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Fine structure of dendritic and axonal growth cones in embryonic chick spinal cord
Author(s) -
Skoff Robert P.,
Hamburger Viktor
Publication year - 1974
Publication title -
journal of comparative neurology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.855
H-Index - 209
eISSN - 1096-9861
pISSN - 0021-9967
DOI - 10.1002/cne.901530202
Subject(s) - biology , growth cone , spinal cord , anatomy , electron microscope , neuroscience , microbiology and biotechnology , axon , physics , optics
Our preliminary electron microscopic observations of embryonic chick spinal cord indicate that the majority of synapses in the cervical cord at the fourth and sixth days of incubation are found in the marginal layer rather than the mantle layer. These findings raise two basic questions about the type of connections in the marginal zone during the first week of development: are all these early synapses axondendritic, and are synaptic junctions present on axonal and dendritic growth cones? Since criteria for distinguishing between axonal and dendritic growth cones are scarce or nonexistent, serial section electron microscopy was employed to definitively identify the two types of terminals. Two types of dendritic growth cones are present in the marginal layer during the first week of development. The first type is distinguished by a dendritic stalk which expands into a club‐shaped or bulb‐like terminal. A characteristic feature of this type of dendritic ending is the presence of numerous vesicles which vary in diameter from about 1000 Å to 2500 Å. Its cytoplasm has a floccular appearance and is frequently electron lucent. In contrast, the second type of dendritic terminal is electron dense, has a consistently homogeneous appearance, and usually lacks the large vesicles of the first type. The shape of the second type is a finger‐like process (filopodium) roughly of the same diameter as the main dendritic trunk. Evidence is presented that some dendritic growth cones observed in this study represent growing, motile processes rather than quiescent enlargements. Synapses on dendritic growth cones are quite numerous and, in addition, the first synapses on dendrites appear to form on growth cones. The hypothesis is put forward that synapses on dendritic growth cones. The hypothesis is put forward that synapses on dendritic growth cones are incorporated onto the dendritic trunk as the terminal continues to grow. Axonal growth cones may be distinguished from dendritic growth cones on the basis of their overall morphology and their cytoplasmic components. An axonal growth cone is, in general, a larger and more irregular structure than the dendritic terminal. This irregularity is due to the large number of processes radiating away from the terminal enlargement or varicosity. While dendritic terminals almost always have finger‐like projections, processes of axonal growth cones are more often sheet‐like extensions of cytoplasm (folipodia). Another important difference between axonal and dendritic growth cones is that ribosomes in axonal varicosities are infrequently encountered and rarely aggregated into polysomes as in dendritic terminals. Axonal growth cones are occasionally observed to be presynaptic to a dendrite during the first week of development.