RT @renesugar: https://t.co/eejqYaVRYl "In this study, we have shown that EtOH mediated downregulation of TRPM7 expression leads to BBB dy…
RT @renesugar: Ethanol’s Effects on Transient Receptor Potential Channel Expression in Brain Microvascular Endothelial Cells #MECFS #LongCo…
Ethanol’s Effects on Transient Receptor Potential Channel Expression in Brain Microvascular Endothelial Cells #MECFS #LongCovid https://t.co/urvLrlEQC0
RT @renesugar: Ethanol’s Effects on Transient Receptor Potential Channel Expression in Brain Microvascular Endothelial Cells #MECFS #LongCo…
https://t.co/eejqYaVRYl "TRPM7 controls Ca2+ and Mg2+ homeostasis, with its activity being regulated by intracellular Mg2+." "In addition, our antagonist/agonist approach has confirmed that changes in expression of TRPM7 impairs the integrity of the BBB.
https://t.co/eejqYaVRYl "In this study, we have shown that EtOH mediated downregulation of TRPM7 expression leads to BBB dysfunction as a result of the loss of endothelial cell integrity."
https://t.co/eejqYaVRYl "Our data indicate that EtOH can impair the BBB integrity via its actions on the expression of TRPM7."
https://t.co/eejqYaVRYl "EtOH strongly suppresses innate immunity. Among the three basic components of the BBB, BMVECs are the primary cells that initiate immune responses." "EtOH acts on temperature and nociceptive TRPV1, TRPM8, and TRPA1 channels."
https://t.co/eejqYaVRYl Ethanol (EtOH) "can affect Ca2+/Mg2+ signaling, immune responses, lysosomal functions as well as BBB integrity."
Ethanol’s Effects on Transient Receptor Potential Channel Expression in Brain Microvascular Endothelial Cells #MECFS #LongCovid https://t.co/eejqYaVRYl
Ethanol's Effects on Transient Receptor Potential Channel Expression in Brain Microvascular Endothelial Cells. https://t.co/ZfLDGN0q0t
Ethanol's Effects on Transient Receptor Potential Channel Expression in Brain Microvascular Endothelial Cells. https://t.co/uMk4w3UDLr
Ethanol's Effects on Transient Receptor Potential Channel Expression in Brain Microvascular Endothelial Cells. https://t.co/raRHEWL3kG https://t.co/hqPk57JOsx