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A synthetic biology approach for a new antidote to coral snake venom

Date:
March 3, 2016
Source:
PLOS
Summary:
Coral snake venom carries significant neurotoxicity and human injuries can be severe or even lethal. Despite this, antivenom treatments are scarce due to challenges collecting adequate amounts of venom needed to produce anti-elapidic serum. Exciting new research uses synthetically designed DNA to produce coral-snake antivenom.
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Coral snake venom carries significant neurotoxicity and human injuries can be severe or even lethal. Despite this, antivenom treatments are scarce due to challenges collecting adequate amounts of venom needed to produce anti-elapidic serum. PLOS Neglected Tropical Diseases highlights exciting new research from the Butantan Institute in Brazil using synthetically designed DNA to produce coral-snake antivenom.

Currently, coral snake antivenom is produced by immunizing horses with the venom and collecting the anti-elapidic serum produced. Despite its high toxicity, venom yield from coral snakes is very low, and the snakes are difficult to keep in captivity. Since 2003, the only FDA-approved coral snake antivenom has been discontinued, leading to patients being hospitalized for treatment while the effects of the venom wear off. A new approach is therefore urgently needed to produce antivenom more efficiently and cheaply.

The researchers identified 5 toxins within the snake venom and used a technique called SPOT-synthesis to identify the sections of the toxin (epitopes) that are recognized by coral snake antivenom antibodies. They then designed two DNA strings that coded for these epitopes and used them to genetically immunize different groups of mice.

The serum collected from the animals, which contained antibodies to the five toxins, was then tested for antivenom capabilities -- by mixing with coral snake venom before being administered to healthy mice -- and was found to neutralize venom by 40%. To improve on this result, the researchers used recombinant DNA techniques to generate purified recombinant proteins from the designed multiepitope DNA strings, and gave the mice a series of protein booster shots to increase their immune response. This approach resulted in a final serum with 60% neutralization against coral snake venom.

Although the ideal of 100% neutralization was not met, this approach is a fascinating new response to the challenge of reducing stocks of coral snake antivenom. The use of synthetic DNA bypasses the need to capture and keep snakes, a difficult and expensive process. "The fact that a neutralization of 100% could not be observed does not disqualify this approach as a promising alternative method for the development of an anti-elapidic antiserum," explains Dr Ramos, former postdoctoral fellow at Butantan Institute. "It is worth noting that all the neutralization capabilities observed in this work were, as expected, intimately related to the antibody titres." Techniques to increase the yield of antibodies are likely to lead to even higher neutralization rates, producing a much-needed readily available source of coral snake antivenom.


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Journal Reference:

  1. Henrique Roman Ramos, Inácio de Loiola M. Junqueira-de-Azevedo, Juliana Branco Novo, Karen Castro, Clara Guerra Duarte, Ricardo A. Machado-de-Ávila, Carlos Chavez-Olortegui, Paulo Lee Ho. A Heterologous Multiepitope DNA Prime/Recombinant Protein Boost Immunisation Strategy for the Development of an Antiserum against Micrurus corallinus (Coral Snake) Venom. PLOS Neglected Tropical Diseases, 2016; 10 (3): e0004484 DOI: 10.1371/journal.pntd.0004484

Cite This Page:

PLOS. "A synthetic biology approach for a new antidote to coral snake venom." ScienceDaily. ScienceDaily, 3 March 2016. <www.sciencedaily.com/releases/2016/03/160303145916.htm>.
PLOS. (2016, March 3). A synthetic biology approach for a new antidote to coral snake venom. ScienceDaily. Retrieved May 24, 2017 from www.sciencedaily.com/releases/2016/03/160303145916.htm
PLOS. "A synthetic biology approach for a new antidote to coral snake venom." ScienceDaily. www.sciencedaily.com/releases/2016/03/160303145916.htm (accessed May 24, 2017).

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