Zebrin II Is Ectopically Expressed in Microglia in the Cerebellum of Neurogenin 2 Null Mice (original) (raw)
Brochu G, Maler L, Zebrin HR II. A polypeptide antigen expressed selectively by Purkinje cells reveals compartments in rat and fish cerebellum. J Comp Neurol. 1990;291(4):538–52. ArticleCASPubMed Google Scholar
Eisenman LM, Hawkes R. Antigenic compartmentation in the mouse cerebellar cortex: zebrin and HNK-1 reveal a complex, overlapping molecular topography. J Comp Neurol. 1993;335(4):586–605. ArticleCASPubMed Google Scholar
Sillitoe RV, Marzban H, Larouche M, Zahedi S, Affanni J, Hawkes R. Conservation of the architecture of the anterior lobe vermis of the cerebellum across mammalian species. Prog Brain Res. 2005;148:283–97. ArticlePubMed Google Scholar
Pakan JM, Iwaniuk AN, Wylie DR, Hawkes R, Marzban H. Purkinje cell compartmentation as revealed by zebrin II expression in the cerebellar cortex of pigeons (Columba livia). J Comp Neurol. 2007;501(4):619–30. ArticleCASPubMed Google Scholar
Marzban H, Hawkes R. On the architecture of the posterior zone of the cerebellum. Cerebellum. 2011;10(3):422–34. ArticlePubMed Google Scholar
Marzban H, Zahedi S, Sanchez M, Hawkes R. Antigenic compartmentation of the cerebellar cortex in the Syrian hamster Mesocricetus auratus. Brain Res. 2003;974(1):176–83. ArticleCASPubMed Google Scholar
Kim JY, Marzban H, Chung SH, Watanabe M, Eisenman LM, Hawkes R. Purkinje cell compartmentation of the cerebellum of microchiropteran bats. J Comp Neurol. 2009;517(2):193–209. ArticleCASPubMed Google Scholar
Sillitoe RV, Malz CR, Rockland K, Hawkes R. Antigenic compartmentation of the primate and tree shrew cerebellum: a common topography of zebrin II in Macaca mulatta and Tupaia belangeri. J Anat. 2004;204(4):257–69. ArticlePubMedPubMed Central Google Scholar
Staugaitis SM, Zerlin M, Hawkes R, Levine JM, Goldman JE. Aldolase C/zebrin II expression in the neonatal rat forebrain reveals cellular heterogeneity within the subventricular zone and early astrocyte differentiation. J Neurosci Off J Soc Neurosci. 2001;21(16):6195–205. ArticleCAS Google Scholar
Caffe AR, Von Schantz M, Szel A, Voogd J, Van Veen T. Distribution of Purkinje cell-specific Zebrin-II/aldolase C immunoreactivity in the mouse, rat, rabbit, and human retina. J Comp Neurol. 1994;348(2):291–7. ArticleCASPubMed Google Scholar
Popovici T, Berwald-Netter Y, Vibert M, Kahn A, Skala H. Localization of aldolase C mRNA in brain cells. FEBS Lett. 1990;268(1):189–93. ArticleCASPubMed Google Scholar
Fode C, Ma Q, Casarosa S, Ang SL, Anderson DJ, Guillemot F. A role for neural determination genes in specifying the dorsoventral identity of telencephalic neurons. Genes Dev. 2000;14(1):67–80. CASPubMedPubMed Central Google Scholar
Parras CM, Schuurmans C, Scardigli R, Kim J, Anderson DJ, Guillemot F. Divergent functions of the proneural genes Mash1 and Ngn2 in the specification of neuronal subtype identity. Genes Dev. 2002;16(3):324–38. ArticleCASPubMedPubMed Central Google Scholar
Schuurmans C, Armant O, Nieto M, Stenman JM, Britz O, Klenin N, et al. Sequential phases of cortical specification involve Neurogenin-dependent and -independent pathways. EMBO J. 2004;23(14):2892–902. ArticleCASPubMedPubMed Central Google Scholar
Salsano E, Croci L, Maderna E, Lupo L, Pollo B, Giordana MT, et al. Expression of the neurogenic basic helix-loop-helix transcription factor NEUROG1 identifies a subgroup of medulloblastomas not expressing ATOH1. Neuro-oncology. 2007;9(3):298–307. ArticleCASPubMedPubMed Central Google Scholar
Zordan P, Croci L, Hawkes R, Consalez GG. Comparative analysis of proneural gene expression in the embryonic cerebellum. Dev Dyn Off Publ Am Assoc Anatomists. 2008;237(6):1726–35. CAS Google Scholar
Henke RM, Savage TK, Meredith DM, Glasgow SM, Hori K, Dumas J, et al. Neurog2 is a direct downstream target of the Ptf1a-Rbpj transcription complex in dorsal spinal cord. Development (Cambridge, England). 2009;136(17):2945–54. ArticleCAS Google Scholar
Florio M, Leto K, Muzio L, Tinterri A, Badaloni A, Croci L, et al. Neurogenin 2 regulates progenitor cell-cycle progression and Purkinje cell dendritogenesis in cerebellar development. Development (Cambridge, England). 2012;139(13):2308–20. ArticleCAS Google Scholar
Figueiredo C, Pais TF, Gomes JR, Chatterjee S. Neuron-microglia crosstalk up-regulates neuronal FGF-2 expression which mediates neuroprotection against excitotoxicity via JNK1/2. J Neurochem. 2008;107(1):73–85. ArticleCASPubMed Google Scholar
Cunningham C. Microglia and neurodegeneration: the role of systemic inflammation. Glia. 2013;61(1):71–90. ArticlePubMed Google Scholar
Mrak RE, Griffin WS. Glia and their cytokines in progression of neurodegeneration. Neurobiol Aging. 2005;26(3):349–54. ArticleCASPubMed Google Scholar
Rock RB, Gekker G, Hu S, Sheng WS, Cheeran M, Lokensgard JR, et al. Role of microglia in central nervous system infections. Clin Microbiol Rev. 2004;17(4):942–64. table of contents ArticleCASPubMedPubMed Central Google Scholar
Wong EL, Stowell RD, Majewska AK. What the Spectrum of microglial functions can teach us about fetal alcohol Spectrum disorder. Front Synaptic Neurosci. 2017;9:11. ArticlePubMedPubMed CentralCAS Google Scholar
Marin-Teva JL, Dusart I, Colin C, Gervais A, van Rooijen N, Mallat M. Microglia promote the death of developing Purkinje cells. Neuron. 2004;41(4):535–47. ArticleCASPubMed Google Scholar
Polazzi E, Gianni T, Contestabile A. Microglial cells protect cerebellar granule neurons from apoptosis: evidence for reciprocal signaling. Glia. 2001;36(3):271–80. ArticleCASPubMed Google Scholar
Ma Q, Anderson DJ, Fritzsch B. Neurogenin 1 null mutant ears develop fewer, morphologically normal hair cells in smaller sensory epithelia devoid of innervation. J Assoc Res Otolaryngol. 2000;1(2):129–43. ArticleCASPubMedPubMed Central Google Scholar
Ma Q, Fode C, Guillemot F, Anderson DJ. Neurogenin1 and neurogenin2 control two distinct waves of neurogenesis in developing dorsal root ganglia. Genes Dev. 1999;13(13):1717–28. ArticleCASPubMedPubMed Central Google Scholar
Ma Q, Chen Z, del Barco Barrantes I, de la Pompa JL, Anderson DJ. neurogenin1 is essential for the determination of neuronal precursors for proximal cranial sensory ganglia. Neuron. 1998;20(3):469–82. ArticleCASPubMed Google Scholar
Mattar P, Britz O, Johannes C, Nieto M, Ma L, Rebeyka A, et al. A screen for downstream effectors of Neurogenin2 in the embryonic neocortex. Dev Biol. 2004;273(2):373–89. ArticleCASPubMed Google Scholar
Bailey K, Balaei MR, Mannan A, Del Bigio MR, Marzban H. Purkinje cell compartmentation in the cerebellum of the lysosomal acid phosphatase 2 mutant mouse (nax-naked-ataxia mutant mouse). PLoS One. 2014;9(4):e94327. ArticlePubMedPubMed CentralCAS Google Scholar
Bailey K, Balaei MR, Mehdizadeh M, Marzban H. Spatial and temporal expression of lysosomal acid phosphatase 2 (ACP2) reveals dynamic patterning of the mouse cerebellar cortex. Cerebellum. 2013;12(6):870–81. ArticleCASPubMed Google Scholar
Chung SH, Marzban H, Aldinger K, Dixit R, Millen K, Schuurmans C, et al. Zac1 plays a key role in the development of specific neuronal subsets in the mouse cerebellum. Neural Dev. 2011;6:25. ArticlePubMedPubMed Central Google Scholar
Hazama GI, Yasuhara O, Morita H, Aimi Y, Tooyama I, Kimura H. Mouse brain IgG-like immunoreactivity: strain-specific occurrence in microglia and biochemical identification of IgG. J Comp Neurol. 2005;492(2):234–49. ArticleCASPubMed Google Scholar
Sillitoe RV, Hawkes R. Whole-mount immunohistochemistry: a high-throughput screen for patterning defects in the mouse cerebellum. J Histochem Cytochem Off J Histochem Soc. 2002;50(2):235–44. ArticleCAS Google Scholar
Wilkinson G, Dennis D, Schuurmans C. Proneural genes in neocortical development. Neuroscience. 2013;253:256–73. ArticleCASPubMed Google Scholar
Sarna JR, Marzban H, Watanabe M, Hawkes R. Complementary stripes of phospholipase Cbeta3 and Cbeta4 expression by Purkinje cell subsets in the mouse cerebellum. J Comp Neurol. 2006;496(3):303–13. ArticleCASPubMed Google Scholar
Ito D, Imai Y, Ohsawa K, Nakajima K, Fukuuchi Y, Kohsaka S. Microglia-specific localisation of a novel calcium binding protein, Iba1. Mol Brain Res. 1998;57(1):1–9. ArticleCASPubMed Google Scholar
Vedeler C, Ulvestad E, Grundt I, Conti G, Nyland H, Matre R, et al. Fc receptor for IgG (FcR) on rat microglia. J Neuroimmunol. 1994;49(1):19–24. ArticleCASPubMed Google Scholar
Saftig P, Hartmann D, Lullmann-Rauch R, Wolff J, Evers M, Koster A, et al. Mice deficient in lysosomal acid phosphatase develop lysosomal storage in the kidney and central nervous system. J Biol Chem. 1997;272(30):18628–35. ArticleCASPubMed Google Scholar
Rahimi Balaei M, Jiao X, Ashtari N, Afsharinezhad P, Ghavami S, Marzban H. Cerebellar expression of the Neurotrophin receptor p75 in naked-ataxia mutant mouse. Int J Mol Sci. 2016;17(1).
Ginhoux F, Greter M, Leboeuf M, Nandi S, See P, Gokhan S, et al. Fate mapping analysis reveals that adult microglia derive from primitive macrophages. Science. 2010;330(6005):841–5. ArticleCASPubMedPubMed Central Google Scholar
Eisenman LM, Gallagher E, Hawkes R. Regionalization defects in the weaver mouse cerebellum. J Comp Neurol. 1998;394(4):431–44. ArticleCASPubMed Google Scholar
Tano D, Napieralski JA, Eisenman LM, Messer A, Plummer J, Hawkes R. Novel developmental boundary in the cerebellum revealed by zebrin expression in the lurcher (Lc/+) mutant mouse. J Comp Neurol. 1992;323(1):128–36. ArticleCASPubMed Google Scholar
Hawkes R, Herrup K, Aldolase C. Zebrin II and the regionalization of the cerebellum. J Mol Neurosci. 1995;6(3):147–58. ArticleCASPubMed Google Scholar
Howell BW, Hawkes R, Soriano P, Cooper JA. Neuronal position in the developing brain is regulated by mouse disabled-1. Nature. 1997;389(6652):733–7. ArticleCASPubMed Google Scholar
Gallagher E, Howell BW, Soriano P, Cooper JA, Hawkes R. Cerebellar abnormalities in the disabled (mdab1–1) mouse. J Comp Neurol. 1998;402(2):238–51. ArticleCASPubMed Google Scholar
Edwards MA, Leclerc N, Crandall JE, Yamamoto M. Purkinje cell compartments in the reeler mutant mouse as revealed by Zebrin II and 90-acetylated glycolipid antigen expression. Anat Embryol. 1994;190(5):417–28. ArticleCAS Google Scholar
Goldowitz D, Cushing RC, Laywell E, D’Arcangelo G, Sheldon M, Sweet HO, et al. Cerebellar disorganization characteristic of reeler in scrambler mutant mice despite presence of reelin. J Neurosci. 1997;17(22):8767–77. ArticleCASPubMedPubMed Central Google Scholar
Sarna J, Miranda SR, Schuchman EH, Hawkes R. Patterned cerebellar Purkinje cell death in a transgenic mouse model of Niemann pick type a/B disease. Eur J Neurosci. 2001;13(10):1873–80. ArticleCASPubMed Google Scholar
Sarna JR, Larouche M, Marzban H, Sillitoe RV, Rancourt DE, Hawkes R. Patterned Purkinje cell degeneration in mouse models of Niemann-pick type C disease. J Comp Neurol. 2003;456(3):279–91. ArticlePubMed Google Scholar
Ji Z, Hawkes R. Partial ablation of the neonatal external granular layer disrupts mossy fiber topography in the adult rat cerebellum. J Comp Neurol. 1996;371(4):578–88. ArticleCASPubMed Google Scholar
McCORMICK DA, Steinmetz JE, Thompson RF. Lesions of the inferior olivary complex cause extinction of the classically conditioned eyeblink response. Brain Res. 1985;359(1–2):120–30. ArticleCASPubMed Google Scholar
Ashwell K. Microglia and cell death in the developing mouse cerebellum. Dev Brain Res. 1990;55(2):219–30. ArticleCAS Google Scholar
Kovach C, Dixit R, Li S, Mattar P, Wilkinson G, Elsen GE, et al. Neurog2 simultaneously activates and represses alternative gene expression programs in the developing neocortex. Cereb Cortex. 2013;23(8):1884–900. ArticlePubMed Google Scholar
Sun Y, Nadal-Vicens M, Misono S, Lin MZ, Zubiaga A, Hua X, et al. Neurogenin promotes neurogenesis and inhibits glial differentiation by independent mechanisms. Cell. 2001;104(3):365–76. ArticleCASPubMed Google Scholar
Fletcher CF, Lutz CM, O'Sullivan TN, Shaughnessy JD, Hawkes R, Frankel WN, et al. Absence epilepsy in tottering mutant mice is associated with calcium channel defects. Cell. 1996;87(4):607–17. ArticleCASPubMed Google Scholar
Leclerc N, Schwarting GA, Herrup K, Hawkes R, Yamamoto M. Compartmentation in mammalian cerebellum: Zebrin II and P-path antibodies define three classes of sagittally organized bands of Purkinje cells. Proc Natl Acad Sci. 1992;89(11):5006–10. ArticleCASPubMedPubMed Central Google Scholar
Sawada K, Fukui Y. Expression of tyrosine hydroxylase in cerebellar Purkinje cells of ataxic mutant mice: its relation to the onset and/or development of ataxia. J Med Invest. 2001;48(1/2):5–10. CASPubMed Google Scholar