Protein derived from tick saliva proves effective in the treatment of equine skin cancer

A protein derived from the saliva of the tick Amblyomma sculptum has been successfully used by researchers at the Butantan Institute in São Paulo, Brazil, to treat skin cancer (melanoma) in horses. The results of the study are

described

in the journal

Scientific Reports

.

The principal investigator for the project is

Ana Marisa Chudzinski-Tavassi

, who leads the Center of Excellence in New Target Discovery (

CENTD

), an Engineering Research Center (

ERC

) established at the Butantan Institute by São Paulo Research Foundation – FAPESP and GlaxoSmithKline.

CENTD’s mission is to discover and validate molecular targets to treat inflammatory diseases for the purpose of developing new drugs.

The protein is Amblyomin-X, which has been studied at the Butantan Institute for more than ten years and evidences significant antitumor potential in the laboratory and in vivo and has already been approved in preclinical toxicity testing.

The researchers used “omics” tools (genomics, transcriptomics, proteomics and metabolomics) to analyze the signaling pathways and proteins affected by the treatment of horse melanoma with Amblyomin-X.


Roger Chammas

, a researcher at the São Paulo State Cancer Institute (ICESP), collaborated with CENTD scientists on the project.

Immune mechanisms

Equine melanomas are spontaneous tumors. Unlike cutaneous melanomas in humans, in horses, they are encapsulated and locally confined, rarely giving rise to metastasis. However, in both humans and horses, these tumors are potentially immunogenic, i.e., capable of producing an immune response, and can serve as a model for the investigation of the immune mechanisms involved in tumor regression induced by therapeutic molecules.

In the first phase of the study, spontaneous tumors in five horses were treated for 30 days with intratumoral injections of Amblyomin-X. The treatment took place at the Butantan Institute’s farm in Araçariguama, state of São Paulo. The animals were monitored throughout the period by means of clinical examinations, blood work, and biochemical laboratory tests.

The results were promising. Control tumors (not treated with the compound) maintained their shape and grew in size, whereas tumors treated with Amblyomin-X shrank and, in some cases, even reached remission up to two months after the treatment ended.

None of the five treated animals developed any adverse reactions. At the end of the treatment, the tumors were surgically removed for histopathological analysis. The researchers found no trace of tumoral characteristics.

The second phase of the study consisted of experiments in transcriptomics (analyzing messenger RNA expression) and interactomics (analyzing the interaction between tumor cell proteins and Amblyomin-X) to see how signaling pathways were modulated by the treatment and, especially, to obtain molecular confirmation of previous findings from in vitro and in vivo experiments conducted by Chudzinski-Tavassi and her team. The results published by the group between 2010 and 2017 suggested that the antitumor action of Amblyomin-X occurred via the modulation of the endoplasmic reticulum and mitochondrial stress and apoptotic and proteasomic pathways, among others.

The transcriptome study was expected to confirm activation of these pathways and show whether others were affected by the treatment. The researchers also deployed next-generation sequencing and analysis based on bioinformatics and systems biology to map the initial mechanisms of the response triggered by Amblyomin-X, which culminated in tumor regression.

Among the findings of the transcriptomic analysis was the discovery that the innate immune system’s rapid response (six hours after the injections) involved the modulation of four different pathways: TLR (toll-like receptor), RIG-I (viral invasion sensors), OAS (2′,5′- oligoadenylate synthetase and RNase L) and oncostatin-M (corresponding to the interleukin-6 family inflammation pathway). These findings described the first steps in the activation of a defense response that culminated in tumor regression, pointing to potential candidate targets for adjuvant therapies against tumors.

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This part of information is sourced from https://www.eurekalert.org/pub_releases/2020-06/fda-pdf062920.php

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