Brillouin microscopy monitors rapid responses in subcellular compartments

Author:

Coker Zachary N.,Troyanova-Wood Maria,Steelman Zachary A.,Ibey Bennett L.,Bixler Joel N.,Scully Marlan O.,Yakovlev Vladislav V.ORCID

Abstract

AbstractMeasurements and imaging of the mechanical response of biological cells are critical for understanding the mechanisms of many diseases, and for fundamental studies of energy, signal and force transduction. The recent emergence of Brillouin microscopy as a powerful non-contact, label-free way to non-invasively and non-destructively assess local viscoelastic properties provides an opportunity to expand the scope of biomechanical research to the sub-cellular level. Brillouin spectroscopy has recently been validated through static measurements of cell viscoelastic properties, however, fast (sub-second) measurements of sub-cellular cytomechanical changes have yet to be reported. In this report, we utilize a custom multimodal spectroscopy system to monitor for the very first time the rapid viscoelastic response of cells and subcellular structures to a short-duration electrical impulse. The cytomechanical response of three subcellular structures - cytoplasm, nucleoplasm, and nucleoli - were monitored, showing distinct mechanical changes despite an identical stimulus. Through this pioneering transformative study, we demonstrate the capability of Brillouin spectroscopy to measure rapid, real-time biomechanical changes within distinct subcellular compartments. Our results support the promising future of Brillouin spectroscopy within the broad scope of cellular biomechanics.

Funder

Air Force Office of Scientific Research

Office of Naval Research

Welch Foundation

National Institutes of Health

Biomedical Advanced Research and Development Authority

U.S. Air Force

Publisher

Springer Science and Business Media LLC

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