The disorganized visual cortex in reelin-deficient mice is functional and allows for enhanced plasticity

Alcantara S, Ruiz M, D’Arcangelo G, Ezan F, de Lecea L, Curran T et al (1998) Regional and cellular patterns of reelin mRNA expression in the forebrain of the developing and adult mouse. J Neurosci 18(19):7779–7799

Antonini A, Fagiolini M, Stryker MP (1999) Anatomical correlates of functional plasticity in mouse visual cortex. J Neurosci 19(11):4388–4406

Baba K, Sakakibara S, Setsu T, Terashima T (2007) The superficial layers of the superior colliculus are cytoarchitectually and myeloarchitectually disorganized in the reelin-deficient mouse, reeler. Brain Res 1140:205–215

Baroncelli L, Braschi C, Spolidoro M, Begenisic T, Maffei L, Sale A (2011) Brain plasticity and disease: a matter of inhibition. Neural Plast 2011:286073

Boyle MP, Bernard A, Thompson CL, Ng L, Boe A, Mortrud M et al (2011) Cell-type-specific consequences of reelin deficiency in the mouse neocortex, hippocampus, and amygdala. J Comp Neurol 519(11):2061–2089

Cang J, Kalatsky VA, Löwel S, Stryker MP (2005) Optical imaging of the intrinsic signal as a measure of cortical plasticity in the mouse. Vis Neurosci 22(5):685–691

Caviness VS (1982) Neocortical histogenesis in normal and reeler mice- a developmental- study based upon [H-3] thymidin autoradiography. Dev Brain Res 4(3):293–302

Caviness VS, Sidman RL (1973) Time of origin or corresponding cell classes in the cerebral cortex of normal and reeler mutant mice: an autoradiographic analysis. J Comp Neurol 148(2):141–151

Chen Y, Beffert U, Ertunc M, Tang TS, Kavalali ET, Bezprozvanny I et al (2005) Reelin modulates NMDA receptor activity in cortical neurons. J Neurosci 25(36):8209–8216

D’Arcangelo G (2005) The reeler mouse: anatomy of a mutant. Int Rev Neurobiol 71:383–417

D’Arcangelo G, Miao GG, Chen SC, Soares HD, Morgan JI, Curran T (1995) A protein related to extracellular matrix proteins deleted in the mouse mutant reeler. Nature 374(6524):719–723

de Vivo L, Landi S, Panniello M, Baroncelli L, Chierzi S, Mariotti L et al (2013) Extracellular matrix inhibits structural and functional plasticity of dendritic spines in the adult visual cortex. Nat Commun 4:1484

Douglas RJ, Martin KA (2007) Mapping the matrix: the ways of neocortex. Neuron 56(2):226–238

Douglas RM, Alam NM, Silver BD, McGill TJ, Tschetter WW, Prusky GT (2005) Independent visual threshold measurements in the two eyes of freely moving rats and mice using a virtual-reality optokinetic system. Vis Neurosci 22(5):677–684

Drager UC (1981) Observations on the organization of the visual cortex in the reeler mouse. J Comp Neurol 201(4):555–570

Espinosa JS, Stryker MP (2012) Development and plasticity of the primary visual cortex. Neuron 75(2):230–249

Fagiolini M, Fritschy JM, Low K, Mohler H, Rudolph U, Hensch TK (2004) Specific GABAA circuits for visual cortical plasticity. Science 303(5664):1681–1683

Falconer DS (1951) Two new mutants, ‘trembler’ and ‘reeler’, with neurological actions in the house mouse (Mus musculus L.). J Genet 50(2):192–201

Galtrey CM, Fawcett JW (2007) The role of chondroitin sulfate proteoglycans in regeneration and plasticity in the central nervous system. Brain Res Rev 54(1):1–18

Giolli RA, Blanks RH, Lui F (2005) The accessory optic system: basic organization with an update on connectivity, neurochemistry, and function. Prog Brain Res 151:407–440

Goffinet AM (1984a) Abnormal development of the facial nerve nucleus in reeler mutant mice. J Anat 138(Pt 2):207–215

Goffinet AM (1984b) Phylogenetic determinants of radial organization in the cerebral cortex. Z Mikrosk Anat Forsch 98(6):909–925

Goldowitz D, Koch J (1986) Performance of normal and neurological mutant mice on radial arm maze and active avoidance tasks. Behav Neural Biol 46(2):216–226

Gordon JA, Stryker MP (1996) Experience-dependent plasticity of binocular responses in the primary visual cortex of the mouse. J Neurosci 16(10):3274–3286

Greifzu F, Pielecka-Fortuna J, Kalogeraki E, Krempler K, Favaro PD, Schluter OM et al (2014) Environmental enrichment extends ocular dominance plasticity into adulthood and protects from stroke-induced impairments of plasticity. Proc Natl Acad Sci USA 111(3):1150–1155

Guy J, Wagener RJ, Mock M, Staiger JF (2014) “Persistence of functional sensory maps in the absence of cortical layers in the somsatosensory cortex of reeler mice.” Cereb Cortex

Harauzov A, Spolidoro M, DiCristo G, De Pasquale R, Cancedda L, Pizzorusso T et al (2010) Reducing intracortical inhibition in the adult visual cortex promotes ocular dominance plasticity. J Neurosci 30(1):361–371

Hartig W, Brauer K, Bigl V, Bruckner G (1994) Chondroitin sulfate proteoglycan-immunoreactivity of lectin-labeled perineuronal nets around parvalbumin-containing neurons. Brain Res 635(1–2):307–311

Hensch TK (2005) Critical period plasticity in local cortical circuits. Nat Rev Neurosci 6(11):877–888

Hensch TK, Fagiolini M, Mataga N, Stryker MP, Baekkeskov S, Kash SF (1998) Local GABA circuit control of experience-dependent plasticity in developing visual cortex. Science 282(5393):1504–1508

Herz J, Chen Y (2006) Reelin, lipoprotein receptors and synaptic plasticity. Nat Rev Neurosci 7(11):850–859

Huang ZJ, Kirkwood A, Pizzorusso T, Porciatti V, Morales B, Bear MF et al (1999) BDNF regulates the maturation of inhibition and the critical period of plasticity in mouse visual cortex. Cell 98(6):739–755

Jiang B, Huang S, de Pasquale R, Millman D, Song L, Lee HK et al (2010) The maturation of GABAergic transmission in visual cortex requires endocannabinoid-mediated LTD of inhibitory inputs during a critical period. Neuron 66(2):248–259

Kalatsky VA, Stryker MP (2003) New paradigm for optical imaging: temporally encoded maps of intrinsic signal. Neuron 38(4):529–545

Kirkwood A, Lee HK, Bear MF (1995) Co-regulation of long-term potentiation and experience-dependent synaptic plasticity in visual cortex by age and experience. Nature 375(6529):328–331

Ko H, Hofer SB, Pichler B, Buchanan KA, Sjostrom PJ, Mrsic-Flogel TD (2011) Functional specificity of local synaptic connections in neocortical networks. Nature 473(7345):87–91

Ko H, Cossell L, Baragli C, Antolik J, Clopath C, Hofer SB et al (2013) The emergence of functional microcircuits in visual cortex. Nature 496(7443):96–100

Lehmann K, Löwel S (2008) Age-dependent ocular dominance plasticity in adult mice. PLoS ONE 3(9):e3120

Lein ES, Hawrylycz MJ, Ao N, Ayres M, Bensinger A, Bernard A et al (2007) Genome-wide atlas of gene expression in the adult mouse brain. Nature 445(7124):168–176

Levelt CN, Hübener M (2012) Critical-period plasticity in the visual cortex. Annu Rev Neurosci 35:309–330

Li Y, Lu H, Cheng PL, Ge S, Xu H, Shi SH et al (2012) Clonally related visual cortical neurons show similar stimulus feature selectivity. Nature 486(7401):118–121

Markov NT, Ercsey-Ravasz M, Van Essen DC, Knoblauch K, Toroczkai Z, Kennedy H (2013) Cortical high-density counterstream architectures. Science 342(6158):1238406

Marrone MC, Marinelli S, Biamonte F, Keller F, Sgobio CA, Ammassari-Teule M et al (2006) Altered cortico-striatal synaptic plasticity and related behavioural impairments in reeler mice. Eur J Neurosci 24(7):2061–2070

Martin MR (1981) Morphology of the cochlear nucleus of the normal and reeler mutant mouse. J Comp Neurol 197(1):141–152

Maya Vetencourt JF, Sale A, Viegi A, Baroncelli L, De Pasquale R, O’Leary OF et al (2008a) The antidepressant fluoxetine restores plasticity in the adult visual cortex. Science 320(5874):385–388

Maya Vetencourt JF, Sale A, Viegi A, Baroncelli L, De Pasquale R, O’Leary OF et al (2008b) The antidepressant fluoxetine restores plasticity in the adult visual cortex. Science 320(5874):385–388

Morishita H, Miwa JM, Heintz N, Hensch TK (2010) Lynx1, a cholinergic brake, limits plasticity in adult visual cortex. Science 330(6008):1238–1240

Pizzorusso T, Medini P, Berardi N, Chierzi S, Fawcett JW, Maffei L (2002) Reactivation of ocular dominance plasticity in the adult visual cortex. Science 298(5596):1248–1251

Prusky GT, Douglas RM (2004) Characterization of mouse cortical spatial vision. Vision Res 44(28):3411–3418

Prusky GT, West PW, Douglas RM (2000) Behavioral assessment of visual acuity in mice and rats. Vision Res 40(16):2201–2209

Prusky GT, Alam NM, Beekman S, Douglas RM (2004) Rapid quantification of adult and developing mouse spatial vision using a virtual optomotor system. Invest Ophthalmol Vis Sci 45(12):4611–4616

Prusky GT, Alam NM, Douglas RM (2006) Enhancement of vision by monocular deprivation in adult mice. J Neurosci 26(45):11554–11561

Ramos-Moreno T, Galazo MJ, Porrero C, Martinez-Cerdeno V, Clasca F (2006) Extracellular matrix molecules and synaptic plasticity: immunomapping of intracellular and secreted Reelin in the adult rat brain. Eur J Neurosci 23(2):401–422

Rice DS, Nusinowitz S, Azimi AM, Martinez A, Soriano E, Curran T (2001) The reelin pathway modulates the structure and function of retinal synaptic circuitry. Neuron 31(6):929–941

Sato M, Stryker MP (2008) Distinctive features of adult ocular dominance plasticity. J Neurosci 28(41):10278–10286

Simmons PA, Pearlman AL (1982) Retinotopic organization of the striate cortex (area 17) in the reeler mutant mouse. Brain Res 256(1):124–126

Simmons PA, Lemmon V, Pearlman AL (1982) Afferent and efferent connections of the striate and extrastriate visual cortex of the normal and reeler mouse. J Comp Neurol 211(3):295–308

Sinex DG, Burdette LJ, Pearlman AL (1979) A psychophysical investigation of spatial vision in the normal and reeler mutant mouse. Vision Res 19(8):853–857

Stranahan AM, Erion JR, Wosiski-Kuhn M (2013) Reelin signaling in development, maintenance, and plasticity of neural networks. Ageing Res Rev 12(3):815–822

Su J, Haner CV, Imbery TE, Brooks JM, Morhardt DR, Gorse K et al (2011) Reelin Is Required for Class-Specific Retinogeniculate Targeting. J Neurosci 31(2):575–586

Sugiyama S, Di Nardo AA, Aizawa S, Matsuo I, Volovitch M, Prochiantz A et al (2008) Experience-dependent transfer of Otx2 homeoprotein into the visual cortex activates postnatal plasticity. Cell 134(3):508–520

Wagener RJ, David C, Zhao ST, Haas CA, Staiger JF (2010) The somatosensory cortex of reeler mutant mice shows absent layering but intact formation and behavioral activation of columnar somatotopic maps. J Neurosci 30(46):15700–15709

Ye Q, Miao QL (2013) Experience-dependent development of perineuronal nets and chondroitin sulfate proteoglycan receptors in mouse visual cortex. Matrix Biol 32(6):352–363

Yoshihara Y, Setsu T, Katsuyama Y, Kikkawa S, Terashima T, Maeda K (2010) Cortical layer V neurons in the auditory and visual cortices of normal, reeler, and yotari mice. Kobe J Med Sci 56(2):E50–E59