Lack of Evidence for Low-LET Radiation Induced Bystander Response in Normal Human Fibroblasts and Colon Carcinoma Cells

Overview

Journal Int J Radiat Biol

Specialty Radiology

Date 2010 Feb 13

PMID 20148696

Citations 24

Authors

Marianne B Sowa

Wilfried Goetz

Janet E Baulch

Dinah N Pyles

Jaroslaw Dziegielewski

Susannah Yovino

Andrew R Snyder

Sonia M de Toledo

Edouard I Azzam

William F Morgan

Affiliations

Soon will be listed here.

Abstract

Purpose: To investigate radiation-induced bystander responses and to determine the role of gap junction intercellular communication and the radiation environment in propagating this response.

Materials And Methods: We used medium transfer and targeted irradiation to examine radiation-induced bystander effects in primary human fibroblast (AG01522) and human colon carcinoma (RKO36) cells. We examined the effect of variables such as gap junction intercellular communication, linear energy transfer (LET), and the role of the radiation environment in non-targeted responses. Endpoints included clonogenic survival, micronucleus formation and foci formation at histone 2AX over doses ranging from 10-100 cGy.

Results: The results showed no evidence of a low-LET radiation-induced bystander response for the endpoints of clonogenic survival and induction of DNA damage. Nor did we see evidence of a high-LET, Fe ion radiation (1 GeV/n) induced bystander effect. However, direct comparison for 3.2 MeV alpha-particle exposures showed a statistically significant medium transfer bystander effect for this high-LET radiation.

Conclusions: From our results, it is evident that there are many confounding factors influencing bystander responses as reported in the literature. Our observations reflect the inherent variability in biological systems and the difficulties in extrapolating from in vitro models to radiation risks in humans.

Citing Articles

The Response of Living Organisms to Low Radiation Environment and Its Implications in Radiation Protection.

Belli M, Indovina L Front Public Health. 2021; 8:601711.

PMID: 33384980 PMC: 7770185. DOI: 10.3389/fpubh.2020.601711.

Ionizing Radiation-Induced Epigenetic Modifications and Their Relevance to Radiation Protection.

Belli M, Tabocchini M Int J Mol Sci. 2020; 21(17).

PMID: 32825382 PMC: 7503247. DOI: 10.3390/ijms21175993.

Response to the Commentary from Bevelacqua et al.

Limoli C, Britten R, Baulch J, Borak T eNeuro. 2019; 7(1).

PMID: 31857345 PMC: 7031857. DOI: 10.1523/ENEURO.0439-19.2019.

Saving normal tissues - a goal for the ages.

Groves A, Williams J Int J Radiat Biol. 2019; 95(7):920-935.

PMID: 30822213 PMC: 7183326. DOI: 10.1080/09553002.2019.1589654.

Genomic instability induced in distant progeny of bystander cells depends on the connexins expressed in the irradiated cells.

de Toledo S, Buonanno M, Harris A, Azzam E Int J Radiat Biol. 2017; 93(10):1182-1194.

PMID: 28565963 PMC: 9233304. DOI: 10.1080/09553002.2017.1334980.