Ultrasonic Activation of the Sonosensitizer Fimaporfin Enhances the Efficacy of Chemotherapy: An In Vitro Study on Rat Glioma Cells

Clinical Oncology and Research Pub Date : 2020-05-29 DOI:10.31487/j.cor.2020.05.10

A. Høgset, H. Hirschberg, Jimmy N. Le, K. Berg, O. Gederaas, S. Madsen

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Abstract

Activation of sonosensitizers via focused ultrasound, i.e., sonodynamic therapy, has been proposed as an alternative to light-activated photodynamic therapy for the treatment of a number of conditions from cancer to bacterial infections. The use of focused ultrasound allows treatment to sites buried deep within tissues, overcoming one of the main limitations of light-based modalities. Photochemical internalization is a technique that utilizes the photochemical properties of photodynamic therapy for the release of trapped endo-lysosomal macromolecules into the cell cytoplasm, greatly enhancing their efficacy. We have examined ultrasonic activation of disulfonated tetraphenyl chlorin (fimaporfin) together with the anti-cancer agent bleomycin, termed sonochemical internalization, as an alternative to light-activated photochemical internalization. Our results indicate that, compared to drug or focused ultrasound treatment alone, focused ultrasound activation of fimaporfin together with BLM significantly inhibits the viability of glioma monolayers and the treated cells’ ability to form clonogenic colonies.

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超声激活声敏剂菲马波芬提高化疗疗效:对大鼠胶质瘤细胞的体外研究

通过聚焦超声激活声敏剂，即声动力疗法，已被提出作为光激活光动力疗法的替代方案，用于治疗从癌症到细菌感染的许多疾病。聚焦超声的使用可以对组织深处的部位进行治疗，克服了光基模式的主要局限性之一。光化学内化是利用光动力疗法的光化学特性，将被困的溶酶体大分子释放到细胞质中，从而大大提高其疗效的一种技术。我们研究了二磺化四苯基氯(芬马波芬)和抗癌剂博来霉素的超声活化，称为声化学内化，作为光活化光化学内化的替代方法。我们的研究结果表明，与单独的药物或聚焦超声治疗相比，聚焦超声激活芬马波芬和BLM显著抑制胶质瘤单分子层的活力和处理细胞形成克隆菌落的能力。

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Clinical Oncology and Research

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