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E transiently transfected to express either EGF-tagged a1-syntrophin alone (a and b) or a1-syntrophin and myc-tagged LC1 (c ). Cells were fixed, co-stained for tubulin (anti-tubulin) and LC1 (anti-myc) and analyzed by fluorescence microscopy. In the absence of ectopically expressed LC1, a1-syntrophin was diffusely distributed throughout the cytoplasm (b). When co-expressed with LC1, a1-syntrophin was found to co-localize with LC1 on microtubules (c-e, arrows). Expression of LC1 causes microtubules to bundle, as has been described previously [5]. Scale bar, 20 mm. doi:10.1371/journal.pone.0049722.gMAP1A and MAP1B Interact with a1-SyntrophinMAP1B and Syntrophin Co-localize in Schwann Cells in Adult Peripheral NerveWe next analyzed the subcellular localization of MAP1B and syntrophin in peripheral nerve by staining teased fibers of sciatic nerves of wild-type and MAP1B deficient mice at different stages during postnatal development (Fig. 4). At all ages tested (4 days, 14 days, and adult) MAP1B appeared to be highly concentrated at the nodes of Ranvier (Fig. 4). Specific MAP1B staining was also observed in the abaxonal Schwann cell membrane. At postnatal day 14 this staining was particularly prominent. Syntrophin was found at the nodes of Ranvier and in the abaxonal membrane. At both locations it partially co-localized with MAP1B. Confirming previous results, we observed that, in the adult, syntrophin was localized at Cajal bands [44]. Teased fibers of wild-type and MAP1B knockout mice did not display consistent Vasopressin differences in syntrophin localization (Fig. 4). We also analyzed whether other Schwann cell proteins such as DRP2 and ezrin and the axonal protein Caspr1/paranodin were affected by deficiency in MAP1B (Fig. 5). During postnatal development and in the adult, DRP2 was expressed in characteristic clusters at the abaxonal Schwann cell membrane [35]. Ezrin was found to be expressed in defined regions which sharpened during postnatal development. These regions represent Schwann cell microvilli at the nodes of Ranvier [45]. Caspr1/paranodin marked the paranodal axonal compartments [36,46] at early and later stages (Fig. 5). No differences in DRP2, ezrin, or Caspr1/paranodin staining were observed between wild-type and MAP1B deficient fibers during postnatal development and in the adult. Moreover, no significant differences could be detected between wild-type and MAP1B deficient fibers in the distance between consecutive nodes of Ranvier (normalized to fiber diameter), in the number and spacing of Schmidt-Lantermann incisures, or in the distance from the nodes of Ranvier to the first SchmidtLantermann incisure in the internodal region (not shown).DiscussionOur results demonstrate that the light chains of MAP1A and MAP1B interact with the modular adapter protein a1-syntrophin in the central and peripheral nervous system. We identified the conserved COOH termini of the light chains and the PH2 and PDZ MedChemExpress 80-49-9 domains of syntrophin as interacting domains. The light chains of MAP1A and MAP1B have previously been reported to bind to PDZ domains of glutamate receptor interacting protein 1 [47], PDZrhoGEF [42], and neuronal nitric oxide synthase [40]. Thus, interaction with PDZ domains of target proteins involved in signal transduction emerges as a characteristic function of the COOH-terminal domain of the light chains of MAP1 proteins. The direct comparison of MAP1B expression in sciatic 1662274 nerve fibers of wild-type and MAP1B2/2 mice by immunohistochemist.E transiently transfected to express either EGF-tagged a1-syntrophin alone (a and b) or a1-syntrophin and myc-tagged LC1 (c ). Cells were fixed, co-stained for tubulin (anti-tubulin) and LC1 (anti-myc) and analyzed by fluorescence microscopy. In the absence of ectopically expressed LC1, a1-syntrophin was diffusely distributed throughout the cytoplasm (b). When co-expressed with LC1, a1-syntrophin was found to co-localize with LC1 on microtubules (c-e, arrows). Expression of LC1 causes microtubules to bundle, as has been described previously [5]. Scale bar, 20 mm. doi:10.1371/journal.pone.0049722.gMAP1A and MAP1B Interact with a1-SyntrophinMAP1B and Syntrophin Co-localize in Schwann Cells in Adult Peripheral NerveWe next analyzed the subcellular localization of MAP1B and syntrophin in peripheral nerve by staining teased fibers of sciatic nerves of wild-type and MAP1B deficient mice at different stages during postnatal development (Fig. 4). At all ages tested (4 days, 14 days, and adult) MAP1B appeared to be highly concentrated at the nodes of Ranvier (Fig. 4). Specific MAP1B staining was also observed in the abaxonal Schwann cell membrane. At postnatal day 14 this staining was particularly prominent. Syntrophin was found at the nodes of Ranvier and in the abaxonal membrane. At both locations it partially co-localized with MAP1B. Confirming previous results, we observed that, in the adult, syntrophin was localized at Cajal bands [44]. Teased fibers of wild-type and MAP1B knockout mice did not display consistent differences in syntrophin localization (Fig. 4). We also analyzed whether other Schwann cell proteins such as DRP2 and ezrin and the axonal protein Caspr1/paranodin were affected by deficiency in MAP1B (Fig. 5). During postnatal development and in the adult, DRP2 was expressed in characteristic clusters at the abaxonal Schwann cell membrane [35]. Ezrin was found to be expressed in defined regions which sharpened during postnatal development. These regions represent Schwann cell microvilli at the nodes of Ranvier [45]. Caspr1/paranodin marked the paranodal axonal compartments [36,46] at early and later stages (Fig. 5). No differences in DRP2, ezrin, or Caspr1/paranodin staining were observed between wild-type and MAP1B deficient fibers during postnatal development and in the adult. Moreover, no significant differences could be detected between wild-type and MAP1B deficient fibers in the distance between consecutive nodes of Ranvier (normalized to fiber diameter), in the number and spacing of Schmidt-Lantermann incisures, or in the distance from the nodes of Ranvier to the first SchmidtLantermann incisure in the internodal region (not shown).DiscussionOur results demonstrate that the light chains of MAP1A and MAP1B interact with the modular adapter protein a1-syntrophin in the central and peripheral nervous system. We identified the conserved COOH termini of the light chains and the PH2 and PDZ domains of syntrophin as interacting domains. The light chains of MAP1A and MAP1B have previously been reported to bind to PDZ domains of glutamate receptor interacting protein 1 [47], PDZrhoGEF [42], and neuronal nitric oxide synthase [40]. Thus, interaction with PDZ domains of target proteins involved in signal transduction emerges as a characteristic function of the COOH-terminal domain of the light chains of MAP1 proteins. The direct comparison of MAP1B expression in sciatic 1662274 nerve fibers of wild-type and MAP1B2/2 mice by immunohistochemist.

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Author: nucleoside analogue