低温大气血浆抑制卵巢癌细胞活性,同时分泌影响单核细胞命运的热休克蛋白27

Q1 Medicine Clinical Plasma Medicine Pub Date : 2018-02-01 DOI:10.1016/j.cpme.2017.12.040
Matthias B. Stope , Dominique Koensgen , Can Wulff , Ilma Besic , Denis Gümbel , Anne Kaul , Martin Weiss , Karoline Diesing , Axel Kramer , Alexander Mustea , Sander Bekeschus
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引用次数: 0

摘要

卵巢癌是一种预后较差的妇科肿瘤。尽管进行了根治性细胞减少手术和以铂为基础的辅助全身治疗,大多数病例仍会复发。多项研究表明冷大气等离子体(CAP)具有较强的抗肿瘤活性。CAP是一种电离气体,主要通过释放多种活性氧和活性氮来调节其作用。CAP治疗OC细胞的证据很少,因此我们研究了暴露于血浆后的生物学反应。材料和方法我们检测了CAP和处理过CAP的培养基灭活OC细胞株的活性,并研究了CAP处理后OC细胞株的分泌产物。测定细胞增殖和细胞运动性。采用Western blotting和酶联免疫吸附试验(ELISA)检测HSP27的存在。将经血浆处理的OC细胞上清液加入人THP-1单核细胞系。细胞氧化、活力、生长、形态、表面标记物表达和细胞因子释放在4天内与未处理和血浆处理的癌细胞上清液培养中进行监测。结果scap处理导致OC细胞生长和运动减弱。用cap处理过的细胞培养基孵育也有类似的效果。结果在四种OC细胞系中一致。值得注意的是,CAP处理OC细胞导致细胞内HSP27降低,同时细胞培养上清中细胞外HSP27升高。这些上清液不会引起THP-1单核细胞的氧化或细胞生长钝化。细胞形态相当不受影响,而从筛选的12个细胞表面标记物中,两种(CD271和CD55)与未经处理的对照组相比,血浆处理的OC细胞上清液显著增加。单独使用HSP27可导致两种标志物的降低。同样,筛选THP-1释放的13种细胞因子揭示了许多靶标的差异调节,例如,与未处理的对照组相比,血浆处理样本中白细胞介素8的上调。结论血浆治疗对卵巢癌细胞系具有细胞毒性,对人单核细胞具有功能和表型影响。CAP诱导的细胞外HSP27的作用可能代表免疫调节机制,未来将对其进行更详细的描述。
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Cold Atmospheric Plasma Suppresses Ovarian Cancer Cell Activity With Concurrent Secretion Of Heat Shock Protein 27 Affecting Monocyte Fate

Background

Ovarian cancer (OC) is a gynecologic tumor with poor prognosis. Despite radical cytoreductive surgery and platinum-based adjuvant systemic treatment, OC relapses in the majority of the cases. Several studies have suggested profound antitumor activity of cold atmospheric plasma (CAP). CAP is an ionized gas that mainly mediates its effects via the release of a variety of reactive oxygen and nitrogen species. Evidence of CAP treatment on OC cells is scarce, and accordingly we investigated their biological responses following exposure to plasma.

Materials and Methods

We tested the activity of CAP and CAP-treated medium to inactivate OC cell lines, and investigated their secretory products following CAP treatment. Cell proliferation and cell motility was measured. The presence of HSP27 was measured by Western blotting and enzyme-linked immunosorbent assay (ELISA). Supernatants of plasma-treated OC cells were added to the human THP-1 monocytic cell line. Cellular oxidation, viability, growth, morphology, surface marker expression, and cytokine release were monitored over up to 4 days of culture with supernatants of untreated and plasma-treated cancer cells.

Results

CAP treatment led to an attenuation of OC cell growth and motility. Incubation with CAP-treated cell culture medium gave similar effects. Results were consistent in four OC cell lines. Notably, CAP treatment of OC cells led to a decrease of intracellular HSP27 accompanied by an increase of extracellular HSP27 in the cell culture supernatant. These supernatants did not cause oxidation or blunted cell growth in THP-1 monocytes. Cell morphology was rather unaffected whereas from 12 cell surface markers screened, two (CD271 and CD55) gave a significant increase in plasma-treated OC cell supernatants compared to untreated controls. HSP27 alone led to a decrease of both markers. Likewise, a screening of 13 cytokines release from THP-1 revealed a differential regulation of a number of targets, for example, an upregulation of interleukin 8 in plasma-treated samples compared to untreated controls.

Conclusion

Plasma treatment was cytotoxic in ovarian cancer cell lines with functional and phenotypical consequences in human monocytes. The role of extracellular HSP27 induced by CAP treatment may represent immunomodulating mechanisms, which will be characterized more detailed in future.

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Clinical Plasma Medicine
Clinical Plasma Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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