利用蛇毒成分研制癌症疫苗可能性的初步探讨

K. Wong, D. Sexton, Alireza Mosavi Jarrahi, S. Hasson
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引用次数: 0

摘要

癌症是一个全球性的健康问题,仍然是世界范围内死亡的主要原因,到目前为止,到2020年,该疾病已造成1000万人死亡。虽然有治疗某些癌症和挽救生命的方法,但这些治疗方法确实有缺点,并可能导致副作用。虽然过去已经发现了使用天然产品的各种抗癌疗法,但没有一种进入临床试验。科学家们仍在动物产品中寻找替代药物。最近,蛇毒因其抗癌作用而受到关注。目的:因此,本研究旨在解决被毒蛇咬伤的人也可能产生预防癌症的理论可能性,即自然免疫。蛇毒是否可以用作疫苗,因为它们与潜在的癌症抗原相似。方法:将蛇毒潜在成分的氨基酸序列数据与不同的肿瘤抗原相关联,进行免疫信息学分析。结果:最初,我们的研究结果表明,虽然发达国家的蛇咬伤率很低,但它们的癌症发病率也很高,而发展中国家的蛇咬伤率很高,但癌症发病率很低。从免疫信息学的角度来看,十种癌症抗原与五种蛇毒成分有各种相似之处。虽然氨基酸序列比对显示相似度低于40%,但抗原性指数得分较高。我们预测,在蛇咬伤受害者中激活的免疫系统可能会引发针对癌细胞上表达的类似表位的免疫反应。因此,被蛇咬伤的人可能会获得对癌症的天然免疫力。结论:本研究报告了非致命性蛇咬伤可能在保护个体免受未来癌症发展方面发挥重要作用。虽然这是一项试点研究,但这样的概念和发现将为未来的工作打开大门,以解决这一发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Preliminary Investigation on the Possibility of Developing a Cancer Vaccine Using Snake Venom Components
Cancer is a global health concern and is still the leading cause of death worldwide, with 10 million deaths caused, so far, by the disease in 2020. Although there are treatments to treat some cancers and save lives, these treatments do have drawbacks and can cause side effects. Although various anticancer remedies have been discovered using natural products in the past, none of them went into clinical trials. Scientists still looking for alternative agents, within animal products. Recently venom is gaining attention for its anticancer activities. Objective: The present study, therefore, aimed to address the theoretical possibility that people bitten by venomous snakes may also develop prophylaxis, i.e., natural immunity, against cancer. And whether snake venom can be used as a vaccine due to their similarities with potential cancer antigens or not. Method: An immunoinformatic analysis was performed by correlating potential snake venom components’ amino sequence data with different cancer antigens. Results: Initially, our findings showed that while developed countries have low snakebite rates, they also demonstrated high cancer rates, in contrast to that developing countries, where they have high snakebite rates but low cancer rates. In terms of the immunoinformatic approach, ten cancer antigens have various similarities with five snake venom components. While the amino acid sequence alignment demonstrates similarities below 40%, the antigenicity index scores were found to be high. We predict that an immune system activated in snakebite victims may elicit an immune response against similar epitopes expressed on cancer cells. Hence, victims of snake bites may gain natural immunity against cancer. Conclusion: This study reports that non-lethal snakebites may play a vital role in protecting individuals from developing cancer in the future. Although it is a pilot study, such a concept and findings will open doors for future work to address this finding.
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