Vibrational spectroscopies for biochemical investigation of X-ray exposure effects on SH-SY5Y human neuroblastoma cells.

IF 1.5 4区环境科学与生态学 Q3 BIOLOGY

Radiation and Environmental Biophysics Pub Date : 2023-08-01 DOI:10.1007/s00411-023-01035-2

Valerio Ricciardi, Maria Lasalvia, Giuseppe Perna, Marianna Portaccio, Ines Delfino, Maria Lepore, Vito Capozzi, Lorenzo Manti

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引用次数: 1

Abstract

Neuroblastoma is the most recurring cancer in childhood and adolescence. The SH-SY5Y neuroblastoma cell line is generally adopted for elaborating new therapeutical approaches and/or elaborating strategies for the prevention of central nervous system disturbances. In fact, it represents a valid model system for investigating in vitro the effects on the brain of X-ray exposure using vibrational spectroscopies that can detect early radiation-induced molecular alterations of potential clinical usefulness. In recent years, we dedicated significant efforts in the use of Fourier-transform and Raman microspectroscopy techniques for characterizing such radiation-induced effects on SH-SY5Y cells by examining the contributions from different cell components (DNA, proteins, lipids, and carbohydrates) to the vibrational spectra. In this review, we aim at revising and comparing the main results of our studies to provide a wide outlook of the latest outcomes and a framework for future radiobiology research using vibrational spectroscopies. A short description of our experimental approaches and data analysis procedures is also reported.

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x射线照射对SH-SY5Y人神经母细胞瘤细胞生化影响的振动光谱研究。

神经母细胞瘤是儿童和青少年最易复发的癌症。SH-SY5Y神经母细胞瘤细胞系通常用于制定新的治疗方法和/或制定预防中枢神经系统紊乱的策略。事实上，它代表了一个有效的模型系统，用于在体外研究x射线暴露对大脑的影响，使用振动光谱可以检测早期辐射诱导的潜在临床用途的分子改变。近年来，我们致力于利用傅里叶变换和拉曼微光谱技术，通过检测不同细胞成分(DNA、蛋白质、脂质和碳水化合物)对振动光谱的贡献，来表征SH-SY5Y细胞的辐射诱导效应。在本文中，我们旨在修订和比较我们的主要研究结果，以提供最新成果的广阔前景，并为未来利用振动光谱进行放射生物学研究提供一个框架。本文还简要介绍了我们的实验方法和数据分析过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Radiation and Environmental Biophysics 环境科学-核医学

CiteScore

4.00

自引率

5.90%

发文量

审稿时长

>36 weeks

期刊介绍： This journal is devoted to fundamental and applied issues in radiation research and biophysics. The topics may include: Biophysics of ionizing radiation: radiation physics and chemistry, radiation dosimetry, radiobiology, radioecology, biophysical foundations of medical applications of radiation, and radiation protection. Biological effects of radiation: experimental or theoretical work on molecular or cellular effects; relevance of biological effects for risk assessment; biological effects of medical applications of radiation; relevance of radiation for biosphere and in space; modelling of ecosystems; modelling of transport processes of substances in biotic systems. Risk assessment: epidemiological studies of cancer and non-cancer effects; quantification of risk including exposures to radiation and confounding factors Contributions to these topics may include theoretical-mathematical and experimental material, as well as description of new techniques relevant for the study of these issues. They can range from complex radiobiological phenomena to issues in health physics and environmental protection.