摘要
GIT1,a G-protein-coupled receptor kinase interacting protein,has been reported to be involved in neurite outgrowth.However,the neurobiological functions of the protein remain unclear.In this study,we found that GIT1 was highly expressed in the nervous system,and its expression was maintained throughout all stages of neuritogenesis in the brain.In primary cultured mouse hippocampal neurons from GIT1 knockout mice,there was a significant reduction in total neurite length per neuron,as well as in the average length of axon-like structures,which could not be prevented by nerve growth factor treatment.Overexpression of GIT1 significantly promoted axon growth and fully rescued the axon outgrowth defect in the primary hippocampal neuron cultures from GIT1 knockout mice.The GIT1 N terminal region,including the ADP ribosylation factor-GTPase activating protein domain,the ankyrin domains and the Spa2 homology domain,were sufficient to enhance axonal extension.Importantly,GIT1 bound to many tubulin proteins and microtubule-associated proteins,and it accelerated microtubule assembly in vitro.Collectively,our findings suggest that GIT1 promotes neurite outgrowth,at least partially by stimulating microtubule assembly.This study provides new insight into the cellular and molecular pathogenesis of GIT1-associated neurological diseases.
GIT1,a G-protein-coupled receptor kinase interacting protein,has been reported to be involved in neurite outgrowth.However,the neurobiological functions of the protein remain unclear.In this study,we found that GIT1 was highly expressed in the nervous system,and its expression was maintained throughout all stages of neuritogenesis in the brain.In primary cultured mouse hippocampal neurons from GIT1 knockout mice,there was a significant reduction in total neurite length per neuron,as well as in the average length of axon-like structures,which could not be prevented by nerve growth factor treatment.Overexpression of GIT1 significantly promoted axon growth and fully rescued the axon outgrowth defect in the primary hippocampal neuron cultures from GIT1 knockout mice.The GIT1 N terminal region,including the ADP ribosylation factor-GTPase activating protein domain,the ankyrin domains and the Spa2 homology domain,were sufficient to enhance axonal extension.Importantly,GIT1 bound to many tubulin proteins and microtubule-associated proteins,and it accelerated microtubule assembly in vitro.Collectively,our findings suggest that GIT1 promotes neurite outgrowth,at least partially by stimulating microtubule assembly.This study provides new insight into the cellular and molecular pathogenesis of GIT1-associated neurological diseases.
基金
supported by the grants to HLS from the National Natural Science Foundation of China(81371507)
Medicine and Engineering Cross-talking Funds of Shanghai Jiao Tong University(YG2013MS40)
Science and Technology Projects of Shanghai Jiao Tong University Medical School(13XJ10016)
the National Basic Research Program of China(973 Program
2013CB945600)
by the grants to WQG from the Chinese Ministry of Science and Technology(2012CB966800 and 2013CB945600)
the National Natural Science Foundation of China(81130038 and 81372189)
the Science and Technology Commission of Shanghai Municipality(Pujiang Program)
the Shanghai Health Bureau Key Disciplines and Specialties Foundation
the Shanghai Education Committee Key Discipline and Specialties Foundation(J50208)
KC Wong Foundation
