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Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Human Health Effects Marine & Wildlife Nanoplastics Remediation Sign in to save

The Complex Toxicity of Tetracycline with Polystyrene Spheres on Gastric Cancer Cells

International Journal of Environmental Research and Public Health 2020 47 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Chengyong Li Lei He, Chengyong Li Lei He, Lei He, Lei He, Lei He, Xiemin Yan, Xiemin Yan, Lei He, Lei He, Jinjun Chen, Lei He, Lei He, Lei He, Lei He, Lei He, Chengyong Li Xiemin Yan, Lei He, Junhao Qu, Yueqin Zhang, Yuanyuan Zhang, Xiemin Yan, Lei He, Junhao Qu, Lei He, Yueqin Zhang, Lei He, Lei He, Lei He, Lei Ren, Lei He, Chengyong Li Lei He, Yuqin Lu, Lei He, Yuqin Lu, Lei He, Lei He, Lei He, Lei He, Lei He, Lei He, Jinjun Chen, Lei He, Lei He, Chunxia Zhou, Lei He, Chunxia Zhou, Shengli Sun, Shengli Sun, Chunxia Zhou, Chunxia Zhou, Lei He, Pengzhi Hong, Lei He, Chengyong Li Junhao Qu, Junhao Qu, Chunxia Zhou, Chunxia Zhou, Chunxia Zhou, Pengzhi Hong, Pengzhi Hong, Pengzhi Hong, Lei He, Lei Ren, Yueqin Zhang, Yan‐Qiu Liang, Yan‐Qiu Liang, Chunxia Zhou, Hui Zhao, Junhao Qu, Lei He, Pengzhi Hong, Chengyong Li Junhao Qu, Yan‐Qiu Liang, Yueqin Zhang, Chengyong Li Chengyong Li Yueqin Zhang, Yueqin Zhang, Lei Ren, Shengli Sun, Shengli Sun, Shengli Sun, Shengli Sun, Shengli Sun, Chunxia Zhou, Pengzhi Hong, Pengzhi Hong, Pengzhi Hong, Yuqin Lu, Yueqin Zhang, Yueqin Zhang, Yuqin Lu, Shengli Sun, Yueqin Zhang, Yueqin Zhang, Chengyong Li Chengyong Li Chengyong Li Yueqin Zhang, Chengyong Li Yueqin Zhang, Pengzhi Hong, Yan‐Qiu Liang, Pengzhi Hong, Lei He, Chengyong Li Pengzhi Hong, Chengyong Li Chengyong Li Chengyong Li Shengli Sun, Shengli Sun, Shengli Sun, Shengli Sun, Chengyong Li Lei Ren, Shengli Sun, Shengli Sun, Shengli Sun, Chunxia Zhou, Lei He, Chunxia Zhou, Chengyong Li Chunxia Zhou, Chengyong Li Chengyong Li Chengyong Li Chengyong Li Chengyong Li Pengzhi Hong, Chengyong Li Chengyong Li Hui Zhao, Yan‐Qiu Liang, Yan‐Qiu Liang, Lei He, Lei Ren, Chengyong Li Yan‐Qiu Liang, Chunxia Zhou, Yan‐Qiu Liang, Jinjun Chen, Chengyong Li Lei Ren, Pengzhi Hong, Chengyong Li Yueqin Zhang, Yan‐Qiu Liang, Yueqin Zhang, Lei Ren, Chengyong Li Pengzhi Hong, Pengzhi Hong, Chengyong Li Chengyong Li Shengli Sun, Yueqin Zhang, Chengyong Li Yueqin Zhang, Shengli Sun, Chunxia Zhou, Shengli Sun, Jinjun Chen, Chengyong Li Yueqin Zhang, Pengzhi Hong, Chengyong Li Lei Ren, Lei Ren, Chengyong Li Yueqin Zhang, Chengyong Li Yueqin Zhang, Pengzhi Hong, Chengyong Li Chengyong Li Yueqin Zhang, Shengli Sun, Jinjun Chen, Jinjun Chen, Chengyong Li Jinjun Chen, Chengyong Li Shengli Sun, Chengyong Li Chengyong Li Lei Ren, Yan‐Qiu Liang, Yueqin Zhang, Yueqin Zhang, Chengyong Li

Summary

Polystyrene nanoplastics and microplastics adsorbed the antibiotic tetracycline, and both the plastics alone and the plastic-tetracycline complexes caused oxidative stress, DNA damage, and cell death in gastric cancer cells, with nanoplastics being more toxic than microplastics. The combined toxicity of antibiotic-loaded nanoplastics warrants attention given the growing co-occurrence of plastics and pharmaceuticals in aquatic environments.

Polymers
PS
Body Systems
Digestive

Nowadays, microplastics (MPs) exist widely in the marine. The surface has strong adsorption capacity for antibiotics in natural environments, and the cytotoxicity of complex are poorly understood. In the study, 500 nm polystyrene (PS-MPs) and 60 nm nanoplastics (PS-NPs) were synthesized. The adsorption of PS to tetracycline (TC) was studied and their toxicity to gastric cancer cells (AGS) was researched. The adsorption experimental results show that PS absorbing capacity increased with increasing TC concentrations. The defense mechanism results show that 60 nm PS-NPs, 500 nm PS-MPs and their complex induce different damage to AGS cells. Furthermore, 600 mg/L PS-NPs and PS-MPs decline cell viability, induce oxidation stress and cause apoptosis. There is more serious damage of 60 nm PS-NPs than 500 nm PS-MPs in cell viability and intracellular reactive oxygen species (ROS). DNA are also damaged by 60 nm PS-NPs and PS-TC NPs, 500 nm PS-MPs and PS-TC MPs, and 60 nm PS-NPs damage DNA more serious than 500 nm PS-MPs. Moreover, 60 nm PS-NPs and PS-TC NPs seem to promote bcl-2 associated X protein (Bax) overexpression. All treatments provided us with evidence on how PS-NPs, PS-MPs and their compounds damaged AGS cells.

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