Orphan Three-Finger Toxins Bind at Tissue Factor–Factor VIIa Interface to Inhibit Factor X Activation: Identification of Functional Site by Docking
Three-finger toxins (3FTxs) contribute to toxicity of venomous snakes belonging to the family Elapidae. Currently, functions of a considerable proportion of 3FTxs are still unknown. Here, we describe the function of orphan group I 3FTxs consisting of four members. We also identified a new member of...
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Georg Thieme Verlag KG
2018-07-01
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| Online Access: | http://www.thieme-connect.de/DOI/DOI?10.1055/s-0038-1672184 |
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doaj-40ddf0178fcf4c109540dc1c2ac525882020-11-25T02:32:22ZengGeorg Thieme Verlag KGTH Open2512-94652512-94652018-07-010203e303e31410.1055/s-0038-1672184Orphan Three-Finger Toxins Bind at Tissue Factor–Factor VIIa Interface to Inhibit Factor X Activation: Identification of Functional Site by DockingManisha Choudhury0Ryan J. R. McCleary1R. Manjunatha Kini2Devadasan Velmurugan3CAS in Crystallography and Biophysics, University of Madras, Chennai, Tamil Nadu, IndiaDepartment of Biological Sciences, National University of Singapore, Singapore, SingaporeDepartment of Biological Sciences, National University of Singapore, Singapore, SingaporeCAS in Crystallography and Biophysics, University of Madras, Chennai, Tamil Nadu, IndiaThree-finger toxins (3FTxs) contribute to toxicity of venomous snakes belonging to the family Elapidae. Currently, functions of a considerable proportion of 3FTxs are still unknown. Here, we describe the function of orphan group I 3FTxs consisting of four members. We also identified a new member of this group by sequencing a transcript isolated from Naja naja venom. This transcript, named najalexin, is identical to that previously described 3FTx from Naja atra venom gland, and shared high sequence identity with ringhalexin from Hemachatus haemachatus and a hypothetical protein from Ophiophagus hannah (here named as ophiolexin). The three-dimensional structure, as predicted by molecular modeling, showed that najalexin and ophiolexin share the same conserved structural organization as ringhalexin and other 3FTxs. Since ringhalexin inhibits the activation of factor X by the tissue factor–factor VIIa complex (TF-FVIIa), we evaluated the interaction of this group of 3FTxs with all components using in silico protein–protein docking studies. The binding of orphan group I 3FTxs to TF-FVIIa complex appears to be driven by their interaction with TF. They bind to fibronectin domain closer to the 170-loop of the FVIIa heavy chain to inhibit factor X activation. The docking studies reveal that functional site residues Tyr7, Lys9, Glu12, Lys26, Arg34, Leu35, Arg40, Val55, Asp56, Cys57, Cys58, and Arg65 on these 3FTxs are crucial for interaction. In silico replacement of these residues by Ala resulted in significant effects in the binding energies. Furthermore, these functional residues are not found in other groups of 3FTxs, which exhibit distinct pharmacological properties.http://www.thieme-connect.de/DOI/DOI?10.1055/s-0038-1672184extrinsic tenase complexanticoagulantfactor viia–tissue factor complex inhibitororphan group i toxins |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Manisha Choudhury Ryan J. R. McCleary R. Manjunatha Kini Devadasan Velmurugan |
| spellingShingle |
Manisha Choudhury Ryan J. R. McCleary R. Manjunatha Kini Devadasan Velmurugan Orphan Three-Finger Toxins Bind at Tissue Factor–Factor VIIa Interface to Inhibit Factor X Activation: Identification of Functional Site by Docking TH Open extrinsic tenase complex anticoagulant factor viia–tissue factor complex inhibitor orphan group i toxins |
| author_facet |
Manisha Choudhury Ryan J. R. McCleary R. Manjunatha Kini Devadasan Velmurugan |
| author_sort |
Manisha Choudhury |
| title |
Orphan Three-Finger Toxins Bind at Tissue Factor–Factor VIIa Interface to Inhibit Factor X Activation: Identification of Functional Site by Docking |
| title_short |
Orphan Three-Finger Toxins Bind at Tissue Factor–Factor VIIa Interface to Inhibit Factor X Activation: Identification of Functional Site by Docking |
| title_full |
Orphan Three-Finger Toxins Bind at Tissue Factor–Factor VIIa Interface to Inhibit Factor X Activation: Identification of Functional Site by Docking |
| title_fullStr |
Orphan Three-Finger Toxins Bind at Tissue Factor–Factor VIIa Interface to Inhibit Factor X Activation: Identification of Functional Site by Docking |
| title_full_unstemmed |
Orphan Three-Finger Toxins Bind at Tissue Factor–Factor VIIa Interface to Inhibit Factor X Activation: Identification of Functional Site by Docking |
| title_sort |
orphan three-finger toxins bind at tissue factor–factor viia interface to inhibit factor x activation: identification of functional site by docking |
| publisher |
Georg Thieme Verlag KG |
| series |
TH Open |
| issn |
2512-9465 2512-9465 |
| publishDate |
2018-07-01 |
| description |
Three-finger toxins (3FTxs) contribute to toxicity of venomous snakes belonging to the family Elapidae. Currently, functions of a considerable proportion of 3FTxs are still unknown. Here, we describe the function of orphan group I 3FTxs consisting of four members. We also identified a new member of this group by sequencing a transcript isolated from Naja naja venom. This transcript, named najalexin, is identical to that previously described 3FTx from Naja atra venom gland, and shared high sequence identity with ringhalexin from Hemachatus haemachatus and a hypothetical protein from Ophiophagus hannah (here named as ophiolexin). The three-dimensional structure, as predicted by molecular modeling, showed that najalexin and ophiolexin share the same conserved structural organization as ringhalexin and other 3FTxs. Since ringhalexin inhibits the activation of factor X by the tissue factor–factor VIIa complex (TF-FVIIa), we evaluated the interaction of this group of 3FTxs with all components using in silico protein–protein docking studies. The binding of orphan group I 3FTxs to TF-FVIIa complex appears to be driven by their interaction with TF. They bind to fibronectin domain closer to the 170-loop of the FVIIa heavy chain to inhibit factor X activation. The docking studies reveal that functional site residues Tyr7, Lys9, Glu12, Lys26, Arg34, Leu35, Arg40, Val55, Asp56, Cys57, Cys58, and Arg65 on these 3FTxs are crucial for interaction. In silico replacement of these residues by Ala resulted in significant effects in the binding energies. Furthermore, these functional residues are not found in other groups of 3FTxs, which exhibit distinct pharmacological properties. |
| topic |
extrinsic tenase complex anticoagulant factor viia–tissue factor complex inhibitor orphan group i toxins |
| url |
http://www.thieme-connect.de/DOI/DOI?10.1055/s-0038-1672184 |
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