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利用血淋巴和环境DNA调查鉴定普吉特海湾软壳蛤()中双壳贝类可传播肿瘤的暴发情况。

Identification of an Outbreak of Bivalve Transmissible Neoplasia in Soft-Shell Clams () in the Puget Sound Using Hemolymph and eDNA Surveys.

作者信息

Weinandt Sydney A, Child Zachary J, Lartey Dorothy, Santos Angel, Maxfield Holden, Sevigny Jordana K, Garrett Fiona E S, Smith Peter D, Giersch Rachael M, Hart Samuel F M, Perez Franchesca, Rabins Lucas, Kaiser Samuel, Boyar Anna, Newton Jan, Kerr Jesse, Dimond James L, Metzger Michael J

机构信息

Pacific Northwest Research Institute, Seattle, Washington, USA.

University of Washington, Seattle, Washington. USA.

出版信息

bioRxiv. 2024 Dec 7:2024.12.03.626659. doi: 10.1101/2024.12.03.626659.

DOI:10.1101/2024.12.03.626659
PMID:39677800
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11642872/
Abstract

Bivalve transmissible neoplasia (BTN) is one of three known types of naturally transmissible cancer-cancers in which the whole cancer cells move from individual to individual, spreading through natural populations. BTN is a lethal leukemia-like cancer that has been observed throughout soft-shell clam () populations on the east coast of North America, with two distinct sublineages circulating at low enzootic levels in New England, USA, and Prince Edward Island, Canada. Major cancer outbreaks likely due to BTN (MarBTN) were reported in 1980s and the 2000s and the disease has been observed since the 1970s, but it has not been observed in populations of this clam species on the US west coast. In 2022, we collected soft-shell clams from several sites in Puget Sound, Washington, USA, and unexpectedly found high prevalence of BTN in two sites (Triangle Cove on Camano Island and near Stanwood in South Skagit Bay). Prevalence of BTN increased in subsequent years, reaching >75% in both sites in 2024, while it was not observed in other sites, suggesting the early stages of a severe disease outbreak following recent introduction. We observed that these cancer cells contain several somatic transposing insertion sites found only in the USA-sublineage of MarBTN, showing that it likely was recently transplanted from New England to this location. We then developed a sensitive environmental DNA (eDNA) assay, using qPCR to target somatic mutations in the MarBTN mitogenome, and showed that MarBTN can be detected in seawater at Triangle Cove, as well as several kilometers outside of the cove. We then used this assay to survey 50 sites throughout Puget Sound, confirming that the disease can be detected at high levels at Triangle Cove and South Skagit Bay, and showing that it extends beyond these known sites. However, while normal soft-shell clam mtDNA was widely detected, MarBTN was undetectable throughout most of Puget Sound and currently remains limited to the South Skagit Bay area and north Port Susan. These results identify a previously unknown severe outbreak of a transmissible cancer due to long-distance transplantation of disease from another ocean, and they demonstrate the utility of eDNA methods to track the spread of BTN through the environment.

摘要

双壳贝类可传播肿瘤(BTN)是已知的三种自然可传播癌症之一——在这类癌症中,整个癌细胞会在个体之间移动,在自然种群中传播。BTN是一种致命的白血病样癌症,在北美东海岸的软壳蛤()种群中均有发现,在美国新英格兰地区和加拿大爱德华王子岛,有两个不同的亚谱系以低流行水平传播。20世纪80年代和21世纪初报告了可能由BTN引起的重大癌症疫情(MarBTN),自20世纪70年代以来就观察到了这种疾病,但在美国西海岸的这种蛤类种群中尚未观察到。2022年,我们从美国华盛顿州普吉特海湾的几个地点采集了软壳蛤,意外地发现两个地点(卡马诺岛的三角湾和斯卡吉特湾南部斯坦伍德附近)的BTN患病率很高。BTN的患病率在随后几年有所上升,2024年两个地点的患病率均超过75%,而在其他地点未观察到,这表明最近疾病传入后正处于严重疫情爆发的早期阶段。我们观察到这些癌细胞含有几个仅在MarBTN的美国亚谱系中发现的体细胞转座插入位点,表明它可能是最近从新英格兰移植到这个地点的。然后,我们开发了一种灵敏的环境DNA(eDNA)检测方法,使用定量聚合酶链反应(qPCR)靶向MarBTN线粒体基因组中的体细胞突变,并表明在三角湾的海水中以及海湾外几公里处都可以检测到MarBTN。然后,我们使用这种检测方法对普吉特海湾的50个地点进行了调查,证实该疾病在三角湾和斯卡吉特湾南部可以高水平检测到,并表明其范围超出了这些已知地点。然而,虽然正常软壳蛤的线粒体DNA被广泛检测到,但在普吉特海湾的大部分地区都检测不到MarBTN,目前它仍然局限于斯卡吉特湾南部地区和苏珊港北部。这些结果确定了一种由于疾病从另一个海域远距离移植而导致的此前未知的可传播癌症的严重爆发,并证明了eDNA方法在追踪BTN在环境中传播方面的实用性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6aab/11642872/f6ba7e66ce4a/nihpp-2024.12.03.626659v1-f0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6aab/11642872/4c9dae7b570f/nihpp-2024.12.03.626659v1-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6aab/11642872/2a5a1a76e982/nihpp-2024.12.03.626659v1-f0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6aab/11642872/9dea91539c59/nihpp-2024.12.03.626659v1-f0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6aab/11642872/f6ba7e66ce4a/nihpp-2024.12.03.626659v1-f0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6aab/11642872/4c9dae7b570f/nihpp-2024.12.03.626659v1-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6aab/11642872/2a5a1a76e982/nihpp-2024.12.03.626659v1-f0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6aab/11642872/9dea91539c59/nihpp-2024.12.03.626659v1-f0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6aab/11642872/f6ba7e66ce4a/nihpp-2024.12.03.626659v1-f0004.jpg

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