Abstract
The interaction of light with biological tissues has been considered for various therapeutic applications. Light-induced neurite growth has the potential to be a clinically useful technique for neuron repair. However, most previous studies used either a large illumination area to accelerate overall neurite growth or employed a light spot to guide a growing neurite. It is not clear if optical stimulation can induce the regrowth of a retracted neurite. In the present work, we used blue light (wavelength: 473 nm) to cause neurite retraction, and we proved that using a red-light (wavelength: 650 nm) spot to illuminate the soma near the junction of the retracted neurite could induce neurite regrowth. As a comparison, we found that green light (wavelength 550 nm) had a 62% probability of inducing neurite regrowth, while red light had a 75% probability of inducing neurite regrowth at the same power level. Furthermore, the neurite regrowth length induced by red light was increased by the pre-treatment with inhibitors of myosin functions. We also observed actin propagation from the soma to the tip of the re-growing neurite following red-light stimulation of the soma. The red light-induced extension and regrowth were abrogated in the calcium-free medium. These results suggest that illumination with a red-light spot on the soma may trigger the regrowth of a neurite after the retraction caused by blue-light illumination.
Highlights
The interaction of light with biological tissues has been considered for various therapeutic applications
We suspected that the blue light-induced neurite retraction could be driven by motor proteins
Using inhibitors for myosin II (BBI), myosin light chain kinase (ML7), kinesin-5, and dynein to pre-treat the N2a cells, we found that BBI and ML7 were able to reduce the probability of neurite retraction from 92% to 22% and 21%, respectively
Summary
The interaction of light with biological tissues has been considered for various therapeutic applications. Most previous studies used either a large illumination area to accelerate overall neurite growth or employed a light spot to guide a growing neurite It is not clear if optical stimulation can induce the regrowth of a retracted neurite. The red light-induced extension and regrowth were abrogated in the calcium-free medium These results suggest that illumination with a red-light spot on the soma may trigger the regrowth of a neurite after the retraction caused by bluelight illumination. Controlling the extension and retraction of a specific lamellipodium on a single cell with focused laser light spots has been demonstrated[25] These previous works suggest that optical stimulation holds the potential to be a versatile control technique in neurite damage and regrowth. In addition to the results obtained with N2a cells, red light-induced neurite regrowth and actin propagation in neurites were observed in primary rat hippocampal neurons
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