A Golgi study on the habenular nucleus of the cat

Iwahori, Nobuharu

doi:10.1002/cne.901710303

Cited by 64 publications

(35 citation statements)

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“…Morphological features of the MH ...., -a neurons observed in the present study were similar to those of the MH neurons noted in the lamprey (Heier 1948), frog (Kemali and Braitenberg 1969;Kemali and Lazar 1985) and mouse (RamOn y Cajal), and the type I MH neurons in the cat (Iwahori 1977). As was reported in the mouse and cat, the dendritic field of the MH neurons in the red stingray was occasionally impregnated in an overlapped manner, suggesting the existence of the glomerular structure in the MH.…”

Section: Discussionsupporting

confidence: 85%

“…The type I LH neurons in the present study resembled the multipolar neurons seen in the LH of the mustel, mouse and cat. On the other hand, general features of the type II LH neurons in the red stingray were similar to those of the interneurons seen in the cat LH (Iwahori 1977). However, the exact character of the type II LH neurons requires further study.…”

Section: Discussionsupporting

confidence: 51%

“…As was reported in the mouse and cat, the dendritic field of the MH neurons in the red stingray was occasionally impregnated in an overlapped manner, suggesting the existence of the glomerular structure in the MH. On the other hand, the LH neurons show fairly clear species differences: the LH neurons observed in the lamprey (Heier 1948) were unipolar or bipolar cells, whereas those in the selachian (Houser 1901), frog (Kemali and Lazar 1985), mouse (Ram& y Cajal 1911) and cat (Iwahori 1977) were usually multipolar neurons. In the LH of the red stingray, two types of neurons were distinguished.…”

Section: Discussionmentioning

confidence: 99%

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A Golgi Study on the Neuronal Organization of the Habenular Ganglion in the Red Stingray, Dasyatis akajei

Iwahori

Nakamura

Kameda

1991

Okajimas Folia Anatomica Japonica

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Summary: The neuronal organization of the habenular ganglion (HG) was studied in the red stingray using the rapid Golgi method. The HG was made up of the medial (MH) and lateral habenular nucleus (LH), and the former nucleus was further divided into a dorsal, intermediate and ventral subnucleus. Only one type of neurons were observed in the MH, while the LH was composed of two types of neurons. In the left HG cut at the rostrocaudal middle of the ganglion, the LH was located in the dorsolateral region, while the dorsal, intermediate and ventral subnuclei of the MH occupied the dorsomedial, intermediate and ventral portions of the ganglion, respectively. In contrast, the right ganglion seen at this level was composed exclusively of the MH, with the dorsal, intermediate and ventral subnuclei located in the dorsomedial, intermediate and ventral portions, respectively. In the caudal level of the left ganglion, each nucleus was seen almost in the same region as in the level of the rostrocaudal middle, however, three subnuclei of the MH fused with the same subnuclei of the opposite side. In the right ganglion at the caudal level, the LH appeared in the intermediate area The right LH was far smaller and was located more ventrocaudally than the left LH. On account of the LH, the intermediate subnucleus of the MH was divided into a dorsal and ventral part. The dorsal and ventral subnuclei of the MH remained in the same region as in the rostral level. Thus, the HG of the red stingray exhibited a striking left-right asymmetry, the most remarkable aspect of which was considered to be differences of the size, form and location of the LH between the left and right HG.The habenular ganglion (HG) is a conspicuous structure in the dorsomedial region of the diencephalon and is known to exist in all vertebrates. One of the most remarkable features of the HG is the structural left-right asymmetry observed in certainspecies (Ariens Kappers, Huber and Crosby 1960;Kuhlenbeck 1977). The selachian HG has been known to exhibit a striking left-right asymmetry and has been the subject of numerous investigations (Edinger

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Section: Discussionsupporting

confidence: 85%

Section: Discussionsupporting

confidence: 51%

Section: Discussionmentioning

confidence: 99%

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A Golgi Study on the Neuronal Organization of the Habenular Ganglion in the Red Stingray, Dasyatis akajei

Iwahori

Nakamura

Kameda

1991

Okajimas Folia Anatomica Japonica

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“…In the red stingray, the MH and LH received different SM fibers; this is known to be the case in many other species as well. The terminal patterns of the SM fibers in the MH observed in the present study were similar to those observed in the mouse (RamOn y Cajal 1911) and cat (Iwahori 1977). Convergence of several terminals seen in the present study was also observed in the cat.…”

Section: Discussionsupporting

confidence: 89%

“…In mammals, terminal patterns of the afferent fibers in the HG was studied in detail using the rapid Golgi method (RamOn y Cajal 1911;Iwahori 1977) as well as the experimental methods (Herkenham and Nauta 1977). The afferent fibers to the selachian HG have been studied by numerous investigators (Edinger 1892;Haller 1898;Ariens Kappers 1906;Sterzi 1909;Ariens Kappers and Carpenter 1911;Johnston 1911;Bergquist 1932;Addens 1945;Farner 1978;Smeets, Nieuwenhuys and Roberts 1983).…”

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confidence: 99%

A Golgi Study on the Afferent Fibers to the Habenular Ganglion in the Red Stingray, Dasyatis akajei

Iwahori

Nakamura

Kameda

1991

Okajimas Folia Anatomica Japonica

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Summary: Afferent fibers to the habenular ganglion (HG) were derived mainly from the stria medullaris thalami (SM), which was roughly divided into a dorsal and ventral bundle. In the left ganglion seen at the level of the rostrocaudal middle, the dorsal bundle gave off collaterals to the lateral habenular nucleus (LH) and dorsal subnucleus of the medial habenular nucleus (MH), while the ventral bundle innervated the intermediate and ventral subnuclei of the MH. On the other hand, in the right ganglion at the level of the rostrocaudal middle, the dorsal subnucleus of the MH was innervated by collaterals from the dorsal bundle of the SM, whereas in the intermediate and ventral subnucleus fibers from the ventral bundle were seen. In the left ganglion at the caudal level, the dorsal and ventral bundle extended medially and joined the same bundle of the opposite side to constitute a dorsal and intermediate component of the habenular commissure, respectively. A third component of the HC, a ventral component, was seen to run between the fasciculus retroflexus of both sides. As in the case of the rostral level, the dorsal bundle of the SM emitted collaterals to the LH and dorsal subnucleus of the MH, while the intermediate and ventral subnuclei of the MH were projected upon by collaterals from the ventral bundle of the SM. At the caudal level of the right ganglion, the dorsal bundle gave off collaterals to the dorsal subnucleus of the MH. In contrast, the LH and the intermediate and ventral subnuclei of the MH were innervated by fibers from the ventral bundle. With regard to terminal patterns of the SM, fibers to the MH gave off many short fine branchlets forming the glomerular structures, whereas those to the LH branched out into numerous terminals to form a dense fiber plexus. Thus, the afferent fibers to the HG in the red stingray exhibited a striking left-right asymmetry.The habenular ganglion (HG) has been known to receive afferents from various brain regions. In mammals, terminal patterns of the afferent fibers in the HG was studied in detail using the rapid Golgi method (RamOn y Cajal 1911;Iwahori 1977) as well as the experimental methods (Herkenham and Nauta 1977). The afferent fibers to the selachian HG have been studied by numerous investigators (Edinger 1892;Haller 1898;Ariens Kappers 1906;Sterzi 1909;Ariens Kappers and Carpenter 1911;Johnston 1911;Bergquist 1932;Addens 1945;Farner 1978;Smeets, Nieuwenhuys and Roberts 1983). In these studies, however, the afferent fibers were analyzed mainly in myelin stained sections and minute terminal patterns of the afferents have not been fully elucidated. As was shown in our previous study (Iwahori, Nakamura and Kameda 1991), the neuronal organization of the HG in the red stingray exhibited the striking left-right asymmetry. In order to understand the characteristic features of the structural asymmetry, information on the minute organization of the afferent fibers is needed.Such being the case, a Golgi analysis of the afferent fibers to the HG was attempted.In the prese...

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Distribution of calretinin-immunoreactive septal axons in the normal and deafferented medial habenula of adult rats

Wilson

Kawaja

1996

J. Comp. Neurol.

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To characterize the neural circuitry and plasticity of the septohabenular pathway, the present study analyzes the distribution of calretinin-immunoreactive fibers within the normal and deafferented medial habenula (MHb) at the light and ultrastructural levels. In the adult rat, a dense plexus of calretinin-positive fibers was found throughout the entire MHb neuropil; these immunoreactive terminals formed asymmetric synaptic contacts with unstained dendritic profiles. Calretinin-positive axons that innervate the MHb originated from neurons of the ipsilateral posterior septum, specifically those of the nucleus septofimbrialis and the nucleus triangularis. Unilateral deafferentation of the MHb resulted in the complete loss of calretinin-immunostained fibers within the ipsilateral MHb after 7 days; no reduction was apparent on the contralateral side. Four weeks after unilateral MHb deafferentation, new calretinin-immunoreactive fibers were found confined to the caudal regions of the MHb, these axons again formed asymmetrical contacts with unstained dendritic profiles. No calretinin-positive axons, however, were found within the MHb at 4 weeks following bilateral deafferentation, thus suggesting that the source of these new fibers within the long-term deafferented MHb arises from the contralateral septal neurons. Supporting this idea, injections of biotinylated dextran amine into the 4-week deafferented MHb resulted in retrogradely labeled somata observed in the contralateral posterior septum. These data reveal that septal projections to the MHb, which are normally ipsilateral, respond to a unilateral deafferentation by extending contralateral fibers that cross the midline at the habenular commissure and reinnervate the caudal regions of the nucleus.

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A Golgi study on the habenular nucleus of the cat

Cited by 64 publications

References 54 publications

A Golgi Study on the Neuronal Organization of the Habenular Ganglion in the Red Stingray, Dasyatis akajei

A Golgi Study on the Neuronal Organization of the Habenular Ganglion in the Red Stingray, Dasyatis akajei

A Golgi Study on the Afferent Fibers to the Habenular Ganglion in the Red Stingray, Dasyatis akajei

Distribution of calretinin-immunoreactive septal axons in the normal and deafferented medial habenula of adult rats

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