Guofa Liu

Down syndrome cell adhesion molecule (DSCAM) is required for axon guidance and dendrite arborization. How DSCAM functions in vertebrates is not well understood. Here we show that DSCAM is expressed on commissural axons and interacts with Netrin-1, a prototypical guidance cue for commissural axons. The knockdown of DSCAM by specific siRNA or blockage of DSCAM signaling by overexpression of a mutant lacking its intracellular domain inhibits netrin-induced axon outgrowth and commissural axon turning in vitro. SiRNA-mediated knockdown of DSCAM in ovo causes defects in commissural axon projection and pathfinding. In transfected cells, DSCAM by itself, in the absence of DCC, is capable of mediating netrin signaling in activating phosphorylation of Fyn and Pak1. These findings demonstrate an essential role of vertebrate DSCAM in axon guidance, indicating that DSCAM functions as a receptor of netrin-1. Our data suggest previously unexpected complexity in receptors that mediate vertebrate netrin signaling.

We report on the synthesis and self-assembly of a new series of discotic molecules containing triphenylbenzene as the core and alkoxy side chain with varying length. It was found that compounds 3 a-c, 4 b and 5 b could form stable gels in several apolar solvents. Transmission electron microscopy (TEM) images revealed that their morphologies were very different for the different alkoxy-substituted organogels. In toluene or hexane, 3 b and 3 c resulted in both left- and right-handed helical fibers, whereas 3 a resulted in straight rigid fibers; 4 b and 5 b resulted in most straight fibers with a few twisted fibers. The results from FT-IR and UV/Vis absorption spectroscopy indicated that the hydrogen bonding and pi-pi interactions were the main driving forces for the formation of the self-assembled gels. Further detailed analysis of their aggregation modes were conducted by UV-visible absorption spectra and X-ray diffraction (XRD) measurements. Based on these findings, the influence of these peripheral alkoxy substituents on the gel formation and the aggregation mode were discussed. The special enhanced fluorescent emissions, which resulted from aggregation, were also found in the gel phase.