Toxin synergism in snake venoms

Laustsen, Andreas Hougaard

doi:10.1080/15569543.2016.1220397

Cited by 52 publications

(40 citation statements)

References 58 publications

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“…Interestingly, PPARγ activation results in cellular protection from NMDA toxicity. Given the known inhibitory effect of argiotoxins on NMDA receptors [Moe et al, 1998], this is striking and biologically plausible evidence for toxin synergism, where two or more venom components target multiple cellular structures with related functions in order to incite a more powerful response [Laustsen, 2016].…”

Section: Argiope Lobata Venom Versus Cardiopulmonary and Psychiatric mentioning

confidence: 99%

“…Even though most existing venom-derived drugs consist of a single component, crude venoms in nature use the synergistic effects of multiple components to cause specific phenotypic effects [Laustsen, 2016]. Therefore, testing each venom component individually using the where n is the number of components in the venom).…”

Section: Transitioning From Venoms To Venom Componentsmentioning

confidence: 99%

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Discovering venom-derived drug candidates using differential gene expression

Romano

Realubit

et al. 2019

Preprint

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Venoms are a diverse and complex group of natural toxins that have been adapted to treat many types of human disease, but rigorous informatics approaches for discovering new therapeutic activities are scarce. We have designed and validated a new platform-named VenomSeq-to systematically generate putative associations between venoms and drugs/diseases via high-throughput transcriptomics and perturbational differential gene expression analysis. In this study, we describe the architecture of VenomSeq, and its evaluation using the crude venoms from 25 diverse animal species. By integrating comparisons to public repositories of differential expression, associations between regulatory networks and disease, and existing knowledge of venom activity, we provide a number of new therapeutic hypotheses linking venoms to human diseases supported by multiple layers of preliminary evidence. We are currently performing validation experiments in vitro to corroborate these findings.

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Section: Argiope Lobata Venom Versus Cardiopulmonary and Psychiatric mentioning

confidence: 99%

Section: Transitioning From Venoms To Venom Componentsmentioning

confidence: 99%

Discovering venom-derived drug candidates using differential gene expression

Romano

Realubit

et al. 2019

Preprint

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“…As put by Laustsen, snake venom is likely to be the "most complex pharmaceutical target" known, composed of a multitude of toxin components and complex biochemical interactions [42]. Thus, SMT targets for inhibition should be, ideally, abundant across as many of the medically important snake species as possible.…”

Section: Venom Target Selectionmentioning

confidence: 99%

“…Continued research into the proteomic and toxicovenomic characterization of the most medically relevant venoms are crucial in order to have a more comprehensive understanding of drug and antivenom targeting in these species, as well as to understand the nature of therapeutic failures when they occur. The use of tools, such as the newly developed Toxicity Score, which combines the medical importance and the relative abundance of a specific toxin, can aid the identification of a target [41,42].…”

Section: Venom Target Selectionmentioning

confidence: 99%

“… Tested with both: o Minimum acceptable: Pre-mixing of venom and antidote prior to injection (ED50 determination) [27] o Ideal: Venom administration prior to administration of antidote [6,26,40] Broad Spectrum  Depending on target selection (ubiquity and medical importance of inhibitory target among snake species) [41,42] Heat Stable  Real-time stability studies up to 30 °C (±2 °C) and relative humidity of 75% (±5%) (WHO "Climatic Zone IVb") [ …”

Section: Efficacy (In Vivo)mentioning

confidence: 99%

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Small Molecule Therapeutics for the Initial and Adjunctive Treatment of Snakebite

Bulfone¹,

Samuel²,

Bickler³

et al. 2018

Preprint

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Abstract:The World Health Organization (WHO) recently added snakebite envenoming to the priority list of Neglected Tropical Diseases (NTD). It is thought that ~75% of mortality following snakebite occurs outside the hospital setting, making the temporal gap between a bite and antivenom administration a major therapeutic challenge. Small molecule therapeutics (SMTs) have been proposed as potential pre-referral treatments for snakebite to help address this gap. Herein, we discuss the characteristics, potential uses and development of SMTs as potential treatments for snakebite envenomation. We focus on SMTs that are secretory phospholipase A2 (sPLA2) inhibitors and metalloprotease (MP) inhibitors.

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Indian Spectacled Cobra (Naja naja)

Mukherjee

2021

The 'Big Four’ Snakes of India

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Toxin synergism in snake venoms

Cited by 52 publications

References 58 publications

Discovering venom-derived drug candidates using differential gene expression

Discovering venom-derived drug candidates using differential gene expression

Small Molecule Therapeutics for the Initial and Adjunctive Treatment of Snakebite

Indian Spectacled Cobra (Naja naja)

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