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1

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Studies on the liver of Xenopus laevis (1978)

Spornitz, Udo M.

Springer

Anatomy and embryology 154 (1978), S. 1-25

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ISSN: 1432-0568

Keywords: Bile canaliculus ; Development ; Glycogenesis ; Hepatocytes ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The ultrastructural changes during development and metamorphosis in the liver ofXenopus laevis have been investigated. In this species it was found that developmental processes, which ultimately lead to the formation of bile canaliculi, can be detected in the liver anlage as early as stage 35. While the wall of the primary liver cavity is thrown into folds which form the liver parenchyma, the bile canaliculi are formed (st. 36–38). Secretion into the lumen of the bile canaliculi was not found to occur before stage 47 and IDP-ase activity could not be detected in the bile canaliculi before stage 49. The intra- and extrahepatic portions of the hepatic duct system were found to be formed during the stages 40–41. The formation of the duct system involves cellular degeneration in the lumen of the future ducts. These processes are described in detail. The glycogen content of the developing hepatocytes received particular attention during the course of this study. It was found that after depletion of the embryonal glycogen the hepatocytes are completely free from glycogen during the stages 43–45. At stage 46, after the begin of feeding, beta as well as alpha particles of glycogen appear in the hepatocytes. These first reappearing glycogen particles are formed without the participation of SER membranes, in areas which are loaded with RNA particles. It was found that only after the synthesis of glycogen had been initiated SER membranes started to proliferate in the hepatocytes, where they were mostly found intermingled with glycogen particles. From stage 54 on, where the liver glycogen content was found to be 0.2%, the glycogen content of the liver almost continuously increased until it reached a temporary peak of 10% at the end of metamorphosis. These findings strongly contrast results reported for other amphibia, which at the end of metamorphosis have depleted their glycogen content completely. Details of the ultrastructural changes occuring during development of the hepatocytes, are also reported in this paper.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00317951

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2

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Studies on the liver of Xenopus laevis (1975)

Spornitz, Udo M.

Springer

Anatomy and embryology 146 (1975), S. 265-277

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ISSN: 1432-0568

Keywords: Granulocytopoiesis ; Perihepatic layer ; Mesothelium ; Amphibia ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Der Peritoneal-Überzug und die subkapsuläre Region der Leber von Xenopus laevis wurden mit dem Elektronenmikroskop untersucht. Dabei wurde festgestellt, daß in der subkapsulären Region eine zwei bis zehn Zellschichten starke perihepatische Schicht vorhanden ist. Die perihepatische Schicht setzt sich zum größten Teil aus granulocytopoetischem Gewebe zusammen. Es wurden jedoch auch Lymphocyten, Pigmentzellen und Fettspeicherzellen gefunden. Das Vorhandensein einer perihepatischen granulocytopoetischen Schicht bei Xenopus laevis steht im Gegensatz zu der bisherigen Auffassung, daß die perihepatische Schicht ein typisches Merkmal der Urodelen sei. Es werden die phylogenetische Bedeutung einer solchen Schicht bei Anuren sowie die Entwicklungsvorgänge der einzelnen Zelltypen der perihepatischen Schicht diskutiert. Außerdem wird auf die mögliche Bedeutung der perihepatischen Schicht für immun-Vorgänge verwiesen.

Notes: Summary The peritoneal cover and the subcapsular region of the liver of Xenopus laevis were examined with electron microscopy. In the subcapsular region a prominent perihepatic layer two to ten cells wide was found. This perihepatic layer is mainly composed of granulocytopoietic tissue. Other cell types found in the perihepatic layer were lymphocytes, pigment cells and fat storing cells. The presence of a perihepatic granulocytopoietic layer in the liver of Xenopus laevis is in contrast to current opinion that such a layer is a characteristic typical of urodeles. The phylogenetic significance of such a layer in anurans and the developmental processes of the individual cell types of the perihepatic layer are discussed. Furthermore the possible participation of the perihepatic layer in the immune response is considered

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00302174

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Studies on the liver of Xenopus laevis (1975)

Spornitz, Udo M.

Springer

Anatomy and embryology 146 (1975), S. 245-264

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ISSN: 1432-0568

Keywords: Hepatocytes ; Amphibia ; Glycogen ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Die Leber von Xenopus laevis wurde mit dem Elektronenmikroskop untersucht. Dabei wurde festgestellt, daß sie in ihrem Bau stark von der Leber der Säuger abweicht, vor allem in Bezug auf die Morphologie des als typisch zu bezeichnenden Hepatocyten. Die Untersuchungen zeigten, daß eine solche Zelle primär Glykogenspeicherungs-Funktion besitzt und nur geringe Bestandteile an Organellen und anderen Inklusionen aufweist. Da dieser Zelltyp in der Leber unbehandelter Tiere am häufigsten auftritt, wurde er als Normalzelle bezeichnet. Bemerkenswert erschien die Tatsache, daß eine Vielzahl von Zelltypen in der Normalleber vorkommen, die sonst vermehrt unter experimentellen Bedingungen zu finden sind, z.B. Zellen mit stark vermehrtem RER, vergrößertem Golgi-Feld, vermehrten Lipidinklusionen etc. Diese hohe Zahl von abweichenden Hepatocyten und die Tatsache, daß alle Zwischenstufen zwischen den einzelnen Extremen vorhanden sind, die nicht durch die lage der Zelle innerhalb der Leber erklärt werden konnten, wurden als der Ausdruck eines zyklischen Durchlaufens der einzelnen Aktivitätsstadien interpretiert. Spezielles Interesse verdient die Tatsache, daß Glykogen in der Leberzelle vermehrt nur während der Vitellogenese abgebaut wird. Akuter und chronischer Hunger, sowie Kälte-adaptation beeinflussen die Morphologie der Normalzelle, besonders in Bezug auf das Glykogen kaum. Die möglichen Ursachen hierfür werden diskutiert.

Notes: Summary The liver of Xenopus laevis was examined with electron microscopy. Its structure was found to be markedly different from that of mammals, particularly regarding the morphology of the hepatocytes to be classified as typical. It was established that the main function of such a cell is the storage of glycogen, and further that it possesses only scant organelles and other inclusions. Since this type of cell was found most frequently in the liver of untreated animals, it was designated as normal cell. The fact appears noteworthy that in the normal liver of Xenopus laevis an abundance of cell types occur which are otherwise found to be proliferated under experimental conditions, e.g. cells with pronouncedly augmented RER, enlarged Golgi complexes, increased lipid inclusions etc. This high number of divergent hepatocytes and the fact that all intermediate stages between the individual extremes are present and not to be accounted for by the position of the cell within the liver was interpreted as being the expression of a cyclic passage of the various stages of activity. It is of special interest that augmented degradation of glycogen in the liver cell takes place only during vitellogenesis. Acute and chronic hunger, as well as adaptation to cold, hardly affect the morphology of the normal cell, especially as far as the glycogen is concerned. The possible causes for this are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00302173

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Activity evoked from the mesencephalic tegmentum in descending pathways other than the rubrospinal tract (1972)

Baldissera, F. ; Lundberg, A. ; Udo, M.

Springer

Experimental brain research 15 (1972), S. 133-150

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ISSN: 1432-1106

Keywords: Mesencephalic tegmentum ; Descending activity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Discharges evoked by mesencephalic stimulation have been recorded from the contralateral dissected dorsal and ventral quadrants in the lower thoracic region of the spinal cord in cats. The effect of this activity on different spinal cord mechanisms was analysed. After interruption of the rubrospinal tract in the lateral part of the medulla, stimulation just dorsal to the red nucleus still evokes a discharge in the contralateral dorsal quadrant. The discharge which requires repetitive stimulation is probably mediated by a two-neurone pathway. Since the stimuli giving this dorsal discharge produces inhibition of interneuronal transmission from the flexor reflex afferents to motoneurones, which is the characteristic effect of activity in the dorsal reticulospinal system (Engberg et al., 1968) it is suggested that the second order neurones belong to this pathway. Stimulation just dorsal to the red nucleus also evokes a synchronized discharge in the contralateral ventral quadrant, mediated by a two-neurone pathway. The first order neurones are at least partly of tectal origin; the second order neurones originate from the brain stem and their axons descend in the medial longitudinal fasciculus. Activity in these fibres has no detectable effect on spinal cord mechanism controlling hindlimb muscles but produces monosynaptic EPSPs in motoneurones of the upper lumbar segments. Some observations are reported regarding long propriospinal excitatory and inhibitory connexions to upper lumbar motoneurones.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235578

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Stimulation of pre- and postsynaptic elements in the red nucleus (1972)

Baldissera, F. ; Lundberg, A. ; Udo, M.

Springer

Experimental brain research 15 (1972), S. 151-167

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ISSN: 1432-1106

Keywords: Red nucleus ; Synaptic, direct activation ; Rubrospinal neurones

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Stimulation of the red nucleus evokes a two-component descending discharge in the contralateral dorsal quadrant of the spinal cord; the first component is caused by direct and the second by synaptic activation of rubrospinal neurones projecting to the lumbosacral cord. Threshold maps for direct and synaptic activation are given. The low threshold focus for direct activation covers not only the hindlimb region of the red nucleus where the antidromic field potential is large but also the medial part of the nucleus where the axons leave. Direct activation can also be evoked from a region extending caudally from the medial part of the red nucleus. Synaptic activation of rubrospinal neurones, evoked at very low threshold from the ventro-medio-caudal border zone of the red nucleus, is due to stimulation of interposito-rubral efferents. The threshold, indicated by unitary EPSPs in rubral cells and antidromic activation of cells in interpositus, is about 1 μA, which is 1/10 of the strength required for direct activation of rubrospinal neurones. There is neither evidence that rubral stimuli activate collaterals of corticospinal axons to the lumbosacral cord, nor that antidromic activation of interposito-rubral fibres evokes descending effect via their collaterals to the reticular formation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235579

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Synaptic action of the fastigiobulbar impulses upon neurones in the medullary reticular formation and vestibular nuclei (1970)

Ito, M. ; Udo, M. ; Mano, N. ; [et al.]

Springer

Experimental brain research 11 (1970), S. 29-47

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ISSN: 1432-1106

Keywords: Fastigial ; Reticular formation ; Vestibular nuclei ; PSP ; Disfacilitation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In anaesthetized cats, the fastigial nucleus of cerebellum was stimulated with electric pulse currents, and the effects thereby induced were investigated by recording intracellularly from cells in the medullary reticular formation, the nucleus of Deiters and the descending vestibular nucleus. The early effect commonly seen in these cells was initiation of excitatory postsynaptic potentials (EPSPs) with monosynaptic latencies from both sides of the fastigial nuclei. These EPSPs appeared to be produced in part by a kind of axon reflex through cerebellar afferent fibres, but a certain portion of them was ascribable to the crossed fastigiobulbar axons, as they were influenced by stimulation of the cerebellar cortex in the manner to be expected from the previous study on cerebellar nuclei. These EPSPs were followed by a sequence of a prolonged disfacilitatory hyperpolarization and a late facilitatory depolarization, which apparently reflected the inhibition and disinhibition, respectively, produced in fastigial neurones via Purkinje cell axons of the corticonuclear projection. Either EPSPs or IPSPs were also induced in both reticular and vestibular neurones through polysynaptic pathways in which the fastigiobulbar projection might have been involved.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234200

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7

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Interlimb coordination in cat locomotion investigated with perturbation (1982)

Matsukawa, K. ; Kamei, H. ; Minoda, K. ; [et al.]

Springer

Experimental brain research 46 (1982), S. 425-437

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ISSN: 1432-1106

Keywords: Interlimb coordination ; EMG ; Locomotion ; Perturbation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary During locomotion of decerebrate and awake walking cats, perturbation (mechanical tap) was applied to the paw dorsum of the left forelimb (LF), and the responses of both forelimbs were recorded cinematographically and electromyographically (EMG). When the tap was applied during the LF stance phase, the duration of the ongoing LF stance was shortened by 10%; in the right forelimb (RF), the duration of the concomitant swing was shortened by 32%. A tap during the LF swing phase prolonged the duration of the ongoing LF swing phase and the concomitant RF stance phase by 55 and 15%, respectively. Analysis of RF joint angle excursions showed that the shortening of the RF swing phase was related mainly to acceleration of extension movement in the late swing phase; the prolongation of the RF stance phase was related to prolonged extension movement in the late stance phase. While EMG activities were relevant to these limb movements, a notable observation was that, by tapping the LF during the LF stance phase, EMG activity in the RF extensor started well before onset of the elbow extension movement to place down the limb; without the tap, the extensor activity started shortly after onset of the extension. Closely related to changes in phase durations of each forelimb, the period of bisupport phase where both forelimbs were in stance, was retained for more than 40% of that of unperturbed steps, even when the RF or LF made the first touchdown after the tap. The rostrocaudal level at RF touchdown after the tap was comparable to unperturbed steps. These findings on interlimb relation suggest that neural control ensures coordinated movements between symmetric limbs during locomotion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238637

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Interlimb coordination in cat locomotion investigated with perturbation (1982)

Udo, M. ; Kamei, H. ; Matsukawa, K. ; [et al.]

Springer

Experimental brain research 46 (1982), S. 438-447

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ISSN: 1432-1106

Keywords: Deiters' neurons ; Locomotion ; Perturbation ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effects of mechanical stimulation (tap) on single unit activity of Deiter's neurons were analysed in walking cats decerebrated at the premammillary level. Deiters' neurons projecting to the ipsilateral cervical, but not to the lumbosacral, spinal cord (C-Deiters' neurons) were identified by antidromic activation, cerebellar stimulation, and localization of the neurons. During each unperturbed cycle of quadrupedal locomotion, most C-Deiters' neurons showed two frequency modulation peaks in their impulse discharges: one (A peak) in the late swing (E1) or the early stance (E2) phase, the other (B peak) in the late stance (E3) or the early swing (F) phase, of the ipsilateral forelimb. The A peak started to rise shortly before the ipsilateral forelimb was placed. When mechanical perturbation was applied during locomotion to the paw dorsum of the left forelimb (LF) in its stance phase, the ongoing LF stance phase shortened and the simultaneous swing phase of the right forelimb (RF) shortened. Accordingly, in the RF, extensor activity in the swing phase to place down the limb occurred earlier than in unperturbed step cycles. The same LF tap induced a marked enhancement of impulse discharges in C-Deiters' neurons on the right side (with a magnitude of 20–100 imp/s, and the shortest latency of 25 ms). This enhancement was more pronounced than that induced when the perturbation was applied to the LF during its swing phase. The latency manifested a close time relation to the RF extensor activity supporting the postulate that the increased C-Deiters' activity in the RF swing phase contributes to the earlier onset of RF extensor activity which plays an important role in maintaining alternating footfalls after perturbation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238638

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Axon reflex activation of Deiters neurones from the cerebellar cortex through collaterals of the cerebellar afferents (1969)

Ito, M. ; Kawai, N. ; Udo, M. ; [et al.]

Springer

Experimental brain research 8 (1969), S. 249-268

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ISSN: 1432-1106

Keywords: Axon reflex ; Deiters neurones ; Cerebellar afferents ; Cats

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary When recording intracellularly from cat's Deiters neurones, stimulation of the anterior lobe of the cerebellar cortex produced excitatory postsynaptic potentials (EPSPs) monosynaptically, in addition to the inhibitory ones (IPSPs) that were identified previously as being produced via Purkinje cell axons. The EPSPs were induced bilaterally from a wide area of the anterior and posterior lobes of the cerebellum, in contrast to the IPSPs that were evoked only ipsilaterally, mainly from the vermal cortex. The latency of the EPSPs was slightly, but significantly, shorter than that of the IPSPs. The presynaptic impulses responsible for these EPSPs were represented by the discrete field potentials and also by unit spikes of individual fibres. The pathway for these EPSPs and presynaptic impulses was pursued by testing their interference, in the manner of impulse collision and refractoriness, with those induced from various spots within or outside the cerebellum. It is found that the excitatory fibres for Deiters neurones extend transversely, and probably longitudinally too, over the culmen and pass out of the cerebellum through cerebellar peduncles. The major portion of them appears to originate from the medulla and a minority from the spinal cord. It is postulated that cerebellar afferents from these structures have synapses with Deiters neurones via their collateral branches, through which a kind of axon reflex occurs to Deiters neurones during stimulation of the cerebellar cortex.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234252

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Inhibitory control of intracerebellar nuclei by the Purkinje cell axons (1970)

Ito, M. ; Yoshida, M. ; Obata, K. ; [et al.]

Springer

Experimental brain research 10 (1970), S. 64-80

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ISSN: 1432-1106

Keywords: Intracerebellar nuclei ; Purkinje cells ; Inhibition ; Excitation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In anaesthetized cats, synaptic events in cerebellar nuclei neurones were investigated with intracellular microelectrode techniques. These cells were identified by their antidromic activation along their axons and/or by their location in histological sections. In the cells of lateral nucleus IPSPs were induced monosynaptically during stimulation of the overlying hemispheral cortex of the cerebellum. In the cells of nuclei interpositus and fastigii, similar IPSPs were produced from the paravermal and vermal cortices, respectively. The postulate that the Purkinje cells exert an inhibitory action upon their target neurones thus applies not only to Deiters neurones, as previously proposed, but also to cells in the cerebellar nuclei. Stimulation of the cerebellar afferents at the inferior olive, the pontine nucleus and the lateral reticular nucleus produced EPSPs in cerebellar nuclei cells with relatively brief latencies, probably through axon collaterals of these afferents. The EPSPs were followed by IPSPs and slow depolarizations of disinhibitory nature, which, as studied previously in Deiters neurones, might be caused respectively by activation and subsequent depression of Purkinje cells through the cerebellar intracortical mechanisms.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00340519

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