Cell cycle studies of murine leukemia cell L5l78Y by polarization effects of light scattering

Abstract

The structural changes during the life cycle of a synchronized population of mouse leukemia cell line L5l78Y have been described by polarized light scattering measurements. Exponentially growing cells were synchronized by an automatic excess thymidine-colcemid treatment technique. Samples were removed from the suspension culture and fixed with glutaraldehyde at hourly intervals throughout the life cycle. The effect these cell samples had in changing right-hand circularly polarized light to 45° linearly polarized light during the scattering process was measured at angles 6–l60° to the incident beam. The reproducibility of the light scattering signals for each time interval was statistically evaluated and found to have good intertrial correlation for each time period in the angular range 6–60° to the incident beam. Statistically significant changes were seen between cell samples during the synchronous life cycle. Therefore, the system developed has applications as an extremely sensitive measure of cell structure, and of structural changes caused by low-level chemical, physical or biological agents.