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In vitro and in vivo preclinical venom inhibition assays identify metalloproteinase inhibiting drugs as potential future treatments for snakebite envenoming by Dispholidus typus

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In vitro and in vivo preclinical venom inhibition assays identify metalloproteinase inhibiting drugs as potential future treatments for snakebite envenoming by Dispholidus typus. / Menzies, Stefanie K; Clare, Rachel H; Xie, Chunfang et al.
In: Toxicon: X, Vol. 14, 18.03.2022, p. 100118.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Menzies, SK, Clare, RH, Xie, C, Westhorpe, A, Hall, SR, Edge, RJ, Alsolaiss, J, Crittenden, E, Marriott, AE, Harrison, RA, Kool, J & Casewell, NR 2022, 'In vitro and in vivo preclinical venom inhibition assays identify metalloproteinase inhibiting drugs as potential future treatments for snakebite envenoming by Dispholidus typus', Toxicon: X, vol. 14, pp. 100118. https://doi.org/10.1016/j.toxcx.2022.100118

APA

Menzies, S. K., Clare, R. H., Xie, C., Westhorpe, A., Hall, S. R., Edge, R. J., Alsolaiss, J., Crittenden, E., Marriott, A. E., Harrison, R. A., Kool, J., & Casewell, N. R. (2022). In vitro and in vivo preclinical venom inhibition assays identify metalloproteinase inhibiting drugs as potential future treatments for snakebite envenoming by Dispholidus typus. Toxicon: X, 14, 100118. https://doi.org/10.1016/j.toxcx.2022.100118

Vancouver

Menzies SK, Clare RH, Xie C, Westhorpe A, Hall SR, Edge RJ et al. In vitro and in vivo preclinical venom inhibition assays identify metalloproteinase inhibiting drugs as potential future treatments for snakebite envenoming by Dispholidus typus. Toxicon: X. 2022 Mar 18;14:100118. doi: 10.1016/j.toxcx.2022.100118

Author

Menzies, Stefanie K ; Clare, Rachel H ; Xie, Chunfang et al. / In vitro and in vivo preclinical venom inhibition assays identify metalloproteinase inhibiting drugs as potential future treatments for snakebite envenoming by Dispholidus typus. In: Toxicon: X. 2022 ; Vol. 14. pp. 100118.

Bibtex

@article{a13b72e0e4054417856931342400ffb8,
title = "In vitro and in vivo preclinical venom inhibition assays identify metalloproteinase inhibiting drugs as potential future treatments for snakebite envenoming by Dispholidus typus",
abstract = "Snakebite envenoming affects more than 250,000 people annually in sub-Saharan Africa. Envenoming by Dispholidus typus (boomslang) results in venom-induced consumption coagulopathy (VICC), whereby highly abundant prothrombin-activating snake venom metalloproteinases (SVMPs) consume clotting factors and deplete fibrinogen. The only available treatment for D. typus envenoming is the monovalent SAIMR Boomslang antivenom. Treatment options are urgently required because this antivenom is often difficult to source and, at US$6000/vial, typically unaffordable for most snakebite patients. We therefore investigated the in vitro and in vivo preclinical efficacy of four SVMP inhibitors to neutralise the effects of D. typus venom; the matrix metalloproteinase inhibitors marimastat and prinomastat, and the metal chelators dimercaprol and DMPS. The venom of D. typus exhibited an SVMP-driven procoagulant phenotype in vitro. Marimastat and prinomastat demonstrated equipotent inhibition of the SVMP-mediated procoagulant activity of the venom in vitro, whereas dimercaprol and DMPS showed considerably lower potency. However, when tested in preclinical murine models of envenoming using mixed sex CD1 mice, DMPS and marimastat demonstrated partial protection against venom lethality, demonstrated by prolonged survival times of experimental animals, whereas dimercaprol and prinomastat failed to confer any protection at the doses tested. The preclinical results presented here demonstrate that DMPS and marimastat show potential as novel small molecule-based therapeutics for D. typus snakebite envenoming. These two drugs have been previously shown to be effective against Echis ocellatus VICC in preclinical models, and thus we conclude that marimastat and DMPS should be further explored as potentially valuable early intervention therapeutics to broadly treat VICC following snakebite envenoming in sub-Saharan Africa.",
author = "Menzies, {Stefanie K} and Clare, {Rachel H} and Chunfang Xie and Adam Westhorpe and Hall, {Steven R} and Edge, {Rebecca J} and Jaffer Alsolaiss and Edouard Crittenden and Marriott, {Amy E} and Harrison, {Robert A} and Jeroen Kool and Casewell, {Nicholas R}",
year = "2022",
month = mar,
day = "18",
doi = "10.1016/j.toxcx.2022.100118",
language = "English",
volume = "14",
pages = "100118",
journal = "Toxicon: X",
issn = "2590-1710",
publisher = "Elsevier Ltd",

}

RIS

TY - JOUR

T1 - In vitro and in vivo preclinical venom inhibition assays identify metalloproteinase inhibiting drugs as potential future treatments for snakebite envenoming by Dispholidus typus

AU - Menzies, Stefanie K

AU - Clare, Rachel H

AU - Xie, Chunfang

AU - Westhorpe, Adam

AU - Hall, Steven R

AU - Edge, Rebecca J

AU - Alsolaiss, Jaffer

AU - Crittenden, Edouard

AU - Marriott, Amy E

AU - Harrison, Robert A

AU - Kool, Jeroen

AU - Casewell, Nicholas R

PY - 2022/3/18

Y1 - 2022/3/18

N2 - Snakebite envenoming affects more than 250,000 people annually in sub-Saharan Africa. Envenoming by Dispholidus typus (boomslang) results in venom-induced consumption coagulopathy (VICC), whereby highly abundant prothrombin-activating snake venom metalloproteinases (SVMPs) consume clotting factors and deplete fibrinogen. The only available treatment for D. typus envenoming is the monovalent SAIMR Boomslang antivenom. Treatment options are urgently required because this antivenom is often difficult to source and, at US$6000/vial, typically unaffordable for most snakebite patients. We therefore investigated the in vitro and in vivo preclinical efficacy of four SVMP inhibitors to neutralise the effects of D. typus venom; the matrix metalloproteinase inhibitors marimastat and prinomastat, and the metal chelators dimercaprol and DMPS. The venom of D. typus exhibited an SVMP-driven procoagulant phenotype in vitro. Marimastat and prinomastat demonstrated equipotent inhibition of the SVMP-mediated procoagulant activity of the venom in vitro, whereas dimercaprol and DMPS showed considerably lower potency. However, when tested in preclinical murine models of envenoming using mixed sex CD1 mice, DMPS and marimastat demonstrated partial protection against venom lethality, demonstrated by prolonged survival times of experimental animals, whereas dimercaprol and prinomastat failed to confer any protection at the doses tested. The preclinical results presented here demonstrate that DMPS and marimastat show potential as novel small molecule-based therapeutics for D. typus snakebite envenoming. These two drugs have been previously shown to be effective against Echis ocellatus VICC in preclinical models, and thus we conclude that marimastat and DMPS should be further explored as potentially valuable early intervention therapeutics to broadly treat VICC following snakebite envenoming in sub-Saharan Africa.

AB - Snakebite envenoming affects more than 250,000 people annually in sub-Saharan Africa. Envenoming by Dispholidus typus (boomslang) results in venom-induced consumption coagulopathy (VICC), whereby highly abundant prothrombin-activating snake venom metalloproteinases (SVMPs) consume clotting factors and deplete fibrinogen. The only available treatment for D. typus envenoming is the monovalent SAIMR Boomslang antivenom. Treatment options are urgently required because this antivenom is often difficult to source and, at US$6000/vial, typically unaffordable for most snakebite patients. We therefore investigated the in vitro and in vivo preclinical efficacy of four SVMP inhibitors to neutralise the effects of D. typus venom; the matrix metalloproteinase inhibitors marimastat and prinomastat, and the metal chelators dimercaprol and DMPS. The venom of D. typus exhibited an SVMP-driven procoagulant phenotype in vitro. Marimastat and prinomastat demonstrated equipotent inhibition of the SVMP-mediated procoagulant activity of the venom in vitro, whereas dimercaprol and DMPS showed considerably lower potency. However, when tested in preclinical murine models of envenoming using mixed sex CD1 mice, DMPS and marimastat demonstrated partial protection against venom lethality, demonstrated by prolonged survival times of experimental animals, whereas dimercaprol and prinomastat failed to confer any protection at the doses tested. The preclinical results presented here demonstrate that DMPS and marimastat show potential as novel small molecule-based therapeutics for D. typus snakebite envenoming. These two drugs have been previously shown to be effective against Echis ocellatus VICC in preclinical models, and thus we conclude that marimastat and DMPS should be further explored as potentially valuable early intervention therapeutics to broadly treat VICC following snakebite envenoming in sub-Saharan Africa.

U2 - 10.1016/j.toxcx.2022.100118

DO - 10.1016/j.toxcx.2022.100118

M3 - Journal article

C2 - 35321116

VL - 14

SP - 100118

JO - Toxicon: X

JF - Toxicon: X

SN - 2590-1710

ER -