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11

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Time of neuron origin and gradients of neurogenesis in midbrain dopaminergic neurons in the mouse (1995)

Bayer, Shirley A. ; Wills, Katherine V. ; Triarhou, Lazaros C. ; [et al.]

Springer

Experimental brain research 105 (1995), S. 191-199

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ISSN: 1432-1106

Keywords: [3H]Thymidine autoradiography ; Substantia nigra pars compacta ; Retrorubral field ; Ventral tegmental area ; Interfascicular nucleus ; Mouse

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Previous [3H]thymidine studies in Nisslstained sections in rats established that the substantia nigra pars compacta and the ventral tegmental area originate sequentially according to an anterolateral to posteromedial neurogenetic gradient. We investigated whether that same pattern is found in mice in the dopaminergic neurons in each of these structures. Using tyrosine hydroxylase immunostaining combined with [3H]thymidine autoradiography, the time of origin of dopaminergic midbrain neurons in the retrorubral field, the substantia nigra pars compacta, the ventral tegmental area, and the interfascicular nucleus was determined in postnatal day 20 mice. The dams of the experimental animals were injected with [3H]thymidine on embryonic days (E) 11–E12, E12–E13, E13–E14, and E14–E15. The time of origin profiles for each group indicated significant differences between populations. The retrorubral field and the substantia nigra pars compacta arose nearly simultaneously and contained the highest proportion of neurons, 49 to 37%, generated on or before E11. Progressively fewer early-generated neurons were found in the ventral tegmental area (20%), and the interfascicular nucleus (8.5%). In addition, anterior dorsolateral neurons in the substantia nigra and ventral tegmental area were more likely to be generated early than the posterior ventromedial neurons. These findings indicate that mouse and rat brains have nearly identical developmental patterns in the midbrain, and neurogenetic gradients in dopaminergic neurons are similar to those found in Nissl studies in rats.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00240955

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12

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Systematic differences in time of dopaminergic neuron origin between normal mice and homozygous weaver mutants (1995)

Bayer, Shirley A. ; Wills, Katherine V. ; Triarhou, Lazaros C. ; [et al.]

Springer

Experimental brain research 105 (1995), S. 200-208

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ISSN: 1432-1106

Keywords: [3H]thymidine autoradiography ; Substantianigra pars compacta ; Retrorubral field, ventral tegmental area ; Interfascicular nucleus ; Mouse

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Immunocytochemical labeling for tyrosine hydroxylase and [3H]thymidine autoradiography were combined in wild-type mice and in mice homozygous for the weaver mutant gene (wv) to see whether the neurogenetic patterns of midbrain dopaminergic neurons was normal in the mutants and whether the degeneration of dopaminergic neurons was linked to their time of origin. Dams of wild-type and homozygous weaver mice were injected with [3H]thymidine on embryonic days (E) 11–E12, E12–E13, E13–E14, and E14-E15 to label neurons in the retrorubral field, the substantia nigra pars compacta, the ventral tegmental area, and the interfascicular nucleus as they were being generated. The quantitatively determined time of origin profiles indicated that wv/wv mice have the same time span of neurogenesis as +/+ mice (E10 to E14), but have significant deficits in the proportion of late-generated neurons in each dopaminergic population. In the retrorubral field and substantia nigra, weaver homozygotes had substantial losses of dopaminergic neurons and had a greater deficit in the proportion of neurons generated late while, in the ventral tegmental area and interfascicular nucleus, there were slight losses of dopaminergic neurons and only slight deficits in the proportion of late-generated neurons. These findings lead to the conclusion that the weaver gene is specifically targeting dopaminergic neurons that are generated late, mainly on E13 and E14.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00240956

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13

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Atrophy and loss of dopaminergic mesencephalic neurons in heterozygous weaver mice (1997)

Verina, Tatyana ; Norton, James A. ; Sorbel, Jeffrey J. ; [et al.]

Springer

Experimental brain research 113 (1997), S. 5-12

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ISSN: 1432-1106

Keywords: Heterozygous weaver mice ; Midbrain dopamine neurons ; TH immunochemistry ; Cell count ; Striatum

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The phenotypic effect of theweaver mutation in the ventral midbrain of homozygous mutants is associated with the progressive loss of dopaminergic neurons. To discover whether the number of mesencephalic dopaminergic cells is altered in weaver heterozygotes (wv/+), we studied mice between 20 and 365 days of age. We counted tyrosine hydroxylase (TH)-immunopositive cells in the substantia nigra (SN), retrorubral nucleus (RRN), and ventral tegmental area (VTA), and measured cross-sectional areas of neuronal somata in the SN ofwv/+ and age-matched wild-type controls (+/+). The number of TH-positive cells in thewv+ ventral midbrain was on average 13% lower than normal. Cell loss was detected selectively in the SN (12%) and VTA (23%). The areas of somatic profiles in thewv/+ nigral neurons were on average reduced by 9.8%. The neuronal losses in the SN and VTA correlated with a 13.8% reduction in dopamine level in the ventral striatum inwv/+ mice at 14–16 months of age. Our findings imply that a single dose of theweaver gene in the mouse is associated with cellular damage leading to a chronic deficiency in the mesostriatal dopaminergic system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02454137

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14

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Layer-specific innervation of the dopamine-deficient frontal cortex in weaver mutant mice by grafted mesencephalic dopaminergic neurones (1988)

Triarhou, Lazaros C. ; Low, Walter C. ; Ghetti, Bernardino

Springer

Cell & tissue research 254 (1988), S. 11-15

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ISSN: 1432-0878

Keywords: Dopamine ; Frontal cortex ; Cingulate cortex ; Neural transplant ; Selective reinnervation ; Substantia nigra ; Ventral tegmental area ; Weaver mutant mouse

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The dopamine innervation of the frontal cortex originates in the A9 and A10 mesencephalic dopamine cell groups. In weaver mutant mice, there is a 77% frontocortical dopamine deficiency associated with losses of dopamine neurones in areas A9 and A10. The dopamine-depleted cortical areas of weaver mutant mice are receptive to reinnervation by afferent fibres originating in dopamine-containing mesencephalic grafts from normal donor embryos. In the anteromedial frontal lobe, reinnervation by tyrosine hydroxylase immunoreactive fibres is largely confined to the basal cortical layers whereas in the anterior cingulate cortex, tyrosine hydroxylase immunoreactive fibres also occupy superficial layers, including the molecular layer. Normally, the dopaminergic innervation of the anteromedial frontal lobe is distributed among the basal cortical layers (IV–VI), and the dopaminergic innervation of the cingulate cortex occupies both basal and superficial cortical layers. The pattern of innervation following transplantation indicates that, in repopulating dopamine-deficient cortical areas of recipient weaver mutants, graft-derived dopamine fibres show a preference for those layers which are normally invested by dopamine afferents.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00220011

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15

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Reinstatement of synaptic connectivity in the striatum of weaver mutant mice following transplantation of ventral mesencephalic anlagen (1988)

Triarhou, Lazaros C. ; Low, Walter C. ; Norton, James ; [et al.]

Springer

Journal of neurocytology 17 (1988), S. 233-243

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Ventral mesencephalic anlagen survive following grafting to the striatum of weaver mutant mice and reinnervate the dopamine-depleted basal ganglia of the recipients. The aim of the present study was to examine the pattern of connectivity established by graft-deriving dopamine afferents in the host striatum. Grafts were obtained from normal embryos at a gestational age of 14–15 days and implanted into a surgical cavity overlying the dorsal striatum of adult weaver recipients. Tissue was processed for electron microscopic immunocytochemistry using a primary antiserum against tyrosine hydroxylase. At the time of examination, recipient weaver mutants were 8.5 months old and the grafts had survived for 4.5 months. Grafts were found to contain an estimated 100–1000 tyrosine hydroxylase immunoreactive neurons. Tyrosine hydroxylase immunoreactive fibres, displaying characteristic varicosities, innervated the dorsal striatum to a depth of 1000 µm. In the non-grafted striatum, 8% of the contacts of tyrosine hydroxylase immunoreactive nerve terminals were junctional. That proportion contrasted with the corresponding value of normal animals, which is 27%. In the grafted striatum, 29% of the contacts were junctional. That percentage approximated the value found in normal animals. By applying a stereological correction, it can be estimated from those numbers that thetrue proportion of junctional contacts in the non-grafted striatum of 8.5-month-old mutants may be 26%, whereas that in the grafted side may be 91%, which is close to the normal situation. The majority of contacts in the reinnervated striatum (84%) were made with dendrites and spines. However, the proportion of total axosomatic contacts in the reinnervated striatum was twice as high as that found in the striatum of normal animals, and the proportion of junctional synapses was three times higher than that found normally. We conclude that: (1) in spite of a genetically determined degenerative process, the dorsal neostriatum of weaver mutant mice is receptive to synaptic investment by dopamine afferents originating in normal donor tissue. (2) In repopulating the denervated weaver striatum, graft-deriving dopamine afferents display a connectional selectivity, i.e. they establish synaptic relations preferentially with those cellular domains that are normally innervated by dopamine nerve terminals. In this context, it is possible that dopamine fibres originating in the grafts invest postsynaptic sites that had either been vacated from the intrinsic dopamine input or had never received such an input. (3) The striatal connectivity following transplantation may retain features of immaturity as suggested by the increased incidence of axosomatic contacts, a feature of the developing nigrostriatal projection.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01674210

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16

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The fate of synaptic membranes of degenerating optic nerve terminals, and their role in the mechanism of trans-synaptic changes (1972)

Wiśniewski, Henryk M. ; Ghetti, Bernardino ; Horoupian, Dikran S.

Springer

Journal of neurocytology 1 (1972), S. 297-310

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ISSN: 1573-7381

Keywords: Lateral geniculate nucleus ; optic nerve terminals ; synaptic membranes ; post-synaptic dendrite ; phagocytosis ; trans-synaptic degeneration

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The fate of synaptic membranes of degenerating optic nerve terminals has been studied in the lateral geniculate nucleus of Rhesus monkey after eye enucleation. It was shown that pre-synaptic and post-synaptic membranes remain in close apposition to each other during all stages of degeneration and phagocytosis of affected terminals. As a result of this, fragments of presynaptic terminals were engulfed within glial processes, together with synaptic thickenings and parts of post-synaptic dendrites. On occasion small pieces of the degenerating terminals together with the synaptic membranes were engulfed by the post-synaptic dendrite. It is proposed that this pattern of removal of degenerating optic terminals results in injury to the post-synaptic cells, and triggers the transneuronal degeneration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01099940

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17

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Synaptic connectivity of tyrosine hydroxylase immunoreactive nerve terminals in the striatum of normal, heterozygous and homozygous weaver mutant mice (1988)

Triarhou, Lazaros C. ; Norton, James ; Ghetti, Bernardino

Springer

Journal of neurocytology 17 (1988), S. 221-232

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Striatal dopamine deficiency in weaver mutant mice is associated with loss of mesencephalic dopamine neurons. The maximum dopamine concentration in the striatum of weaver mutants is found on postnatal day 20, when it represents 50% of the control value. By day 180, it declines to 25% of the control value. Correspondingly, the number of nigral dopamine neurons is 58% of the normal number on day 20 and becomes 31% of the normal value by day 90. The aim of the present study was to examine whether dopamine axon terminals in the weaver striatum establish synaptic connections with postsynaptic neurons at the time when striatal dopamine concentration is at its peak value (i.e. on postnatal day 20), and if so, to compare the profile of synaptic connectivity of dopamine axon terminals found in the striatum of normal mice with that of heterozygous and homozygous weaver mutants. To that end, 20-day-old weaver homozygotes, along with age-matched weaver heterozygotes and wild-type mice were studied by electron microscopy after immunocytochemical labelling for tyrosine hydroxylase. A single micrograph of each of 1543 dopamine axon terminals was examined in total in the three genotypes; quantitative analyses of the relations of tyrosine hydroxylase immunoreactive nerve terminals were carried out in the dorsolateral striatum, which receives the dopamine projection from the substantia nigra proper. In all three genotypes, junctional contacts formed by tyrosine hydroxylase immunoreactive nerve terminals in the striatum were predominantly of the symmetrical type. In wild-type and heterozygous mice, the majority of contacts (92% and 91% respectively) were formed with dendrites and spines. In weaver mutant mice, the majority of contacts (87%) were also with dendrites and spines, but the proportion of axosomatic contacts was double that found in normal animals. The proportions of contacts that displayed junctional membrane specializations in single sections were 27% in wild-type mice, 29% in weaver heterozygotes, and 17% in homozygous weaver mutants. Taking into consideration that the plane of the section might not always have included the synaptic specialization, a stereological formula was applied. It was estimated that 85–89% of the contacts may be truly junctional in the striatum of normal and heterozygous mice, whereas only 53% may be junctional in the striatum of weaver homozygotes. The reduced incidence of junctional synapses in weaver homozygotes may suggest either inadequate synaptogenesis, or an early loss of synapses after their formation, or both. Further, the increased incidence of axosomatic contacts may be indicative of synaptic immaturity, as such contacts are commonly seen in early developmental stages. Our results support the developmental nature of the nigrostriatal deficit in weaver mutants, since the synaptic investment of striatal neuronal elements by dopamine afferents appears to be immature at the time when nigrostriatal synaptogenesis is normally complete.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01674209

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18

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The fate of the axon and its terminal in the Pacinian corpuscle following sciatic nerve section (1974)

Korthals, Jan K. ; Wisniewski, Henryk M. ; Ghetti, Bernardino ; [et al.]

Springer

Journal of neurocytology 3 (1974), S. 385-403

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Central nerve fibres of Pacinian corpuscles of the cat were examined by semiserial sections 2, 3, 4, 5, 6 and 9 days after sciatic nerve cut. Axons of the Pacinian corpuscles showed degenerative changes 4 days after transsection and the removal of axonal and myelin debris was almost completed within 9 days. Axonal degeneration was characterized by disintegration of filaments and tubules, disruption of axolemma, swelling of mitochondria and loss of filopod processes in the terminal axon. Selective preservation of filaments in local areas of terminal axons was found in some corpuscles. The myelinated portions of the nerve fibre were removed by Schwann cells and the unmyelinated terminal portions by inner core lamellar cells. Mitochondria and other degenerated axoplasmic organelles of the terminal axon formed dense bodies following their engulfment by lamellar cells. The unmyelinated portion of the axon was removed faster than the myelinated. The rate of removal of axonal debris varied along the length of both the unmyelinated and myelinated portions of the nerve fibre. Similarity in the behaviour and morphology of reactive lamellar and Schwann cells points to the possibility of the common derivation of these cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01097920

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19

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Serotonin fiber innervation of cerebellar cell suspensions intraparenchymally grafted to the cerebellum ofpcd mutant mice (1992)

Triarhou, Lazaros C. ; Low, Walter C. ; Ghetti, Bernardino

Springer

Neurochemical research 17 (1992), S. 475-482

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ISSN: 1573-6903

Keywords: Cerebellar graft ; mouse, neurological mutant ; ‘Purkinje cell degeneration’ (pcd) ; serotonin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract One aspect of integration of implanted neurons into the neuronal circuitry of a defective host brain is the re-establishment of a host-to-graft afferent innervation. We addressed this issue by using the adult cerebellum of ‘Purkinje cell degeneration’ (pcd) mutant mice, which lack virtually all Purkinje cells after postnatal day (P) 45. Purkinje cells constitute one of the cerebellar cell types being innervated by axons of raphé serotonin (5-HT) neurons. In normal mice, 5-HT-immunoreactive fibers are distributed to all cerebellar folia. Following Purkinje cell loss inpcd mice, cerebellar 5-HT-immunoreactive fibers persist. Cerebellar cell suspensions were prepared from embryonic day (E) 11–13 normal mouse embryos and were intraparenchymally grafted into the cerebellum ofpcd mutants either directly or after pre-treatment with 5, 7-dihydroxytryptamine (5,7-DHT) to selectively remove 5-HT cells of donor origin. The state of Purkinje cells and 5-HT axons was monitored in alternate sections by 28-kDa Ca2+-binding protein (CaBP) and 5-HT immunocytochemistry, respectively. Serotonin-immunoreactive axons were seen in the grafts from 5 to 32 days after transplantation. In some of the grafts which had not been pre-treated with 5,7-DHT, a small number of 5-HT-immunoreactive cell bodies was found, indicating that part of the 5-HT fiber innervation of the graft could actually derive from donor cells. On the other hand, in grafts pre-treated with 5,7-DHT, no 5-HT cell bodies were seen in the grafted cerebellum; 5-HT fibre innervation of the grafts occurred, but it appeared to be slightly less robust compared to situations of co-grafted 5-HT cell bodies. These findings suggest that host 5-HT fibers are able to provide afferent innervation to donor cerebellar tissue; the presence of co-grafted 5-HT cells may augment such an innervation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00969895

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Analysis of region-specific library constructed by sequence-independent amplification of microdissected fragments surrounding weaver (wv) gene on mouse chromosome 16 (1994)

Wei, Jianjun ; Dlouhy, Stephen R. ; Zhu, Jianguo ; [et al.]

Springer

Somatic cell and molecular genetics 20 (1994), S. 401-408

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ISSN: 1572-9931

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The C3−C4 region of mouse chromosome 16 was microdissected and amplified directly by sequence-independent amplification (SIA). The SIA product was proved to originate from the microdissected region by fluorescence in situ hybridization (FISH) and was cloned into the PCR II vector (mean insert size 506 bp). Colony hybridization showed that about 59% of the clones contained either unique or low copy number sequences. Southern blot analysis of 100 unique clones demonstrated that 50 clones hybridized with single (33 clones) or multiple (17 clones) bands on blots of DNA from a hamster-mouse hybrid cell line that contains mouse chromosome 16, 13 clones hybridized with mouse but not with the hamster-mouse hybrid DNA, 19 clones contained repetitive sequences, and the remaining 18 clones failed to yield bands. One third of the 100 unique clones hybridized to human genomic DNA. Thirty-three clones were sequenced. None of them was found in GenBank. Our results demonstrate that this relatively simple method of microdissection and cloning can produce a library of good quality.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02257457

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