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10/13/2011, Jinan, China Qilu Internation Neuroscience Symposium Shangdong University School of Medicine Membrane Trafficking Mechanism Underlying Neuronal Polarization Zhen-Ge Luo (罗振革), Ph.D Institute of Neuroscience Chinese Academy of Sciences Shanghai, 200031 Model systems Parallel between neuronal polarization in vitro and in vivo Witte and Bradke. 2008 Current Opinion in Neurobiology Neuronal polarization requires four main steps: 1. Increase in the amount of plasma membrane (by vesicle recruitment and fusion); 2. Increase in the local concentration and activation of signalling molecules; 3. Increase in the dynamics of actin filaments; 4. Enhancement of microtubule formation. Signaling pathways involved in mammalian axon specification during neuron polarization Plasmalemmal precursor vesicles during early neurite elongation Pfenninger KH 2009 Nature Reviews Neuroscience Red (emission at 620 nm): Golgi-derived vesicles Green (emission at 515 nm): Plasmalemma Golgi-derivation of BODIPY-labeled vesicles Time-dependent accumulation of BODIPY-vesicles in distal axon BODIPY labeling of Plasmalemmal Precursor Vesicles (PPV) Wash1 Free BODIPY-ceramide Golgi-derived vesicles Wash2 Disappearance of BODIPY-Red signals in neurite growth cones Membrane fusion activity correlates with axon specification Question: --How is the directional membrane fusion regulated? Lethal Giant Larvae is Essential for Various Types of Cell Polarity Yeast polarized budding Drosophila neuroblast division Genetics. 1998; 149:1717-27. Dev Neurosci. 2006; 28:13-24 Mammalian epithelial apical-basal polarity J Cell Sci. 2006;119:2107-18. Mammalian astrocyte Nat Cell Biol. 2003; 5:301-8. Expression of Lgl1 in the developing brain Localization of Lgl1 in cultured hippocampal neurons Lgl1 is essential for neuronal polarity a c b Over-expression of Lgl1 promotes axon development Down-regulation of Lgl1 decreases directional membrane fusion Q: How does Lgl regulate membrane fusion and neuronal polarity? J Cell Biol. 2006; 172: 55-66 Mol Biol Cell. 2006;17:3156-75 RAB10 RAB8a RAB8b RAB13 Sec4p Lgl1 is associated with mammalian Rab10 Lgl1 is associated with Rab10 in primary neurons Colocalization of Rab10 with PPV Mutated forms of Rab10 affect neuronal polarity Rab10Q58L, GTP-locked active form Rab10T23N, GDP-locked inactive from Rab10 is essential for neuronal polarity Rab10 acts downstream of Lgl1 in regulating axon development --Rab10 partially rescues the neuronal polarity in cells with Lgl1 knockdown; --Lgl1 has no effect on axon defects caused by Rab10DN or Rab10 siRNA; --Rab10DN or siRNA prevents the enhanced axon development caused by Lgl1. Role of Rab10 in membrane fusion --Down-regulation of Lgl1 decreases directional membrane fusion; --Rab10 rescues directional membrane fusion in cells with Lgl1 knockdown Conclusion: Rab10 acts downstream of Lgl1 in polarized membrane fusion & neuronal polarization Q: How does Lgl1 regulate Rab10? Lgl1 is not a GEF for Rab10 Rab10-GDP GAP GEF Rab10-GTP GEF: Guanine nucleotide exchange factor GAP: GTPase-activating protein Lgl1 promotes membrane association of Rab10 in neurons The nucleotide and membrane attachment/detachment cycles of Rab GTPases GDI: GDP dissociation inhibitor GDF: GDI displacement factor 1.Inactive (GDP-bound) prenylated Rab GTPases are bound to GDI, which masks their isoprenyl anchor and thereby keeps the Rab in a soluble cytosolic form. 2.Membrane attachment of Rabs requires the function of a GDF that dissociates the GDI–Rab complex and allows the prenyl anchor to be inserted into the membrane. 3.Specific GEFs exchange the bound GDP for GTP, thereby activating the Rab GTPases. 4.The active, membrane-bound Rabs are then able to fulfill their various functions in membrane traffic by binding to their specific effector proteins. 5.Finally, specific GAPs inactivate the Rabs by accelerating the hydrolysis of the bound GTP into GDP. 6.The inactive, GDP-bound Rabs can then be extracted from the membrane by GDI and recycled for another round of function Grosshans B L et al. PNAS 2006;103:11821-11827 Sivars U., et al. Yip3 catalyses the dissociation of the endosomal Rab-GDI complex Nature 2003, 425: 856 Yip3 as a GDF for Rab9 and Rab5 Pfeffer S. 2004 Nature Reviews Mol. Cell Biol. Conclusion: Lgl1 is a GDF for Rab10 Evidence 1: Lgl1 binds to Rab10 directly, mainly GDP-bound form Evidence 2: Lgl1 displaces the Rab10-GDI complex in HEK293 cells GDI Rab10 Lgl GDI Rab10 Lgl Lgl1 displaces the Rab10-GDI complex in vitro Evidence 3: Lgl1 activates Rab10 by releasing GDI Evidence 4: Lgl1 recruits Rab10 from the GDI-Rab10 complex into Phosphatidylcholine (PC) liposomes GDI Rab10 GDF Rab10 GDI Membrane vesicles Vesicle floating assay Domain mapping for GDF activity Direct association of Lgl with PPV Paramagnetic beads coated with purified Lgl1 protein were incubated with cortical neuron postnuclear supernatant Identity of Lgl1-associated vesicle Negative: Rab5 (early endosome) Rab11 (recycling endosome) VAMP2 (synaptic vesicle) Bip (Endoplasmic Reticulum) Positive: TGN38 (trans-golgi network) TrkB, Frizzled7, IGFR (growth factor receptors) Dvl, Par3, Par6, aPKC (polarity proteins) TIRF analysis of PPV fusion Total internal reflection fluorescence microscope TIRF events for pHLuorin-TrkB Role of Lgl1/Rab10 in neuronal polarization in vivo Conclusion Both Lgl1 and Rab10 are essential for directional membrane fusion and axon development Lgl1 is a newly identified GDF for Rab10 Rab10 acts downstream of Lgl1 in regulating membrane insertion underlying axon development Wang T., Liu Y., et al. Dev. Cell 2011, 21: 431 Polarized membrane insertion effectors Cytoplasma Rab10-GTP Lipid bilayer Rab10-GDP GDI Rab10-GDP Lgl Plasmalemmal precursor vesicles Acknowledgement Funding support: Chinese Academy of Sciences Natural Science Foundation of China Wang Tong(王彤) Liu Yang (刘阳) Chinese Ministry of Science and Technology Thanks for attention ! Role of Lgl1/Rab10 in corticl neurogenesis Role of Rab8 and Rab13 in neuronal polarity Lgl1 cannot displace the complex of Rab8/GDI or Rab13/GDI Lgl-C is sufficient to recruit Rab10 to membrane fraction Role of Lgl1/Rab10 in corticl neurogenesis