Difference between revisions of "Team:Slovenia/Mechanosensing/Overview"

 
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                             <h3 class="ui left dividing header"><span id="over" class="section colorize">&nbsp;</span>Summary of
 
                             <h3 class="ui left dividing header"><span id="over" class="section colorize">&nbsp;</span>Summary of
                                 the main results of mechanosensing</h3>
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                                 the main results on mechanosensing</h3>
 
                             <p><b>
 
                             <p><b>
 
                                 <ul>
 
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                                     <li>A custom-made ultrasound stimulation device (Moduson), suitable for use in
 
                                     <li>A custom-made ultrasound stimulation device (Moduson), suitable for use in
 
                                         different experimental setups that require ultrasound stimulation of cells, was
 
                                         different experimental setups that require ultrasound stimulation of cells, was
                                         developed
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                                         developed.
 
                                     <li>New graphical analysis software that enables fast analysis of fluorescent
 
                                     <li>New graphical analysis software that enables fast analysis of fluorescent
 
                                         microscopy data was also developed to quantify the response to ultrasound
 
                                         microscopy data was also developed to quantify the response to ultrasound
 
                                         stimulation.
 
                                         stimulation.
                                     <li>A new split calcium sensing/reporting system was designed that is able to report
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                                     <li>A new split calcium sensing/reporting system was designed that is able to report,
                                         by emitting light the increase of the cytosolic calcium ions induced by
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                                         by emitting light, the increase of the cytosolic calcium ions induced by
 
                                         mechanoreceptor stimulation.
 
                                         mechanoreceptor stimulation.
  
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                                 and opening of cation-permeable channels.</p>
 
                                 and opening of cation-permeable channels.</p>
  
                             <p>This mechanism, serves as a force-sensing system
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                             <p>This mechanism serves as a force-sensing system
 
                                 <x-ref>Haswell2011, Zheng2013</x-ref>
 
                                 <x-ref>Haswell2011, Zheng2013</x-ref>
 
                                 . Furthermore, it has already been shown that living organisms can detect
 
                                 . Furthermore, it has already been shown that living organisms can detect
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                         <h1 class="ui left dividing header"><span id="ref-title" class="section colorize">&nbsp;</span>References
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                         <h3 class="ui left dividing header"><span id="ref-title" class="section colorize">&nbsp;</span>References
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Latest revision as of 13:12, 19 October 2016

Overview

 

 Summary of the main results on mechanosensing

  • We successfully engineered mechano-responsive cells by expressing mechanosensitive ion channels MscS and P3:FAStm:TRPC1 in mammalian cells.
  • Localization of mechanosensitive channel TRPC1 on the plasma membrane was demonstrated and improved by fusing it with segments of FAS receptor, including the transmembrane domain.
  • Addition of gas-filled lipid microbubbles increased the sensitivity of mammalian cells to ultrasound.
  • We demonstrated for the first time that gas vesicle-forming proteins are expressed in a human cell line, are not toxic and improve the sensitivity of cells to mechanical stimuli.
  • A custom-made ultrasound stimulation device (Moduson), suitable for use in different experimental setups that require ultrasound stimulation of cells, was developed.
  • New graphical analysis software that enables fast analysis of fluorescent microscopy data was also developed to quantify the response to ultrasound stimulation.
  • A new split calcium sensing/reporting system was designed that is able to report, by emitting light, the increase of the cytosolic calcium ions induced by mechanoreceptor stimulation.

 

Cells interact with other cells and the environment in various ways in order to appropriately respond to microenvironment changes. An important extracellular physical signal is represented by mechanical forces and adaptation upon mechanical stimuli is crucial for regulating the cell volume, signalization, growth, cell to cell interactions and overall survival.

Mechanical forces such as changes in osmolality, fluid flow, gravity or direct pressure result in changes in tension of the phospholipid bilayer, arrangement of the cytoskeleton and opening of cation-permeable channels.

This mechanism serves as a force-sensing system Haswell2011, Zheng2013 . Furthermore, it has already been shown that living organisms can detect and respond to mechanical stress generated by ultrasound, which represents an external stimulus with many potential applications Ibsen2015 . Ultrasound offers remarkable advantages over other external stimuli used for targeted cell stimulation. In our project we aimed to explore the potential of mechanosensors and to improve the sensitivity of cells to mechanical stimulation with the idea of designing ultrasound-responsive devices.

 References