The Sheekey Science Show | Bioelectricity - the reason we're alive (& therapeutic potential) @TheSheekeyScienceShow | Uploaded November 2021 | Updated October 2024, 4 days ago.
Our bodies are electric. Within our bodies are electrical currents and electrical potentials that are generated by cells that make up our bodies. In fact, It’s the reason we’re alive - its involved in neuronal signalling in our brains, enables are heart muscles to contract and to transport glucose to name a few. Disturbance of the sodium potassium pump activity (that can create these electrical potentials) has been implicated in many pathophysiological conditions including cancer, diabetes, and heart failure. But these bioelectrical networks, if we can understand them better “suggest a roadmap for exploiting bioelectric signaling for interventions addressing developmental disorders, regenerative medicine, cancer reprogramming, and synthetic bioengineering.”
Find me on Twitter - twitter.com/EleanorSheekey
I have Patreon - patreon.com/TheSheekeyScienceShow
TIMESTAMPS:
Intro - 00:00
Electricity - 01:30
Bioelectricity Na+ K+ pump - 02:00
Development and bioelectricity - 03:00
How does an organism know its morphology is right? - 06:00
Electrical potential & Membrane potential - 07:00
Morphoceuticals & therapeutic potential - 11:15
REFERENCES:
Bioelectric signaling: Reprogrammable circuits underlying embryogenesis, regeneration, and cancer - doi.org/10.1016/j.cell.2021.02.034 Michael Levin
Icons in intro; "freepik.com/free-photos-vectors/background"Background vector created by freepik - freepik.com
Our bodies are electric. Within our bodies are electrical currents and electrical potentials that are generated by cells that make up our bodies. In fact, It’s the reason we’re alive - its involved in neuronal signalling in our brains, enables are heart muscles to contract and to transport glucose to name a few. Disturbance of the sodium potassium pump activity (that can create these electrical potentials) has been implicated in many pathophysiological conditions including cancer, diabetes, and heart failure. But these bioelectrical networks, if we can understand them better “suggest a roadmap for exploiting bioelectric signaling for interventions addressing developmental disorders, regenerative medicine, cancer reprogramming, and synthetic bioengineering.”
Find me on Twitter - twitter.com/EleanorSheekey
I have Patreon - patreon.com/TheSheekeyScienceShow
TIMESTAMPS:
Intro - 00:00
Electricity - 01:30
Bioelectricity Na+ K+ pump - 02:00
Development and bioelectricity - 03:00
How does an organism know its morphology is right? - 06:00
Electrical potential & Membrane potential - 07:00
Morphoceuticals & therapeutic potential - 11:15
REFERENCES:
Bioelectric signaling: Reprogrammable circuits underlying embryogenesis, regeneration, and cancer - doi.org/10.1016/j.cell.2021.02.034 Michael Levin
Icons in intro; "freepik.com/free-photos-vectors/background"Background vector created by freepik - freepik.com
