Possible Magneto-Mechanical and Magneto-Thermal Mechanisms of Ion Channel Activation by Iron-Loaded Ferritin in Magnetogenetics

Barbic, Mladen

doi:10.1101/540351

Cited by 2 publications

(2 citation statements)

References 65 publications

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“…In this case, rapid diffusion requires that the two moieties be in proximity. Similarly, theoretical calculations suggesting that heat and/or mechanical forces may also increase the probability of channel opening also suggest the need for close proximity between TRP channels and an iron oxide particle( 33 ). The use of a small nanobody to link endogenous ferritin to the channel satisfies this requirement for proximity.…”

Section: Discussionmentioning

confidence: 98%

Magnetogenetic cell activation using endogenous ferritin

Stanley

Pomeranz

et al. 2023

Preprint

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The ability to precisely control the activity of defined cell populations enables studies of their physiological roles and may provide therapeutic applications. While prior studies have shown that magnetic activation of ferritin-tagged ion channels allows cell-specific modulation of cellular activity, the large size of the constructs made the use of adeno-associated virus, AAV, the vector of choice for gene therapy, impractical. In addition, simple means for generating magnetic fields of sufficient strength have been lacking. Toward these ends, we first generated a novel anti-ferritin nanobody that when fused to transient receptor potential cation channel subfamily V member 1, TRPV1, enables direct binding of the channel to endogenous ferritin in mouse and human cells. This smaller construct can be delivered in a single AAV and we validated that it robustly enables magnetically induced cell activation in vitro. In parallel, we developed a simple benchtop electromagnet capable of gating the nanobody-tagged channel in vivo. Finally, we showed that delivering these new constructs by AAV to pancreatic beta cells in combination with the benchtop magnetic field delivery stimulates glucose-stimulated insulin release to improve glucose tolerance in mice in vivo. Together, the novel anti-ferritin nanobody, nanobody-TRPV1 construct and new hardware advance the utility of magnetogenetics in animals and potentially humans.

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Section: Discussionmentioning

confidence: 98%

Magnetogenetic cell activation using endogenous ferritin

Stanley

Pomeranz

et al. 2023

Preprint

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“…In Mbaden Babich's studies on ferritin and ion channels, external magnetic fields activate ion channels noninvasively in humans [22] and highly loaded iron particles in ferritin are super-magnetically paramagnetic and can form magnetizing currents; theoretically, two 8-nm ferritins become magnetically saturated in a magnetic field of 1 Tesla, which is sufficient to mechanically deform the cell membrane of ion channels. Thus, we have the important insight that, in contrast to the spiking pattern of sodium-potassium ion channel generation in the long axis of the giant squid discovered by Hodgkin and Huxley in 1962, the neuronal spiking pattern of human magnetoreceptors is dominated by ferritin, which is highly loaded with iron ions.…”

Section: Discussionmentioning

confidence: 99%

An Attempt to Analyze a Human Nervous System Algorithm for Sensing Earthquake Precursors

Cao¹

2023

OJER

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We statistically validate the 2011-2022 earthquake prediction records of Ada, the sixth finalist of the 2nd China AETA in 2021, who made 147 earthquake predictions (including 60% of magnitude 5.5 earthquakes) with a prediction accuracy higher than 70% and a confidence level of 95% over a 12-year period. Since the reliable earthquake precursor signals described by Ada and the characteristics of Alfvén waves match quite well, this paper proposes a hypothesis on how earthquakes are triggered based on the Alfvén (Q G) torsional wave model of Gillette et al. When the plume of the upper mantle column intrudes into the magma and lithosphere of the soft flow layer during the exchange of hot and cold molten material masses deep inside the Earth's interior during ascent and descent, it is possible to form body and surface plasma sheets under certain conditions to form Alfven nonlinear isolated waves, and Alfven waves often perturb the geomagnetic field, releasing huge heat and kinetic energy thus triggering earthquakes. To explain the complex phenomenon of how Ada senses Alvfen waves and how to locate epicenters, we venture to speculate that special magnetosensory cells in a few human bodies can sense earthquake precursors and attempt to hypothesize an algorithm that analyzes how the human biological nervous system encodes and decodes earthquake precursors and explains how human magnetosensory cells can solve complex problems such as predicting earthquake magnitude and locating epicenters.

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Possible Magneto-Mechanical and Magneto-Thermal Mechanisms of Ion Channel Activation by Iron-Loaded Ferritin in Magnetogenetics

Cited by 2 publications

References 65 publications

Magnetogenetic cell activation using endogenous ferritin

Magnetogenetic cell activation using endogenous ferritin

An Attempt to Analyze a Human Nervous System Algorithm for Sensing Earthquake Precursors

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