12.8: Mechanoreceptors- Capturing Nonchemical Signals

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A discussion of hormone and other signal molecule-based signal transduction is incomplete without acknowledging mechanoreceptors on cell surfaces that respond to mechanical stimuli, such as touch, pain, temperature, pressure, stretching, and even changes in posture. The latter are mediated by proprioceptors (proprio, “one’s own self”), or self-awareness receptors. In joints, they respond to changes in posture to let us know where our arms and legs are at any given moment! Piezoreceptors (piezo, meaning “squeeze” or “press”) respond to pressure or stretch to open a \(\rm Ca^{++}\) channel, as illustrated in Figure 12.23 below.

Screen Shot 2022-05-22 at 10.16.46 PM.png — Figure 12.23: Extracellular pressure on a CED domain (red arrows) and activation of spring-like arms stretch the cell membrane (green arrows) to opens a piezo-linked ion channel.

Piezoreceptors in cells lining the urinary bladder signal when the bladder is full, with the expected response. In blood vessel endothelial cells these alert the cells to changes in blood pressure and mediate appropriate responses. In sensory cells in the skin, piezoreceptors enable nerve-ending responses to touch or pain. The domain structure of one piezoreceptor protein was shown to include springy domains that could respond to mechanical forces. For more details check out About Piezoreceptors (Lin et al., 2019). David Julius and Ardem Patapoutian shared the 2021 Nobel Prize in Physiology or Medicine for their mechanoreceptor research. Patapoutian discovered the Piezo1 and Piezo2 cation channels that mediate piezoreception, and the TRPM8 cation channel for cold perception. Julius identified the TRPV1 ion channel for heat (e.g., hot pepper!) perception and independently discovered TRPM8.

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