$High throughput screening and identification of coagulopathic snake venom proteins and peptides using nanofractionation and proteomics approaches$

High throughput screening and identification of coagulopathic snake venom proteins and peptides using nanofractionation and proteomics approaches

Snakebite is a neglected tropical disease that results in a variety of systemic and local pathologies in envenomed victims and is responsible for around 138,000 deaths every year. Many snake venoms cause severe coagulopathy that makes victims vulnerable to suffering life-threating haemorrhage. The m...

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Veröffentlicht in:	PLoS neglected tropical diseases 2020-04, Vol.14 (4), p.e0007802-e0007802
Hauptverfasser:	Slagboom, Julien, Mladić, Marija, Xie, Chunfang, Kazandjian, Taline D, Vonk, Freek, Somsen, Govert W, Casewell, Nicholas R, Kool, Jeroen
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Sprache:	eng
Schlagworte:	Animals Antibodies Anticoagulants Anticoagulants - analysis Bioassays Biological activity Biological assays Biological Factors - analysis Biology and Life Sciences Blood Coagulation - drug effects Chemical Fractionation Chemical properties Chromatography, Liquid Coagulants - analysis Coagulation Column chromatography Drug dosages Fatalities Fractionation Freeze drying Haemorrhage Hemorrhage High-throughput screening High-throughput screening (Biochemical assaying) Humans Identification Identification and classification Identification methods Liquid chromatography Mass spectrometry Mass spectroscopy Medicine and Health Sciences Metalloproteinase Methods Monoclonal antibodies Peptides Peptides - analysis Phospholipase Phospholipase A2 Physiological aspects Plasma - drug effects Proteins Proteins - analysis Proteomics Research and Analysis Methods Screening Serine Serine proteinase Snake bites Snake Venoms - chemistry Snakes Software Species diversity Spectroscopy Supervision Tandem Mass Spectrometry Taxonomy Toxins Tropical climate Tropical diseases Venom Venom toxins Venoms Vulnerability
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description	Snakebite is a neglected tropical disease that results in a variety of systemic and local pathologies in envenomed victims and is responsible for around 138,000 deaths every year. Many snake venoms cause severe coagulopathy that makes victims vulnerable to suffering life-threating haemorrhage. The mechanisms of action of coagulopathic snake venom toxins are diverse and can result in both anticoagulant and procoagulant effects. However, because snake venoms consist of a mixture of numerous protein and peptide components, high throughput characterizations of specific target bioactives is challenging. In this study, we applied a combination of analytical and pharmacological methods to identify snake venom toxins from a wide diversity of snake species that perturb coagulation. To do so, we used a high-throughput screening approach consisting of a miniaturised plasma coagulation assay in combination with a venom nanofractionation approach. Twenty snake venoms were first separated using reversed-phase liquid chromatography, and a post-column split allowed a small fraction to be analyzed with mass spectrometry, while the larger fraction was collected and dispensed onto 384-well plates. After fraction collection, any solvent present in the wells was removed by means of freeze-drying, after which it was possible to perform a plasma coagulation assay in order to detect coagulopathic activity. Our results demonstrate that many snake venoms simultaneously contain both procoagulant and anticoagulant bioactives that contribute to coagulopathy. In-depth identification analysis from seven medically-important venoms, via mass spectrometry and nanoLC-MS/MS, revealed that phospholipase A2 toxins are frequently identified in anticoagulant venom fractions, while serine protease and metalloproteinase toxins are often associated with procoagulant bioactivities. The nanofractionation and proteomics approach applied herein seems likely to be a valuable tool for the rational development of next-generation snakebite treatments by facilitating the rapid identification and fractionation of coagulopathic toxins, thereby enabling specific targeting of these toxins by new therapeutics such as monoclonal antibodies and small molecule inhibitors.
doi_str_mv	10.1371/journal.pntd.0007802
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Twenty snake venoms were first separated using reversed-phase liquid chromatography, and a post-column split allowed a small fraction to be analyzed with mass spectrometry, while the larger fraction was collected and dispensed onto 384-well plates. After fraction collection, any solvent present in the wells was removed by means of freeze-drying, after which it was possible to perform a plasma coagulation assay in order to detect coagulopathic activity. Our results demonstrate that many snake venoms simultaneously contain both procoagulant and anticoagulant bioactives that contribute to coagulopathy. In-depth identification analysis from seven medically-important venoms, via mass spectrometry and nanoLC-MS/MS, revealed that phospholipase A2 toxins are frequently identified in anticoagulant venom fractions, while serine protease and metalloproteinase toxins are often associated with procoagulant bioactivities. The nanofractionation and proteomics approach applied herein seems likely to be a valuable tool for the rational development of next-generation snakebite treatments by facilitating the rapid identification and fractionation of coagulopathic toxins, thereby enabling specific targeting of these toxins by new therapeutics such as monoclonal antibodies and small molecule inhibitors.</description><identifier>ISSN: 1935-2735</identifier><identifier>ISSN: 1935-2727</identifier><identifier>EISSN: 1935-2735</identifier><identifier>DOI: 10.1371/journal.pntd.0007802</identifier><identifier>PMID: 32236099</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Animals ; Antibodies ; Anticoagulants ; Anticoagulants - analysis ; Bioassays ; Biological activity ; Biological assays ; Biological Factors - analysis ; Biology and Life Sciences ; Blood Coagulation - drug effects ; Chemical Fractionation ; Chemical properties ; Chromatography, Liquid ; Coagulants - analysis ; Coagulation ; Column chromatography ; Drug dosages ; Fatalities ; Fractionation ; Freeze drying ; Haemorrhage ; Hemorrhage ; High-throughput screening ; High-throughput screening (Biochemical assaying) ; Humans ; Identification ; Identification and classification ; Identification methods ; Liquid chromatography ; Mass spectrometry ; Mass spectroscopy ; Medicine and Health Sciences ; Metalloproteinase ; Methods ; Monoclonal antibodies ; Peptides ; Peptides - analysis ; Phospholipase ; Phospholipase A2 ; Physiological aspects ; Plasma - drug effects ; Proteins ; Proteins - analysis ; Proteomics ; Research and Analysis Methods ; Screening ; Serine ; Serine proteinase ; Snake bites ; Snake Venoms - chemistry ; Snakes ; Software ; Species diversity ; Spectroscopy ; Supervision ; Tandem Mass Spectrometry ; Taxonomy ; Toxins ; Tropical climate ; Tropical diseases ; Venom ; Venom toxins ; Venoms ; Vulnerability</subject><ispartof>PLoS neglected tropical diseases, 2020-04, Vol.14 (4), p.e0007802-e0007802</ispartof><rights>COPYRIGHT 2020 Public Library of Science</rights><rights>2020 Slagboom et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 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Many snake venoms cause severe coagulopathy that makes victims vulnerable to suffering life-threating haemorrhage. The mechanisms of action of coagulopathic snake venom toxins are diverse and can result in both anticoagulant and procoagulant effects. However, because snake venoms consist of a mixture of numerous protein and peptide components, high throughput characterizations of specific target bioactives is challenging. In this study, we applied a combination of analytical and pharmacological methods to identify snake venom toxins from a wide diversity of snake species that perturb coagulation. To do so, we used a high-throughput screening approach consisting of a miniaturised plasma coagulation assay in combination with a venom nanofractionation approach. Twenty snake venoms were first separated using reversed-phase liquid chromatography, and a post-column split allowed a small fraction to be analyzed with mass spectrometry, while the larger fraction was collected and dispensed onto 384-well plates. After fraction collection, any solvent present in the wells was removed by means of freeze-drying, after which it was possible to perform a plasma coagulation assay in order to detect coagulopathic activity. Our results demonstrate that many snake venoms simultaneously contain both procoagulant and anticoagulant bioactives that contribute to coagulopathy. In-depth identification analysis from seven medically-important venoms, via mass spectrometry and nanoLC-MS/MS, revealed that phospholipase A2 toxins are frequently identified in anticoagulant venom fractions, while serine protease and metalloproteinase toxins are often associated with procoagulant bioactivities. The nanofractionation and proteomics approach applied herein seems likely to be a valuable tool for the rational development of next-generation snakebite treatments by facilitating the rapid identification and fractionation of coagulopathic toxins, thereby enabling specific targeting of these toxins by new therapeutics such as monoclonal antibodies and small molecule inhibitors.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>32236099</pmid><doi>10.1371/journal.pntd.0007802</doi><orcidid>https://orcid.org/0000-0002-0011-5612</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Animals Antibodies Anticoagulants Anticoagulants - analysis Bioassays Biological activity Biological assays Biological Factors - analysis Biology and Life Sciences Blood Coagulation - drug effects Chemical Fractionation Chemical properties Chromatography, Liquid Coagulants - analysis Coagulation Column chromatography Drug dosages Fatalities Fractionation Freeze drying Haemorrhage Hemorrhage High-throughput screening High-throughput screening (Biochemical assaying) Humans Identification Identification and classification Identification methods Liquid chromatography Mass spectrometry Mass spectroscopy Medicine and Health Sciences Metalloproteinase Methods Monoclonal antibodies Peptides Peptides - analysis Phospholipase Phospholipase A2 Physiological aspects Plasma - drug effects Proteins Proteins - analysis Proteomics Research and Analysis Methods Screening Serine Serine proteinase Snake bites Snake Venoms - chemistry Snakes Software Species diversity Spectroscopy Supervision Tandem Mass Spectrometry Taxonomy Toxins Tropical climate Tropical diseases Venom Venom toxins Venoms Vulnerability
title	High throughput screening and identification of coagulopathic snake venom proteins and peptides using nanofractionation and proteomics approaches
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