A method for spatially resolved local intracellular mechanochemical sensing and organelle manipulation.
Publication year
2012Source
Biophysical Journal, 103, 3, (2012), pp. 395-404ISSN
Publication type
Article / Letter to editor
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Organization
Tumorimmunology
Journal title
Biophysical Journal
Volume
vol. 103
Issue
iss. 3
Page start
p. 395
Page end
p. 404
Subject
NCMLS 2: Immune Regulation; ONCOL 3: Translational research NCMLS 2: Immune RegulationAbstract
Because both the chemical and mechanical properties of living cells play crucial functional roles, there is a strong need for biophysical methods to address these properties simultaneously. Here we present a novel (to our knowledge) approach to measure local intracellular micromechanical and chemical properties using a hybrid magnetic chemical biosensor. We coupled a fluorescent dye, which serves as a chemical sensor, to a magnetic particle that is used for measurement of the viscoelastic environment by studying the response of the particle to magnetic force pulses. As a demonstration of the potential of this approach, we applied the method to study the process of phagocytosis, wherein cytoskeletal reorganization occurs in parallel with acidification of the phagosome. During this process, we measured the shear modulus and viscosity of the phagosomal environment concurrently with the phagosomal pH. We found that it is possible to manipulate phagocytosis by stalling the centripetal movement of the phagosome using magnetic force. Our results suggest that preventing centripetal phagosomal transport delays the onset of acidification. To our knowledge, this is the first report of manipulation of intracellular phagosomal transport without interfering with the underlying motor proteins or cytoskeletal network through biochemical methods.
This item appears in the following Collection(s)
- Academic publications [246764]
- Faculty of Medical Sciences [93461]
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