Repurposing Cancer Drugs Batimastat and Marimastat to Inhibit the Activity of a Group I Metalloprotease from the Venom of the Western Diamondback Rattlesnake, <i>Crotalus atrox</i>

Repurposing Cancer Drugs Batimastat and Marimastat to Inhibit the Activity of a Group I Metalloprotease from the Venom of the Western Diamondback Rattlesnake, <i>Crotalus atrox</i>

Snakebite envenomation causes over 140,000 deaths every year, predominantly in developing countries. As a result, it is one of the most lethal neglected tropical diseases. It is associated with incredibly complex pathophysiology due to the vast number of unique toxins/proteins present in the venoms...

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Main Authors: Harry J. Layfield, Harry F. Williams, Divyashree Ravishankar, Amita Mehmi, Medha Sonavane, Anika Salim, Rajendran Vaiyapuri, Karthik Lakshminarayanan, Thomas M. Vallance, Andrew B. Bicknell, Steven A. Trim, Ketan Patel, Sakthivel Vaiyapuri
Format: Article
Language:English
Published: MDPI AG 2020-05-01
Series:Toxins
Subjects:
<i>Crotalus atrox</i>
metalloprotease
snake venom
neglected tropical disease
rattlesnake
batimastat
Online Access:https://www.mdpi.com/2072-6651/12/5/309
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spelling doaj-002fd4f941424cf5823877bc706e33a42020-11-25T02:00:30ZengMDPI AGToxins2072-66512020-05-011230930910.3390/toxins12050309Repurposing Cancer Drugs Batimastat and Marimastat to Inhibit the Activity of a Group I Metalloprotease from the Venom of the Western Diamondback Rattlesnake, <i>Crotalus atrox</i>Harry J. Layfield0Harry F. Williams1Divyashree Ravishankar2Amita Mehmi3Medha Sonavane4Anika Salim5Rajendran Vaiyapuri6Karthik Lakshminarayanan7Thomas M. Vallance8Andrew B. Bicknell9Steven A. Trim10Ketan Patel11Sakthivel Vaiyapuri12School of Pharmacy, University of Reading, Reading RG6 6UB, UKSchool of Pharmacy, University of Reading, Reading RG6 6UB, UKSchool of Pharmacy, University of Reading, Reading RG6 6UB, UKSchool of Pharmacy, University of Reading, Reading RG6 6UB, UKSchool of Pharmacy, University of Reading, Reading RG6 6UB, UKSchool of Pharmacy, University of Reading, Reading RG6 6UB, UKToxiven Biotech Private Limited, Coimbatore, Tamil Nadu 641042, IndiaToxiven Biotech Private Limited, Coimbatore, Tamil Nadu 641042, IndiaSchool of Pharmacy, University of Reading, Reading RG6 6UB, UKSchool of Biological Sciences, University of Reading, Reading RG6 6UB, UKVenomtech Limited, Sandwich, Kent CT13 9ND, UKSchool of Biological Sciences, University of Reading, Reading RG6 6UB, UKSchool of Pharmacy, University of Reading, Reading RG6 6UB, UKSnakebite envenomation causes over 140,000 deaths every year, predominantly in developing countries. As a result, it is one of the most lethal neglected tropical diseases. It is associated with incredibly complex pathophysiology due to the vast number of unique toxins/proteins present in the venoms of diverse snake species found worldwide. Here, we report the purification and functional characteristics of a Group I (PI) metalloprotease (CAMP-2) from the venom of the western diamondback rattlesnake, <i>Crotalus atrox</i>. Its sensitivity to matrix metalloprotease inhibitors (batimastat and marimastat) was established using specific in vitro experiments and in silico molecular docking analysis. CAMP-2 shows high sequence homology to atroxase from the venom of <i>Crotalus atrox</i> and exhibits collagenolytic, fibrinogenolytic and mild haemolytic activities. It exerts a mild inhibitory effect on agonist-induced platelet aggregation in the absence of plasma proteins. Its collagenolytic activity is completely inhibited by batimastat and marimastat. Zinc chloride also inhibits the collagenolytic activity of CAMP-2 by around 75% at 50 μM, while it is partially potentiated by calcium chloride. Molecular docking studies have demonstrated that batimastat and marimastat are able to bind strongly to the active site residues of CAMP-2. This study demonstrates the impact of matrix metalloprotease inhibitors in the modulation of a purified, Group I metalloprotease activities in comparison to the whole venom. By improving our understanding of snake venom metalloproteases and their sensitivity to small molecule inhibitors, we can begin to develop novel and improved treatment strategies for snakebites.https://www.mdpi.com/2072-6651/12/5/309<i>Crotalus atrox</i>metalloproteasesnake venomneglected tropical diseaserattlesnakebatimastat
collection DOAJ
language English
format Article
sources DOAJ
author Harry J. Layfield
Harry F. Williams
Divyashree Ravishankar
Amita Mehmi
Medha Sonavane
Anika Salim
Rajendran Vaiyapuri
Karthik Lakshminarayanan
Thomas M. Vallance
Andrew B. Bicknell
Steven A. Trim
Ketan Patel
Sakthivel Vaiyapuri
spellingShingle Harry J. Layfield
Harry F. Williams
Divyashree Ravishankar
Amita Mehmi
Medha Sonavane
Anika Salim
Rajendran Vaiyapuri
Karthik Lakshminarayanan
Thomas M. Vallance
Andrew B. Bicknell
Steven A. Trim
Ketan Patel
Sakthivel Vaiyapuri
Repurposing Cancer Drugs Batimastat and Marimastat to Inhibit the Activity of a Group I Metalloprotease from the Venom of the Western Diamondback Rattlesnake, <i>Crotalus atrox</i>
Toxins
<i>Crotalus atrox</i>
metalloprotease
snake venom
neglected tropical disease
rattlesnake
batimastat
author_facet Harry J. Layfield
Harry F. Williams
Divyashree Ravishankar
Amita Mehmi
Medha Sonavane
Anika Salim
Rajendran Vaiyapuri
Karthik Lakshminarayanan
Thomas M. Vallance
Andrew B. Bicknell
Steven A. Trim
Ketan Patel
Sakthivel Vaiyapuri
author_sort Harry J. Layfield
title Repurposing Cancer Drugs Batimastat and Marimastat to Inhibit the Activity of a Group I Metalloprotease from the Venom of the Western Diamondback Rattlesnake, <i>Crotalus atrox</i>
title_short Repurposing Cancer Drugs Batimastat and Marimastat to Inhibit the Activity of a Group I Metalloprotease from the Venom of the Western Diamondback Rattlesnake, <i>Crotalus atrox</i>
title_full Repurposing Cancer Drugs Batimastat and Marimastat to Inhibit the Activity of a Group I Metalloprotease from the Venom of the Western Diamondback Rattlesnake, <i>Crotalus atrox</i>
title_fullStr Repurposing Cancer Drugs Batimastat and Marimastat to Inhibit the Activity of a Group I Metalloprotease from the Venom of the Western Diamondback Rattlesnake, <i>Crotalus atrox</i>
title_full_unstemmed Repurposing Cancer Drugs Batimastat and Marimastat to Inhibit the Activity of a Group I Metalloprotease from the Venom of the Western Diamondback Rattlesnake, <i>Crotalus atrox</i>
title_sort repurposing cancer drugs batimastat and marimastat to inhibit the activity of a group i metalloprotease from the venom of the western diamondback rattlesnake, <i>crotalus atrox</i>
publisher MDPI AG
series Toxins
issn 2072-6651
publishDate 2020-05-01
description Snakebite envenomation causes over 140,000 deaths every year, predominantly in developing countries. As a result, it is one of the most lethal neglected tropical diseases. It is associated with incredibly complex pathophysiology due to the vast number of unique toxins/proteins present in the venoms of diverse snake species found worldwide. Here, we report the purification and functional characteristics of a Group I (PI) metalloprotease (CAMP-2) from the venom of the western diamondback rattlesnake, <i>Crotalus atrox</i>. Its sensitivity to matrix metalloprotease inhibitors (batimastat and marimastat) was established using specific in vitro experiments and in silico molecular docking analysis. CAMP-2 shows high sequence homology to atroxase from the venom of <i>Crotalus atrox</i> and exhibits collagenolytic, fibrinogenolytic and mild haemolytic activities. It exerts a mild inhibitory effect on agonist-induced platelet aggregation in the absence of plasma proteins. Its collagenolytic activity is completely inhibited by batimastat and marimastat. Zinc chloride also inhibits the collagenolytic activity of CAMP-2 by around 75% at 50 μM, while it is partially potentiated by calcium chloride. Molecular docking studies have demonstrated that batimastat and marimastat are able to bind strongly to the active site residues of CAMP-2. This study demonstrates the impact of matrix metalloprotease inhibitors in the modulation of a purified, Group I metalloprotease activities in comparison to the whole venom. By improving our understanding of snake venom metalloproteases and their sensitivity to small molecule inhibitors, we can begin to develop novel and improved treatment strategies for snakebites.
topic <i>Crotalus atrox</i>
metalloprotease
snake venom
neglected tropical disease
rattlesnake
batimastat
url https://www.mdpi.com/2072-6651/12/5/309
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