At the distal most aspect of motile extending axons and dendrites lies the growth cone, a hand like macroorganelle of membrane bound cytoskeleton, packed with receptors, adhesion molecules, molecular motors, and an army of regulatory and signaling proteins. Splayed out along the substratum in vitro, the growth cone resembles an open hand with bundles of filamentous actin, barbed ends outstretched, as if fingers extending from a central domain of dynamic microtubule plus ends. The growth cone acts first as a sensory platform, analyzing the environment ahead for the presence of guidance cues, secondly as a mechanical dynamo establishing focal contact with the extracellular matrix to drive processive forward outgrowth, and thirdly as a forward biochemical command center where signals are interrogated to inform turning, extension, retraction, or branching. During his career, Paul Letourneau has made major contributions to our understanding of how growth cones respond to their environment. Here, we will summarize some of these major advances in their historical context. Letourneau's contributions have provided insights into cytoskeletal organization, growth cone dynamics, and signaling pathways. His recent work has described some important molecules and molecular mechanisms involved in growth cone turning. Although much remains to be understood about this important and intriguing structure, Letourneau's contributions have provided us with "growth cone guidance."
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