In Vitro Pharmacological Modulation of PIEZO1 Channels in Frontal Cortex Neuronal Networks.
Pegah HaghighiMandee K SchaubAdam H ShebinduGayathri VijayakumarArmaan SoodRafael Granja-VazquezSourav S PatnaikCaroline N JonesGregory O DussorJoseph J PancrazioPublished in: Brain sciences (2024)
PIEZO1 is a mechanosensitive ion channel expressed in various organs, including but not limited to the brain, heart, lungs, kidneys, bone, and skin. PIEZO1 has been implicated in astrocyte, microglia, capillary, and oligodendrocyte signaling in the mammalian cortex. Using murine embryonic frontal cortex tissue, we examined the protein expression and functionality of PIEZO1 channels in cultured networks leveraging substrate-integrated microelectrode arrays (MEAs) with additional quantitative results from calcium imaging and whole-cell patch-clamp electrophysiology. MEA data show that the PIEZO1 agonist Yoda1 transiently enhances the mean firing rate (MFR) of single units, while the PIEZO1 antagonist GsMTx4 inhibits both spontaneous activity and Yoda1-induced increase in MFR in cortical networks. Furthermore, calcium imaging experiments revealed that Yoda1 significantly increased the frequency of calcium transients in cortical cells. Additionally, in voltage clamp experiments, Yoda1 exposure shifted the cellular reversal potential towards depolarized potentials consistent with the behavior of PIEZO1 as a non-specific cation-permeable channel. Our work demonstrates that murine frontal cortical neurons express functional PIEZO1 channels and quantifies the electrophysiological effects of channel activation in vitro. By quantifying the electrophysiological effects of PIEZO1 activation in vitro, our study establishes a foundation for future investigations into the role of PIEZO1 in neurological processes and potential therapeutic applications targeting mechanosensitive channels in various physiological contexts.
Keyphrases
- functional connectivity
- high resolution
- resting state
- heart failure
- spinal cord
- working memory
- multiple sclerosis
- endothelial cells
- bone marrow
- inflammatory response
- mass spectrometry
- neuropathic pain
- body composition
- fluorescence imaging
- cell proliferation
- photodynamic therapy
- cerebral ischemia
- ionic liquid
- climate change
- diabetic rats
- brain injury
- bone mineral density
- wound healing
- cancer therapy
- data analysis