Objective.Ultrasound has been shown to modulate the activity of retinal ganglion cells (RGCs) in mice, but the mechanism remains poorly understood. This study aims to address this question.Approach.Multi-electrode recordings together with pharmacological methods were used to investigate the possible cellular/circuitry mechanism(s) underlying the neuronal modulation induced by low-frequency (1 MHz), low-intensity (ISPTA0.5 W cm-2) ultrasound stimulation.Main results.We found that ultrasound activated mechanosensitive channels (transient receptor potential vanilloid 4 (TRPV4) channels are involved) in Müller cells, causing the release of glutamate, which acts on the extrasynapticN-methyl-D-aspartate receptors of RGCs, thus leading to the modulation of neuronal activity.Significance.Our results reveal a novel mechanism of low-frequency, low-intensity ultrasound modulation, involving TRPV4 as a mechanosensitive target for ultrasound and glutamate as an essential mediator of neuron-glia communication. These findings also demonstrate that the mechanical-force-mediated pathway is important for retinal signal modulation during visual processes, such as visual accommodation.
Keywords: TRPV4; extrasynaptic NMDARs; firing rate; retinal ganglion cell; ultrasound.
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