Burnt Plastic (Pyroplastic) from the M/V X-Press Pearl Ship Fire and Plastic Spill Contain Compounds That Activate Endocrine and Metabolism-Related Human and Fish Transcription Factors.

Environment & Health Pub Date : 2024-10-30 eCollection Date: 2025-01-17 DOI:10.1021/envhealth.4c00172

Bryan D James, Alexander V Medvedev, Lyubov A Medvedeva, Elena Martsen, Kristen L Gorman, Benjamin Lin, Sergei S Makarov, Lihini I Aluwihare, Asha de Vos, Christopher M Reddy, Mark E Hahn

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Abstract

In May 2021, the M/V X-Press Pearl ship fire disaster led to the largest maritime spill of resin pellets (nurdles) and burnt plastic (pyroplastic). Field samples collected from beaches in Sri Lanka nearest to the ship comprised nurdles and pieces of pyroplastic. Three years later, the toxicity of the spilled material remains unresolved. To begin understanding its potential toxicity, solvent extracts of the nurdles and pyroplastic were screened for their bioactivity by several Attagene FACTORIAL bioassays (TF, NR, and AquaTox), which measured the activity of a combined 70 human transcription factor response elements and nuclear receptors and 6 to 7 nuclear receptors for each of three phylogenetically distinct fish species. Extracts of the pyroplastics robustly activated end points for the human aryl hydrocarbon receptor (AhR), estrogen receptor (ER), pregnane X receptor (PXR), peroxisome proliferator-activated receptor (PPAR), retinoid X receptor (RXR), and oxidative stress (NRF2) and had the potential for activation of several others. The bioactivity profile of the pyroplastics was most similar (similarity score = 0.96) to that of probable human carcinogens benzo[b]fluoranthene and benzo[k]fluoranthene despite the extracts being a complex mixture of thousands of compounds. The activity diminished only slightly for extracts of pyroplastic collected eight months after the spill. The AquaTox FACTORIAL bioassay measured the activation of ERα, ERβ, androgen receptor (AR), PPARα, PPARγ, and RXRβ for human, zebrafish (Danio rerio), Japanese medaka (Oryzias latipes), and rainbow trout (Oncorhynchus mykiss), revealing species-specific sensitivities to the chemicals associated with the pyroplastics. These findings provide needed information to guide long-term monitoring efforts, make hazard assessments of the spilled material, and direct further research on pyroplastic, an emerging global contaminant.

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从M/V X-Press珍珠船火灾和塑料泄漏中燃烧的塑料（热塑）含有激活内分泌和代谢相关的人类和鱼类转录因子的化合物。

2021年5月，M/V X-Press Pearl船火灾导致最大的树脂颗粒（nurdle）和燃烧塑料（pyroplastic）海上泄漏。从离该船最近的斯里兰卡海滩采集的现场样本包含颗粒和热塑料碎片。三年后，泄漏物质的毒性仍未得到解决。为了开始了解其潜在的毒性，通过几种Attagene FACTORIAL生物测定法（TF、NR和AquaTox）筛选了纳米颗粒和热塑性塑料的溶剂提取物的生物活性，这些生物测定法测量了70种人类转录因子反应元件和核受体的活性，以及3种不同系统发育的鱼类的6至7种核受体的活性。热塑提取物对人类芳烃受体（AhR）、雌激素受体（ER）、孕烷X受体（PXR）、过氧化物酶体增殖体激活受体（PPAR）、类视黄酮X受体（RXR）和氧化应激（NRF2）的终点具有强大的激活作用，并且具有激活其他几种受体的潜力。热塑的生物活性谱与可能的人类致癌物苯并[b]荧光蒽和苯并[k]荧光蒽最为相似（相似性得分= 0.96），尽管其提取物是由数千种化合物组成的复杂混合物。在泄漏8个月后收集的热塑提取物中，活性仅略有下降。AquaTox FACTORIAL生物测定法测定了人、斑马鱼（Danio rerio）、日本medaka （Oryzias latipes）和虹鳟鱼（Oncorhynchus mykiss）中ERα、ERβ、雄激素受体（AR）、PPARα、PPARγ和RXRβ的激活，揭示了物种对与热塑相关的化学物质的特异性敏感性。这些发现为指导长期监测工作提供了必要的信息，对泄漏物质进行了危害评估，并指导了对热塑这一新兴的全球性污染物的进一步研究。

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来源期刊

Environment & Health 环境科学、健康科学-

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期刊介绍： Environment & Health a peer-reviewed open access journal is committed to exploring the relationship between the environment and human health.As a premier journal for multidisciplinary research Environment & Health reports the health consequences for individuals and communities of changing and hazardous environmental factors. In supporting the UN Sustainable Development Goals the journal aims to help formulate policies to create a healthier world.Topics of interest include but are not limited to:Air water and soil pollutionExposomicsEnvironmental epidemiologyInnovative analytical methodology and instrumentation (multi-omics non-target analysis effect-directed analysis high-throughput screening etc.)Environmental toxicology (endocrine disrupting effect neurotoxicity alternative toxicology computational toxicology epigenetic toxicology etc.)Environmental microbiology pathogen and environmental transmission mechanisms of diseasesEnvironmental modeling bioinformatics and artificial intelligenceEmerging contaminants (including plastics engineered nanomaterials etc.)Climate change and related health effectHealth impacts of energy evolution and carbon neutralizationFood and drinking water safetyOccupational exposure and medicineInnovations in environmental technologies for better healthPolicies and international relations concerned with environmental health