基于RNA干扰的治疗概念验证在体内靶向鲑鱼旋转病。

A RNAi-based therapeutic proof of concept targets salmonid whirling disease in vivo.

作者信息

Sarker Subhodeep, Menanteau-Ledouble Simon, Kotob Mohamed H, El-Matbouli Mansour

机构信息

Clinical Division of Fish Medicine, Department for Farm Animals and Veterinary Public Health, University of Veterinary Medicine Vienna, Vienna, Austria.

Discipline of Pharmacology, School of Medical Sciences, Sydney Medical School, The University of Sydney, Sydney, New South Wales, Australia.

出版信息

PLoS One. 2017 Jun 2;12(6):e0178687. doi: 10.1371/journal.pone.0178687. eCollection 2017.

DOI:10.1371/journal.pone.0178687

PMID:28575083

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5456292/

Abstract

Myxobolus cerebralis is a cnidarian-myxozoan parasite that causes salmonid whirling disease. M. cerebralis alternates between two hosts: (1) a vertebrate salmonid and (2) an invertebrate oligochaete, Tubifex tubifex. There is no successful treatment for salmonid whirling disease. MyxSP-1 is a M. cerebralis serine protease implicated in whirling disease pathogenesis. We hypothesized that short-interfering RNA (siRNA)-induced RNA interference (RNAi) can silence MyxSP-1 in the invertebrate host and abrogate the M. cerebralis life cycle. This would preclude whirling disease infection in the salmonid host. To test this hypothesis, we first developed a siRNA delivery protocol in T. tubifex. Second, we determined the effective dose for siRNA treatment of M. cerebralis-infected T. tubifex. M. cerebralis-infected T. tubifex were treated with different concentrations of MyxSP-1 or negative control siRNAs (1μM, 2μM, 5μM or 7μM) at 15°C for 24h, 48h, 72h and 96h, respectively. We monitored MyxSP-1 knockdown using real-time quantitative PCR (qPCR). siRNA treatment with MyxSP-1 siRNA at 2μM concentration for 24h at 15°C showed maximum significant MyxSP-1 knockdown in T. tubifex. Third, we determined the time points in the M. cerebralis life cycle in T. tubifex at which siRNA treatment was most effective. M. cerebralis-infected T. tubifex were treated with MyxSP-1 or negative control siRNAs (2μM concentration for 24h at 15°C) at 24 hours post-infection (24hpi), 48hpi, 72hpi, 96hpi, 1 month post-infection (1mpi), 2mpi and 3mpi, respectively. We observed that siRNA treatment of T. tubifex was most effective at 1mpi, 2mpi and 3mpi. Fourth, we immersed specific-pathogen-free rainbow trout fry in water inhabited by MyxSP-1 siRNA-treated T. tubifex (at 1mpi, 2mpi and 3mpi). The salmonids did not develop whirling disease and showed significant MyxSP-1 knockdown. We also observed long-term RNAi in T. tubifex. Together these results demonstrate a novel RNAi-based therapeutic proof of concept in vivo against salmonid whirling disease.

摘要

脑粘体虫是一种刺胞动物门粘孢子虫寄生虫，可引发鲑科鱼类的旋转病。脑粘体虫在两个宿主之间交替：（1）脊椎动物鲑科鱼类和（2）无脊椎动物颤蚓，即颤蚓属颤蚓。目前尚无治疗鲑科鱼类旋转病的有效方法。MyxSP-1是一种与旋转病发病机制有关的脑粘体虫丝氨酸蛋白酶。我们推测，短干扰RNA（siRNA）诱导的RNA干扰（RNAi）可使无脊椎动物宿主中的MyxSP-1沉默，并消除脑粘体虫的生命周期。这将防止鲑科鱼类宿主感染旋转病。为了验证这一假设，我们首先在颤蚓属颤蚓中开发了一种siRNA递送方案。其次，我们确定了用siRNA处理感染脑粘体虫的颤蚓属颤蚓的有效剂量。分别在15°C下，用不同浓度（1μM、2μM、5μM或7μM）的MyxSP-1或阴性对照siRNA处理感染脑粘体虫的颤蚓属颤蚓24小时、48小时、72小时和96小时。我们使用实时定量PCR（qPCR）监测MyxSP-1的敲低情况。在15°C下，用2μM浓度的MyxSP-1 siRNA处理24小时后，颤蚓属颤蚓中的MyxSP-1敲低最为显著。第三，我们确定了在颤蚓属颤蚓中脑粘体虫生命周期内siRNA处理最有效的时间点。分别在感染后24小时（24hpi）、48hpi、72hpi、96hpi、感染后1个月（1mpi）、2mpi和3mpi，用MyxSP-1或阴性对照siRNA（15°C下2μM浓度处理24小时）处理感染脑粘体虫的颤蚓属颤蚓。我们观察到，在1mpi、2mpi和3mpi时，对颤蚓属颤蚓进行siRNA处理最为有效。第四，我们将无特定病原体的虹鳟鱼苗浸入经MyxSP-1 siRNA处理的颤蚓属颤蚓（在1mpi、2mpi和3mpi时）栖息的水中。鲑科鱼类未患旋转病，且MyxSP-1显著敲低。我们还观察到颤蚓属颤蚓中存在长期RNAi。这些结果共同证明了一种基于RNAi的体内治疗鲑科鱼类旋转病的新的概念验证方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c43a/5456292/9101a914b80f/pone.0178687.g001.jpg

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基于RNA干扰的治疗概念验证在体内靶向鲑鱼旋转病。

A RNAi-based therapeutic proof of concept targets salmonid whirling disease in vivo.

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