Abstract
BackgroundNeural development consists of a series of steps, including neurogenesis, patterning, cell migration, axon guidance, and finally, synaptogenesis. Because all these steps proceed in a constantly changing environment, functional gene analyses during development have to take time into account. This is quite challenging, however, as loss-of-function approaches based on classic genetic tools do not allow for the precise temporal control that is required for developmental studies. Gene silencing by RNA interference (RNAi) in combination with the chicken embryo or with cultured embryos opens new possibilities for functional gene analysis in vivo. Axonin-1/TAG-1 is a cell adhesion molecule of the immunoglobulin superfamily with a well defined temporal and spatial expression pattern in the developing vertebrate nervous system. Axonin-1/TAG-1 was shown to promote neurite outgrowth in vitro and to be required for commissural and sensory axon pathfinding in vivo.ResultsTo knock down axonin-1 in a temporally and spatially controlled manner during development of the nervous system, we have combined RNAi with the accessibility of the chicken embryo even at late stages of development. Using ex ovo RNAi, we analyzed the function of axonin-1/TAG-1 in cerebellar development. Axonin-1 is expressed in postmitotic granule cells while they extend their processes, the parallel fibers. In the absence of axonin-1 these processes still extend but no longer in a parallel manner to each other or to the pial surface of the cerebellum.ConclusionAxonin-1/TAG-1 is required for the navigation, but not for the elongation, of granule cell processes in the developing cerebellum in vivo.
Highlights
Neural development consists of a series of steps, including neurogenesis, patterning, cell migration, axon guidance, and synaptogenesis
Embryos grown ex ovo can be accessed for manipulation of gene expression in a temporally and spatially controlled manner To enhance its accessibility during later stages of development, the chicken embryo can be cultured in a dish without adverse effects on development [32,33,34,35]
After downregulation of AX-1 no changes in the expression of NgCAM, NrCAM, and Contactin/F11 were observed (Figure 5). These results indicate that ex ovo RNA interference (RNAi) with long doublestranded RNA (dsRNA) derived from AX-1 effectively knocked down AX-1 levels without affecting non-targeted but related genes expressed in the cerebellum
Summary
Neural development consists of a series of steps, including neurogenesis, patterning, cell migration, axon guidance, and synaptogenesis. Because all these steps proceed in a constantly changing environment, functional gene analyses during development have to take time into account. Axonin-1/TAG1 is a cell adhesion molecule of the immunoglobulin superfamily with a well defined temporal and spatial expression pattern in the developing vertebrate nervous system. Axonin-1 (AX-1)/TAG-1 is a cell adhesion molecule of the immunoglobulin superfamily that was shown to be an axon guidance cue in the central nervous system in vivo [1,2]. In the absence of AX-1 function, nociceptive fibers failed to innervate their target layers in the dorsal spinal cord and extended into areas normally innervated by mechanoreceptive fibers. AX-1 is expressed in postmitotic granule cells at the time when they extend their processes, the parallel fibers [6,7,8]
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