EVALUATING METHODS AND PROTOCOLS OF FERRITIN-BASED MAGNETOGENETICS

Published: 3 September 2021| Version 1 | DOI: 10.17632/k9tfrgmjzg.1
Contributor:
MIRIAM HERNANDEZ-MORALES

Description

FeRIC (Ferritin iron Redistribution to Ion Channels) is a magnetogenetic technique that uses radio frequency (RF) alternating magnetic fields to activate the transient receptor potential channels, TRPV1 and TRPV4, coupled to cellular ferritins. In cells expressing ferritin-tagged TRPV, RF stimulation increases the cytosolic Ca2+ levels via a biochemical pathway. The interaction between RF and ferritin increases the free cytosolic iron levels that in turn, trigger chemical reactions producing reactive oxygen species and oxidized lipids that activate the ferritin-tagged TRPV. In this pathway, it is expected that experimental factors that disturb the ferritin expression, the ferritin iron load, the TRPV functional expression, or the cellular redox state will impact the efficiency of RF in activating ferritin-tagged TRPV. Here, we examined several experimental factors that either enhance or abolish the RF control of ferritin-tagged TRPV. The findings may help optimize and establish reproducible magnetogenetic protocols.

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MATLAB files containing the Ca2+ imaging analysis files for the paper "FeRIC-based magnetogenetics: evaluation of methods and protocols in in vitro models"