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Development of the Thalamic Reticular Nucleus in Ferrets with Special Reference to the Perigeniculate and Perireticular Cell Groups (1994)

Mitrofanis, John

Oxford, UK : Blackwell Publishing Ltd

European journal of neuroscience 6 (1994), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: This study describes the development of the ferret thalamic reticular nucleus from Nissl-stained and from parvalbumin-immunostained sections. From early stages [embryonic day (E) 23-E25], there is a large group of ventral thalamic cells which lies between the dorsal thalamus and the primordial internal capsule. This group of cells, the primordial reticular nucleus, gives rise to the main body of the reticular nucleus, the perigeniculate nucleus and the perireticular nucleus. In the reticular nucleus, there are two waves of parvalbumin expression during development. The first wave begins prenatally in small cells which are seen rarely after birth. Their fate is not clear: they may have lost immunoreactivity, migrated elsewhere, or died. At the end of the first wave, a second wave begins in a distinct group of larger ovoid reticular cells, which appear to remain into adulthood. At about birth, the dorsocaudal pole of the reticular nucleus first forms the perigeniculate nucleus. During this developmental stage, cells which make up the reticular and perigeniculate nuclei are the only parvalbumin-immunostained structures in the thalamus. Thus, rather than develop from the dorsal thalamus, the perigeniculate nucleus seems to have its origins in the ventral thalamus together with the reticular nucleus. During development, the reticular nucleus is associated closely with a large mass of cells located in the internal capsule, called the perireticular nucleus. Later, the perireticular nucleus is dramatically reduced in size: that is, there is a large reduction in the number of perireticular cells seen per section and in the extent of the nucleus across the internal capsule. There are two cytoarchitectonically distinct groups of perireticular cells. One group of cells, called the large-celled perireticular zone (LPR), enters the internal capsule from early prenatal development (E25). Many of these cells reach the globus pallidus and extend as far as the cortical subplate zone. The LPR together with the subplate form an extensive neuronal network in the white matter during early development, which disappears later in development (about postnatal day 20). The second group of perireticular cells is made up of smaller cells and is called the small-celled perireticular zone (SPR). These small cells enter the internal capsule from the reticular nucleus just prior to birth. Many of the cells in the SPR remain in the adult.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1460-9568.1994.tb00268.x

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Development of the Pathway From the Reticular and Perireticular Nuclei to the Thalamus in Ferrets: A Dil Study (1994)

Mitrofanis, John

Oxford, UK : Blackwell Publishing Ltd

European journal of neuroscience 6 (1994), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: This study examines the connections of the thalamic reticular and perireticular cell groups in developing ferrets. Small crystals of Dil (1,1′-dioctadecyl-3, 3, 3′, 3′-tetramethylindocarbocyanine perchlorate) were implanted into either the dorsal thalamus or the cerebral cortex of aldehyde-fixed prenatal and postnatal ferret brains. A small implant of Dil into the presumptive lateral geniculate nucleus during early prenatal development [between embryonic day 23 (E23) and E25] reveals many retrogradely labelled cells in the reticular nucleus. At E40, just before birth, the number of cells retrogradely labelled in the reticular nucleus has become reduced compared to earlier prenatal implants, whether from small or large implants of Dil into the lateral geniculate nucleus. By postnatal day 7, an adult-like pattern of retrograde labelling is seen in the reticular nucleus; at this age, a small implant of Dil limited to the lateral geniculate nucleus retrogradely labels a discrete group of cells located in the caudal regions of the reticular nucleus. In the internal capsule, adjacent to the reticular nucleus, there are two distinct groups of neurons. One group, called the large-celled perireticular zone (LPR), enters the internal capsule very early in development (from E25; Mitrofanis, J., Eur. J. Neurosci., 6, 253–263, 1994) and is not labelled from the lateral geniculate nucleus at any developmental stage. Small implants of Dil into presumptive visual and somatosensory cortices shows that the LPR lies in a distinct region of the primordial internal capsule. Corticothalamic and thalamocortical axons turn sharply in the region of the LPR, whilst corticospinal and corticobulbar axons pass straight through the LPR on towards their more caudal targets. Later, after both sets of axons have reached their targets, the LPR is not seen in the internal capsule. The other group of cells in the internal capsule, called the small-celled perireticular zone (SPR), forms a distinct band of cells lying midway between the reticular nucleus and the globus pallidus. These cells enter the internal capsule much later in development, at about E40. Unlike the cells in the LPR, cells in the SPR are retrogradely labelled after an implant of Dil into the lateral geniculate nucleus, and there are many which remain in the adult (Clemence, A. E. and Mitrofanis, J., J. Comp. Neurol., 322, 167–181, 1992).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1460-9568.1994.tb00578.x

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Organization of the Visual Reticular Thalamic Nucleus of the Rat (1996)

Coleman, Kristina A ; Mitrofanis, John

Oxford, UK : Blackwell Publishing Ltd

European journal of neuroscience 8 (1996), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: The visual sector of the reticular thalamic nucleus has come under some intense scrutiny over recent years, principally because of the key role that the nucleus plays in the processing of visual information. Despite this scrutiny, we know very little of how the connections between the reticular nucleus and the different areas of visual cortex and the different visual dorsal thalamic nuclei are organized. This study examines the patterns of reticular connections with the visual cortex and the dorsal thalamus in the rat, a species where the visual pathways have been well documented. Biotinylated dextran, an anterograde and retrograde tracer, was injected into different visual cortical areas [17; rostral 18a: presumed area AL (anterolateral); caudal 18a: presumed area LM (lateromedial); rostral 18b: presumed area AM (anteromedial); caudal 18b: presumed area PM (posteromedial)] and into the different visual dorsal thalamic nuclei (posterior thalamic, lateral posterior, lateral geniculate nuclei), and the patterns of anterograde and retrograde labelling in the reticular nucleus were examined. From the cortical injections, we find that the visual sector of the reticular nucleus is divided into subsectors that each receive an input from a distinct visual cortical area, with little or no overlap. Further, the resulting pattern of cortical terminations in the reticular nucleus reflects largely the patterns of termination in the dorsal thalamus. That is, each cortical area projects to a largely distinct subsector of the reticular nucleus, as it does to a largely distinct dorsal thalamic nucleus. As with each of the visual cortical areas, each of the visual dorsal thalamic (lateral geniculate, lateral posterior, posterior thalamic) nuclei relate to a separate territory of the reticular nucleus, with little or no overlap. Each of these dorsal thalamic territories within the reticular nucleus receives inputs from one or more of the visual cortical areas. For instance, the region of the reticular nucleus that is labelled after an injection into the lateral geniculate nucleus encompasses the reticular regions which receive afferents from cortical areas 17, rostral 18b and caudal 18b. These results suggest that individual cortical areas may influence the activity of different dorsal thalamic nuclei through their reticular connections.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1460-9568.1996.tb01222.x

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Development of glia and blood vessels in the internal capsule of rats (1998)

Earle, Kylie L ; Mitrofanis, John

Springer

Journal of neurocytology 27 (1998), S. 127-139

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We have explored two aspects of internal capsule development that have not been described previously, namely, the development of glia and of blood vessels. To these ends, we used antibodies to glial fibrillary acidic protein (GFAP) and to vimentin (to identify astrocytes and to radial glia) and Griffonia simplicifolia (lectin; to identify microglia and blood vessels). Further, we made intracardiac injections of Evans Blue to examine the permeability of this dye in the vessels of the internal capsule during neonatal development. Our results show that large numbers of radial glia, astrocytes and microglia are not labelled with these markers in the white matter of the internal capsule until about birth; very few are labelled earlier, during the critical stages of corticofugal and corticopetal axonal ingrowth (E15–E20). The large glial labelling in the internal capsule at birth is accompanied by a dense vascular innervation of the capsule; as with the glia, very few labelled patent vessels are seen earlier. After intracardiac injections of Evans Blue, we find that the blood vessels of the internal capsule are not particularly permeable to Evans Blue. At each age examined (P0, P5, P15), blood vessels are outlined very clearly and there is no diffuse haze of fluorescence within the extracellular space, which is indicative of a leaky vessel. There are three striking differences between the glial environment of the internal capsule and that of the adjacent thalamus. First, the internal capsule is never rich with radial glial fibres (vimentin- and GFAP-immunoreactive) during development (except at P0), whereas the thalamus has many radial fibres from very early development (E15–E17). Second, astrocytes (vimentin- and GFAP-immunoreactive) first become apparent in the internal capsule (E20–P0) well before they do in the thalamus (P15). Third, the internal capsule houses a large transient population of amoeboid microglia (P0–P22), whereas the thalamus does not; only ramified microglia are seen in the thalamus. In summary, our results indicate that all three types of glia in the internal capsule are associated closely with the vasculature, suggesting they may play a role in the development of the blood–brain barrier among the vessels in this white matter region of the forebrain.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006951423251

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Specificity of projection among cells of the zona incerta (1999)

Power, Brian D. ; Mitrofanis, John

Springer

Journal of neurocytology 28 (1999), S. 481-493

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We have examined whether individual cells of the zona incerta of the thalamus have widespread projections across the brain. Double injections of different coloured fluorescent latex beads (red or green) were made, in various combinations, into regions of neocortex, dorsal thalamus or brainstem of Sprague-Dawley rats. These regions were chosen since they have been shown previously to receive projections from the zona incerta. We also made injections of different coloured beads into different regions of these same brain centres (ie, distinct cortical areas or individual dorsal thalamic and brainstem nuclei). In general, our results show that cells of the zona incerta have projections limited to one of these brain centres only. We saw very few double-labelled incertal cells after double injections of different coloured latex beads into either the neocortex/dorsal thalamus, neocortex/brainstem or dorsal thalamus/brainstem. Further, we show that within each of these brain centres, the projection patterns of individual incertal cells is rather restricted, since double injections of different coloured beads into separate regions of the same centre resulted in few double-labelled incertal cells. Taken together, these results suggest a very clear specificity of projection among cells of the zona incerta. Thus, although the cells of the zona incerta receive a plethora of inputs from many sources, it appears that its cells have a very clear and focussed output to distinct regions of the brain.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007005105679

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Dorsal thalamic connections of the ventral lateral geniculate nucleus of rats (2000)

Kolmac, Christian I ; Power, Brian D ; Mitrofanis, John

Springer

Journal of neurocytology 29 (2000), S. 31-41

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In order to understand better the organisation of the ventral lateral geniculate nucleus of the ventral thalamus, this paper has examined the patterns of connections that this nucleus has with various nuclei of the dorsal thalamus in rats. Injections of biotinylated dextran or cholera toxin subunit B were made into the parafascicular, central lateral, posterior thalamic, medial dorsal, lateral dorsal, lateral posterior, dorsal lateral geniculate, anterior, ventral lateral, ventrobasal and medial geniculate nuclei of Sprague-Dawley rats and their brains were processed using standard tracer detection methods. Three general patterns of ventral lateral geniculate connectivity were seen. First, the parafascicular, central lateral, medial dorsal, posterior thalamic and lateral dorsal nuclei had heavy connections with the parvocellular (internal) lamina of the ventral lateral geniculate nucleus. This geniculate lamina has been shown previously to receive heavy inputs from many functionally diverse brainstem nuclei. Second, the visually related dorsal lateral geniculate and lateral posterior nuclei had heavy connections with the magnocellular (external) lamina of the ventral lateral geniculate nucleus. This geniculate lamina has been shown by previous studies to receive heavy inputs from the visual cortex and the retina. Finally, the anterior, ventral lateral, ventrobasal and medial geniculate nuclei had very sparse, if any, connections with the ventral lateral geniculate nucleus. Overall, our results strengthen the notion that one can package the ventral lateral geniculate nucleus into distinct visual (magnocellular) and non-visual (parvocellular) components.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007160029506

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Glial organization and chondroitin sulfate proteoglycan expression in the developing thalamus (1997)

Mitrofanis, John ; Earle, Kylie L ; Reese, Benjamin E

Springer

Journal of neurocytology 26 (1997), S. 83-100

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract This study examines the early organization of glial cells, together with the expression of chondroitin sulfate proteoglycans in the developing thalamus of ferrets. Glia were identified with antibodies against vimentin and glial fibrillary acidic protein and the chondroitin sulfate proteoglycans were identified by using an antibody against chondroitin sulfate side chains. Our results reveal three striking features of early thalamic development. First, there is a distinct population of glial fibrillary acidic protein-immunoreactive astrocytes (first seen at E30) that resides in the perireticular thalamic nucleus of the primordial internal capsule. These glial fibrillary acidic protein-immunoreactive astrocytes of the perireticular nucleus are transient and form a conspicuous feature of the early developing forebrain. They are first apparent well before any glial fibrillary acidic protein-immunoreactive astrocytes are seen in other regions of the thalamus (at about P8). Further, unlike in other thalamic regions, these peculiar perireticular astrocytes do not express vimentin before they express glial fibrillary acidic protein. Second, in the reticular thalamic nucleus, the radial glial cells express glial fibrillary acidic protein; they are the only ones to do so in the thalamus during development. The glial fibrillary acidic protein-immunoreactive radial glial cells of the reticular nucleus form a rather distinct band across the developing thalamus at these early stages (E30–P1). Finally, and preceding the expression of glial fibrillary acidic protein, the radial glial cells of the reticular nucleus, unlike those in other thalamic regions, are associated closely with the expression of chondroitin sulfate proteoglycans (E20–E30). Later (after E30), the expression of the chondroitin sulfate proteoglycans in the reticular nucleus declines sharply. The significance of this finding is related to the early organization of the cortico-fugal and cortico-petal pathways.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018519726943

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Does the reticular thalamic nucleus project to the midbrain? (1997)

Vaccaro, Teresa ; Mitrofanis, John

Springer

Journal of neurocytology 26 (1997), S. 223-239

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In this study, we investigated whether the reticular thalamic nucleus has a projection to major centres of the midbrain in rats, rabbits and cats. Various tracers (biotinylated dextran, cholera toxin B subunit, fluorescent latex beads) were injected either into the midbrain tectum (deep layers of the superior colliculus) or tegmentum (midbrain reticular and pedunculopontine nuclei). In other experiments, different coloured latex beads (red and green) were injected into the deep layers of the superior colliculus and into the midbrain reticular nucleus of the same animal (rabbits). Our major finding is that in rats, rabbits and cats, there are no retrogradely labelled cells in the reticular thalamic nucleus after tracer injections into the abovementioned midbrain centres. In rabbits and cats, however, there are retrogradely labelled cells lying close to the ventromedial edge of the reticular thalamic nucleus after such injections. We show, by means of immunocytochemical double-labelling, that these retrogradely labelled cells do not lie in the reticular thalamic nucleus as suggested by previous studies, but in the inner small-celled region, a group of small cells that forms part of the zona incerta. Although there appears to be no clear topography of projection of the inner small-celled region, our tracer double-labelling experiments show that separate cells in the inner small-celled region project to individual centres of the midbrain (i.e., there are very few double-labelled cells after double injections). In rats, unlike in rabbits and cats, there is no clearly defined inner small-celled region and there are no retrogradely labelled cells seen along the ventromedial edge of the reticular thalamic nucleus. Our results suggest that in rats, rabbits and cats, there is no projection of the reticular thalamic nucleus to major centres of the midbrain, suggesting that the nucleus may not have a very strong influence on midbrain function, as it does on dorsal thalamic function.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018540231486

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Evidence for a projection from the perireticular thalamic nucleus to the dorsal thalamus in the adult rat and ferret (1995)

Mitrofanis, John ; Lozsádi, Dora A. ; Coleman, Kristina A.

Springer

Journal of neurocytology 24 (1995), S. 891-902

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary During early development, the perireticular thalamic nucleus is very large (i.e. has many cells) and has a strong projection to the dorsal thalamus and to the cerebral neocortex. By adulthood, the nucleus has much reduced in size and only a few cells remain. It is not clear whether these perireticular cells that remain into adulthood maintain their connections with the dorsal thalamus and with the neocortex. This study examines this issue by injecting neuronal tracers into various nuclei of the dorsal thalamus (dorsal lateral geniculate nucleus, medial geniculate complex, ventroposteromedial nucleus, lateral posterior nucleus, posterior thalamic nucleus) and into different areas of the neocortex (somatosensory, visual, auditory). After injections of tracer into the individual nuclei of the rat and ferret dorsal thalamus, retrogradely-labelled perireticular cells are seen. In general, after each injection, the retrogradely-labelled perireticular cells lie immediately adjacent to a group of retrogradely-labelled reticular cells. For instance, after injections into the medial geniculate complex, perireticular cells adjacent to the auditory reticular sector are retrogradely-labelled, whilst after an injection into the dorsal lateral geniculate nucleus, retrogradely-labelled perireticular cells adjacent to the visual reticular sector are seen. By contrast, injections of tracer into various areas of the rat and ferret neocortex result in no retrogradely-labelled cells in the perireticular nucleus. Thus, unlike during perinatal development when perireticular cells project to both neocortex and dorsal thalamus, perireticular cells in the adult seem to project to the dorsal thalamus only: the perireticular projection to the neocortex appears to be entirely transient.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01215640

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NADPH-diaphorase reactivity in adult and developing cat retinae (1991)

Vaccaro, Teresa M. ; Cobcroft, Megan D. ; Provis, Jan M. ; [et al.]

Springer

Cell & tissue research 265 (1991), S. 371-379

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ISSN: 1432-0878

Keywords: Retina ; NADPH-diaphorase ; Amacrine cells ; Development ; Cell loss ; Topography ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary We have examined the distribution and size of nicotinamide adenine dinucleotide phosphate (NADPH) diaphorase reactivity in adult and developing cat retinae. From late gestation E (embryonic day) 58 to adulthood, NADPH-diaphorase reactivity was detected in amacrine cells with somata located in the inner nuclear layer (INL) and ganglion cell layer (GCL) and in processes spreading in the middle strata of the inner plexiform layer (IPL). Reactivity was also present in small rounded profiles located in the outer plexiform layer (OPL) and thought to be cone pedicles. The number of NADPH-diaphorase reactive cells present in adult retinae was about 40 000; 75% of these somata were located in the GCL, the remainder in the INL. At birth, however, there was more than double this number of labelled somata (85 000), the total gradually declining to reach adult values by P (postnatal day) 25. This loss of NADPH-diaphorase reactive somata may be partly explained by natural cell death (apoptosis) or by loss of the active diaphorase from the cells. The density distributions of NADPH-diaphorase reactive cells in the INL and GCL of retinal wholemounts reached maxima in regions slightly inferior to the area centralis at all ages studied. The principal topographical difference between adult and developing retinae was that the density gradient of NADPH-diaphorase reactive cells was steeper in adults than at younger ages. During early development, the somal and dendritic field diameters of NADPH-diaphorase reactive cells at the area centralis were about the same size as those in the periphery; by adulthood, cells in the periphery were larger. The change in the somal diameter gradient apparently emerged because of a reduction in somal size of the centrally located cells. The change in the dendritic diameter gradient emerged because of a greater growth of peripheral cells as compared to central cells. We suggest that NADPH-diaphorase may have a role in the formation of synapses in the developing IPL.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00398085

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