Oriented extracellular channels and axonal guidance in the embryonic chick retina

Abstract

Transmission electron microscopy and serial reconstruction of lum sections were used to determine whether aligned extracellular channels precede the outgrowth of optic fibers in the embryonic chick retina. At stage 16, just prior to the migration of optic axons toward the optic stalk, extracellular spaces bounded by neuroepithelial cell processes, in the superficial (vitread) region of the retina, were aligned toward the optic stalk. The optic axons subsequently entered and grew within these spaces. After formation of the ganglion cell fiber layer (GCFL), the growth cones of new optic axons entered the most vitread portion of that layer. Hypertonic fixatives caused shrinkage of cell processes, resulting in intercellular separation. However, growth cone filopodia retained close contacts with neighboring glial cell endfeet and with optic axons in these solutions. This suggests that growth cones may be adherent to these structures. Transmission electron microscopy in conjunction with the use of hypertonic solutions may become a useful technique for assaying intercellular adhesivity.