Project Details
Description
This proposed research will study the interactions of axonal growth cones
and their synaptic target neurons, in order to address the cellular
mechanisms that direct and accompany synaptogenesis. Recent evidence from
our laboratory suggests that a reciprocal relationship exists between
afferent axon and target cell regulation of the growth of afferents by
target cells, and the regulation of target cell differentiation by
afferents. This relationship is the theme of this proposal. We will use
the developing mouse cerebellum and analyze intact brain and tissue
culture models, by static and dynamic microscopy.
To address how the growth of afferents is influenced by target cells, we
will examine the coordination of timing of afferent ingrowth with target
cell availability in vivo. After dye labeling afferent axons, the cell
contacts of mossy fibers will be analyzed in two situations where mossy
fibers arrive before granule cells are present: vestibular mossy fiber
ingrowth at E15, and in the neurological mutant meander tail, in which
granule cells are missing in the anterior cerebellum. Second, the patterns
of climbing fiber growth and growth cone behavior during their exuberant
growth onto multiple Purkinje cells, and during focused arborization on
individual Purkinje cells will be studied in slices of cerebellum, using
time-lapse video microscopy. Third, in an in vitro model system based on
purified Purkinje cells, the neural specificity of axon-target
interactions will be investigated by analyzing the regulation of neurite
growth and branching patterns of appropriate climbing and parallel fiber
afferents and inappropriate afferents, with static and real time
microscopy. Fourth, with the same tissue culture model, the cellular
events associated with Purkinje and granule cell synaptogenesis, including
afferent growth cone behavior, formation of synaptic junctions, and
expression of synapse-associated proteins, will be examined.
The regulation of survival and differentiation of Purkinje cells by
afferent-target and other cell-cell interactions will be investigated, by
co-culturing purified Purkinje cells with neurons and nonneuronal cells
intrinsic and afferent to the cerebellum as well as other brain cell
types. The extent to which these interactions regulate the construction of
synaptic machinery in the target cell will also be examined.
These studies will delineate temporal and spatial features of axon-target
contacts, and the key cellular interactions that regulate afferent axonal
growth and survival and differentiation of targets. The fundamental
information obtained from the analysis of intact brain, coupled with the
insight into cellular mechanisms obtained from in vitro experiments, will
be essential to interpreting new molecular approaches to neuronal
development.
Status | Finished |
---|---|
Effective start/end date | 12/31/89 → 3/31/03 |
Funding
- National Institute of Neurological Disorders and Stroke: US$286,409.00
- National Institute of Neurological Disorders and Stroke: US$290,711.00
- National Institute of Neurological Disorders and Stroke: US$296,504.00
ASJC Scopus Subject Areas
- Cell Biology
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