Reference : Chondrolectin Mediates Growth Cone Interactions of Motor Axons with an Intermediate Target
Scientific journals : Article
Life sciences : Biochemistry, biophysics & molecular biology
Life sciences : Genetics & genetic processes
Life sciences : Multidisciplinary, general & others
http://hdl.handle.net/10993/30441
Chondrolectin Mediates Growth Cone Interactions of Motor Axons with an Intermediate Target
English
Zhong, Zhen []
Ohnmacht, Jochen mailto [University of Luxembourg > Luxembourg Centre for Systems Biomedicine (LCSB) > >]
Reimer, Michell []
Bach, Ingolf []
Becker, Thomas []
Becker, Catherina []
28-Mar-2012
Journal of Neuroscience
Society for Neuroscience
32
13
4426-4439
Yes (verified by ORBilu)
International
0270-6474
1529-2401
Washington
DC
[en] The C-type lectin chondrolectin (chodl) represents one of the major gene products dysregulated in spinal muscular atrophy models in mice. However, to date, no function has been determined for the gene. We have identified chodl and other novel genes potentially involved in motor axon differentiation, by expression profiling of transgenically labeled motor neurons in embryonic zebrafish. To enrich the profile for genes involved in differentiation of peripheral motor axons, we inhibited the function of LIM-HDs (LIM homeodomain factors) by overexpression of a dominant-negative cofactor, thereby rendering labeled axons unable to grow out of the spinal cord. Importantly, labeled cells still exhibited axon growth and most cells retained markers of motor neuron identity. Functional tests of chodl, by overexpression and knockdown, confirm crucial functions of this gene for motor axon growth in vivo. Indeed, knockdown of chodl induces arrest or stalling of motor axon growth at the horizontal myoseptum, an intermediate target and navigational choice point, and reduced muscle innervation at later developmental stages. This phenotype is rescued by chodl overexpression, suggesting that correct expression levels of chodl are important for interactions of growth cones of motor axons with the horizontal myoseptum. Combined, these results identify upstream regulators and downstream functions of chodl during motor axon growth
Researchers ; Professionals
http://hdl.handle.net/10993/30441
10.1523/JNEUROSCI.5179-11.2012

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