Downregulation of connexin 43-based gap junctions underlies propofol-induced excessive relaxation in hypertensive vascular smooth muscle cells

Abstract: Background Postinduction hypotension caused by propofol remains a non-negligible problem for anesthesiologists, and is especially severe in chronic hypertensive patients with long-term vasoconstriction and decreased vascular elasticity. The functional change in gap junctions composed of Cx43 (Cx43-GJs) is reported as the biological basis of synchronized contraction or relaxation of blood vessels. Thus, we investigated the role of Cx43-GJs in propofol-induced dramatic blood pressure fluctuations… Show more

“…The resulting assemblies, known as gap junction channels (GJCs), span two plasma membranes and couple the neighbouring cells metabolically and electrically 2,3 . The GJCs play a crucial role in many physiological processes, such as cardiac and smooth muscle contractility (Cx43) 4,5 , action potential propagation (Cx43) 6,7 , neuronal synchronization (Cx36) 8,9 , or insulin secretion (Cx36) 10 . Different GJCs also take an active role in cell growth and differentiation, tissue development and homeostasis 11 , and disruptions of connexin function can lead to severe pathological conditions.…”

Structural basis of connexin-36 gap junction channel inhibition

“…The resulting assemblies, known as gap junction channels (GJCs), span two plasma membranes and couple the neighbouring cells metabolically and electrically 2,3 . The GJCs play a crucial role in many physiological processes, such as cardiac and smooth muscle contractility (Cx43) 4,5 , action potential propagation (Cx43) 6,7 , neuronal synchronization (Cx36) 8,9 , or insulin secretion (Cx36) 10 . Different GJCs also take an active role in cell growth and differentiation, tissue development and homeostasis 11 , and disruptions of connexin function can lead to severe pathological conditions.…”

Structural basis of connexin-36 gap junction channel inhibition