutic treatment of wrinkle, targeting and modulating the function of Syt1. Synaptotagmin 1 (Syt1) is the Ca 2+ sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive muscle fiber stimulation in the face, a helpful stratagem to diminish the wrinkle line intenseness is to weaken the innervating neuron activity through Syt1 inhibition which is one of the possible therapeutic strategies against wrinkles. Recently, experimental evidence showed that botox-like peptides, which are typically used as SNARE modulators, may inhibit Syt1. In this work, we applied molecular modeling to (1) characterize the structural framework and (2) define the atomistic information of the factors for the inhibition mechanism. The modeling identified the plausible binding cleft able to efficiently bind all botox-like peptides. The MD simulations revealed that all peptides induced significant Syt1 rigidity by binding in the cleft of the C2A–C2B interface. The consequence of this binding event is the suppression of the protein motion associated with conformational change of Syt1 from the closed form to the open form. On this basis, this finding may therefore be of subservience for the advancement of novel botox-like molecules for the therapeutic treatment of wrinkle, targeting and modulating the function of Syt1. Synaptotagmin 1 (Syt1) is the Ca2+ sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive muscle fiber stimulation in the face, a helpful stratagem to diminish the wrinkle line intenseness is to weaken the innervating neuron activity through Syt1 inhibition which is one of the possible therapeutic strategies against wrinkles. Recently, experimental evidence showed that botox-like peptides, which are typically used as SNARE modulators, may inhibit Syt1. In this work, we applied molecular modeling to (1) characterize the structural framework and (2) define the atomistic information of the factors for the inhibition mechanism. The modeling identified the plausible binding cleft able to efficiently bind all botox-like peptides. The MD simulations revealed that all peptides induced significant Syt1 rigidity by binding in the cleft of the C2A-C2B interface. The consequence of this binding event is the suppression of the protein motion associated with conformational change of Syt1 from the closed form to the open form. On this basis, this finding may therefore be of subservience for the advancement of novel botox-like molecules for the therapeutic treatment of wrinkle, targeting and modulating the function of Syt1. Synaptotagmin 1 (Syt1) is the Ca.sup.2+ sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive muscle fiber stimulation in the face, a helpful stratagem to diminish the wrinkle line intenseness is to weaken the innervating neuron activity through Syt1 inhibition which is one of the possible therapeutic strategies against wrinkles. Recently, experimental evidence showed that botox-like peptides, which are typically used as SNARE modulators, may inhibit Syt1. In this work, we applied molecular modeling to (1) characterize the structural framework and (2) define the atomistic information of the factors for the inhibition mechanism. The modeling identified the plausible binding cleft able to efficiently bind all botox-like peptides. The MD simulations revealed that all peptides induced significant Syt1 rigidity by binding in the cleft of the C2A-C2B interface. The consequence of this binding event is the suppression of the protein motion associated with conformational change of Syt1 from the closed form to the open form. On this basis, this finding may therefore be of subservience for the advancement of novel botox-like molecules for the therapeutic treatment of wrinkle, targeting and modulating the function of Syt1. |
| Audience | Academic |
| Author | Nimmanpipug, Piyarat Jiranusornkul, Supat Sirithunyalug, Busaban Wongrattanakamon, Pathomwat |
| Author_xml | – sequence: 1 givenname: Pathomwat surname: Wongrattanakamon fullname: Wongrattanakamon, Pathomwat email: pathomwat@yahoo.com organization: Laboratory for Molecular Design and Simulation (LMDS), Department of Pharmaceutical Sciences, Faculty of Pharmacy, Chiang Mai University – sequence: 2 givenname: Piyarat surname: Nimmanpipug fullname: Nimmanpipug, Piyarat organization: Computational Simulation and Modelling Laboratory (CSML), Department of Chemistry, Faculty of Science, Chiang Mai University – sequence: 3 givenname: Busaban surname: Sirithunyalug fullname: Sirithunyalug, Busaban organization: Department of Pharmaceutical Sciences, Faculty of Pharmacy, Chiang Mai University – sequence: 4 givenname: Supat surname: Jiranusornkul fullname: Jiranusornkul, Supat email: supat.jira@cmu.ac.th organization: Laboratory for Molecular Design and Simulation (LMDS), Department of Pharmaceutical Sciences, Faculty of Pharmacy, Chiang Mai University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29019108$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_bioorg_2021_105231 crossref_primary_10_1111_jocd_15984 crossref_primary_10_1007_s10989_018_9695_8 crossref_primary_10_3390_cosmetics8030066 crossref_primary_10_1080_10837450_2021_2023569 crossref_primary_10_1016_j_gene_2022_146435 crossref_primary_10_1016_j_jddst_2023_104987 crossref_primary_10_1007_s00289_022_04663_8 |
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| Keywords | Neurotransmitters Botox-like peptides SNARE proteins Molecular dynamics simulation Synaptotagmin Molecular docking Anti-wrinkle |
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| Snippet | Synaptotagmin 1 (Syt1) is the Ca
2+
sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive... Synaptotagmin 1 (Syt1) is the Ca sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive muscle... Synaptotagmin 1 (Syt1) is the Ca.sup.2+ sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive... Synaptotagmin 1 (Syt1) is the Ca2+ sensor protein with an essential role in neurotransmitter release. Since the wrinkle formation is due to the excessive... |
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| SubjectTerms | Analysis Binding Biochemistry Biomedical and Life Sciences Botulinum toxin Botulinum toxins Calcium Calcium ions Cardiology Cellular biology Computer simulation Cosmetics Health aspects Life Sciences Medical Biochemistry Modelling Modulators Molecular biology Molecular modelling Molecules Muscles Neuromodulation Neurotransmitter release Oncology Peptides Rigidity Skin care products SNAP receptors Synaptotagmin |
| Title | Molecular modeling elucidates the cellular mechanism of synaptotagmin-SNARE inhibition: a novel plausible route to anti-wrinkle activity of botox-like cosmetic active molecules |
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