Visualizing PIEZO1 Localization and Activity in hiPSC-Derived Single Cells and Organoids with HaloTag Technology.

PIEZO1 is critical to numerous physiological processes, transducing diverse mechanical stimuli into electrical and chemical signals. Recent studies underscore the importance of visualizing endogenous PIEZO1 activity and localization to understand its functional roles. To enable physiologically and clinically relevant studies on human PIEZO1, we genetically engineered human induced pluripotent stem cells (hiPSCs) to express a HaloTag fused to endogenous PIEZO1.

Piezo1 regulates cholesterol biosynthesis to influence neural stem cell fate during brain development.

Mechanical forces and tissue mechanics influence the morphology of the developing brain, but the underlying molecular mechanisms have been elusive. Here, we examine the role of mechanotransduction in brain development by focusing on Piezo1, a mechanically activated ion channel. We find that Piezo1 deletion results in a thinner neuroepithelial layer, disrupts pseudostratification, and reduces neurogenesis in E10.

Histamine H3 receptors in the guinea pig ileum: evidence for a postjunctional location.

The effect of the selective histamine H3 receptor agonists (R)alpha-methylhistamine, (R)MHA and immepip (IMM) on intestinal smooth muscle contractility was investigated on isolated cells from the longitudinal muscle of the guinea pig ileum. (R)MHA (10(-13)-10(-8) M) and IMM (10(-13)-10(-8) M) did not significantly modify the basal length of intestinal cells; in contrast both agonists (10(-15)-10(-11) M) prevented the contraction produced by acetylcholine (10(-7) M). The (S)-isomer of alpha-methylhistamine, (S)MHA, was inactive both on basal contractility and on acetylcholine-induced contractions.

Stereoselective inhibition of ethanol-induced gastric lesions in the rat by the H(3)-receptor agonist (R)-alpha-methylhistamine and its (S)-configured isomer.

The histamine H(3) receptor shows high degree of stereoselectivity for histamine analogues branched in the side chain. The hypothesis that gastroprotection by (R)-alpha-methylhistamine could be H(3) receptor-mediated was tested by comparing the effect of (R)-alpha-methylhistamine and of (S)-alpha-methylhistamine on ethanol-induced histologic lesions in the rat gastric mucosa. Extensive damage was caused by 60 min exposure to absolute ethanol, 91% of the mucosa examined being damaged.