Growth cones turn and migrate up an immobilized gradient of the laminin IKVAV peptide

Derek N. Adams, Edmund Y C Kao, Claire L. Hypolite, Mark D. Distefano, Wei Shou Hu, Paul C. Letourneau

Research output: Contribution to journalArticlepeer-review

142 Scopus citations

Abstract

Growth cone navigation is guided by extrinsic environmental proteins, called guidance cues. Many in vitro studies have characterized growth cone turning up and down gradients of soluble guidance cues. Although previous studies have shown that axonal elongation rates can be regulated by gradients of surface-bound molecules, there are no convincing demonstrations of growth cones turning to migrate up a surface-bound gradient of an adhesive ligand or guidance cue. In order to test this mode of axonal guidance, we used a photo-immobilization technique to create grids and gradients of an adhesive laminin peptide on polystyrene culture dish surfaces. Chick embryo dorsal root ganglia (DRGs) were placed on peptide grid patterns containing surface-bound gradients of the IKVAV-containing peptide. DRG growth cones followed a path of surface-bound peptide to the middle of a perpendicularly oriented gradient with a 25% concentration difference across 30 μm. The majority of growth cones turned and migrated up the gradient, turning until they were oriented directly up the gradient. Growth cones slowed their migration when they encountered the gradient, but growth cone velocity returned to the previous rate after turning up or down the gradient. This resembles in vivo situations where growth cones slow at a choice point before changing the direction of axonal extension. Thus, these results support the hypothesis that mechanisms of axonal guidance include growth cone orientation by gradients of surface-bound adhesive molecules and guidance cues.

Original languageEnglish (US)
Pages (from-to)134-147
Number of pages14
JournalJournal of Neurobiology
Volume62
Issue number1
DOIs
StatePublished - Jan 2005

Keywords

  • Axonal guidance
  • Gradient
  • Growth cone
  • Haptotaxis
  • IKVAV

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