BACKGROUND: MAP2 and tau are abundant microtubule-associated proteins (MAPs) in neurons. The development of neuronal dendrites and axons requires a dynamic interaction between microtubules and actin filaments. MAPs represent good candidates to mediate such interactions. Although MAP2c and tau have similar, well-characterized microtubule binding activities, their actin interaction is poorly understood. RESULTS: Here, we show by using a cosedimentation assay that MAP2c binds F-actin. Upon actin binding, MAP2c organizes F-actin into closely packed actin bundles. Moreover, we show by using a deletion approach that MAP2c's microtubule binding domain (MTBD) is both necessary and sufficient for both F-actin binding and bundling activities. Surprisingly, even though the MAP2 and tau MTBDs share high sequence homology and possess similar microtubule binding activities, tau is unable to bind or bundle F-actin. Furthermore, experiments with chimeric proteins demonstrate that the actin binding activity fully correlates with the ability to promote neurite initiation in neuroblastoma cells. CONCLUSIONS: These results provide the first demonstration that the MAP2c and tau MTBD domains exhibit distinct properties, diverging in actin binding and neurite initiation activities. These results implicate a novel actin function for MAP2c in neuronal morphogenesis and furthermore suggest that actin interactions could contribute to functional differences between MAP2 and tau in neurons.
BACKGROUND:MAP2 and tau are abundant microtubule-associated proteins (MAPs) in neurons. The development of neuronal dendrites and axons requires a dynamic interaction between microtubules and actin filaments. MAPs represent good candidates to mediate such interactions. Although MAP2c and tau have similar, well-characterized microtubule binding activities, their actin interaction is poorly understood. RESULTS: Here, we show by using a cosedimentation assay that MAP2c binds F-actin. Upon actin binding, MAP2c organizes F-actin into closely packed actin bundles. Moreover, we show by using a deletion approach that MAP2c's microtubule binding domain (MTBD) is both necessary and sufficient for both F-actin binding and bundling activities. Surprisingly, even though the MAP2 and tau MTBDs share high sequence homology and possess similar microtubule binding activities, tau is unable to bind or bundle F-actin. Furthermore, experiments with chimeric proteins demonstrate that the actin binding activity fully correlates with the ability to promote neurite initiation in neuroblastoma cells. CONCLUSIONS: These results provide the first demonstration that the MAP2c and tau MTBD domains exhibit distinct properties, diverging in actin binding and neurite initiation activities. These results implicate a novel actin function for MAP2c in neuronal morphogenesis and furthermore suggest that actin interactions could contribute to functional differences between MAP2 and tau in neurons.
Authors: Annette Tennstaedt; Simon Pöpsel; Linda Truebestein; Patrick Hauske; Anke Brockmann; Nina Schmidt; Inga Irle; Barbara Sacca; Christof M Niemeyer; Roland Brandt; Hanna Ksiezak-Reding; Anca Laura Tirniceriu; Rupert Egensperger; Alfonso Baldi; Leif Dehmelt; Markus Kaiser; Robert Huber; Tim Clausen; Michael Ehrmann Journal: J Biol Chem Date: 2012-04-25 Impact factor: 5.157
Authors: Lisheng He; Zhaojun Zhang; Yan Yu; Sohail Ahmed; Nam Sang Cheung; Robert Z Qi Journal: Cell Mol Life Sci Date: 2010-10-26 Impact factor: 9.261
Authors: Tara L Archuleta; Yaqing Du; Chauca A English; Stephen Lory; Cammie Lesser; Melanie D Ohi; Ryoma Ohi; Benjamin W Spiller Journal: J Biol Chem Date: 2011-08-13 Impact factor: 5.157
Authors: David J Solecki; Niraj Trivedi; Eve-Ellen Govek; Ryan A Kerekes; Shaun S Gleason; Mary E Hatten Journal: Neuron Date: 2009-07-16 Impact factor: 17.173
Authors: Kim N Green; Joan S Steffan; Hilda Martinez-Coria; Xuemin Sun; Steven S Schreiber; Leslie Michels Thompson; Frank M LaFerla Journal: J Neurosci Date: 2008-11-05 Impact factor: 6.167