Abstract
Rod outer segments (ROSs) are specialized light-sensitive organelles in vertebrate photoreceptor cells. Lipids in ROS are of considerable importance, not only in providing an adequate environment for efficient phototransduction, but also in originating the second messengers involved in signal transduction. ROSs have the ability to adapt the sensitivity and speed of their responses to ever-changing conditions of ambient illumination. A major contributor to this adaptation is the light-driven translocation of key signaling proteins into and out of ROS. The present review shows how generation of the second lipid messengers from phosphatidylcholine, phosphatidic acid, and diacylglycerol is modulated by the different illumination states in the vertebrate retina. Findings suggest that the light-induced translocation of phototransduction proteins influences the enzymatic activities of phospholipase D, lipid phosphate phosphatase, diacylglyceride lipase, and diacylglyceride kinase, all of which are responsible for the generation of the second messenger molecules.
Highlights
Rod outer segments (ROSs) are specialized lightsensitive organelles in vertebrate photoreceptor cells
The vertebrate photoreceptor cell is composed of different cellular compartments [outer segment (OS), inner segment (IS), and synaptic terminal (ST)], all of which differ in their lipid and protein content [1, 2]
ROS from light-adapted retinas (LROS) in the presence of the active form of RhoA showed phospholipase D (PLD) activity values similar to those observed in ROS from dark-adapted retinas (DROS), indicating that RhoA is in its active form and is able to stimulate PLD activity to maximal values in isolated ROS from darkadapted retinas [82]
Summary
Rod outer segments (ROSs) are specialized lightsensitive organelles in vertebrate photoreceptor cells. Findings suggest that the light-induced translocation of phototransduction proteins influences the enzymatic activities of phospholipase D, lipid phosphate phosphatase, diacylglyceride lipase, and diacylglyceride kinase, all of which are responsible for the generation of the second messenger molecules.—Giusto, N. Lipid second messengers and related enzymes in vertebrate rod outer segments. DRMs were more enriched in saturated fatty acids than ROS membranes. Based on the intringuing lipid composition of ROS membranes and the active phospholipid metabolism, this review explores the main findings on lipid second messengers and their related enzymes in purified ROS from vertebrate photoreceptor cells
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