Your search keyword '"Kalén P"' showing total 4 results

1. Serotonin Release from Mesencephalic Raphe Neurons Grafted to the 5,7-Dihydroxytryptamine-Lesioned Rat Hippocampus: Effects of Behavioral Activation and Stress

Author

Cenci, M.A. and Kalén, P.

Published

2000

2. Characterization of in VivoNoradrenaline Release from Superior Cervical Ganglia or Fetal Locus Coeruleus Transplanted to the Subcortically Deafferented Hippocampus in the Rat

Author

Cenci, M.Angela, Nilsson, Ola G., Kalén, Peter, and Björklund, Anders

Abstract

Solid grafts of autologous superior cervical ganglia (SCG) or fetal locus coeruleus (LC) were implanted unilaterally into a fimbria-fornix lesion cavity adjacent to the hippocampal formation after a 6-hydroxydopamine lesion of the intrinsic noradrenergic system. Twelve to 15 months after transplantation, one microdialysis probe was implanted in the dorsal hippocampus ipsilateral to the graft, and extracellular levels of noradrenaline (NA) were monitored during the application of pharmacological or behavioral stimuli. Age-matched intact and lesion-only animals served as controls. Morphological examination of the grafts was performed on sections processed for dopamine-β-hydroxylase (DBH) immunohistochemistry. In the lesion-only controls, the hippocampus was totally devoid of DBH-immunoreactive fibers and hippocampal levels of NA were generally undetectable. Although both SCG and LC grafts gave rise to an extensive DBH-immunoreactive fiber ingrowth in the ipsilateral hippocampus, baseline NA release was strikingly different in the two graft groups, being markedly lower than normal in the SCG-grafted rats (3.5 ± 0.1 fmol/30 μl) and significantly higher than normal in the LC-grafted rats (44.5 ± 12.3 fmol/30 μl). The response to potassium-induced depolarization (100 mMKCl in the perfusion fluid), neuronal uptake blockade (5 μMdesipramine), and sodium-channel blockade (1 μMTTX) was similar to normal in both graft groups. Exposure of the animals to mild (handling) or severe (immobilization) stressful stimuli significantly enhanced NA release in the intact controls, whereas no clear-cut effect could be detected in either graft group. Electrical stimulation of the medial septum, applied in an attempt to activate possible afferents to the grafts from the host septum, did not enhance NA release in any of the groups. The results show that grafts of both central and peripheral noradrenergic neurons can provide a source of steady-state NA release in the denervated hippocampus, but that the spontaneous activity of the grafted ganglionic neurons is very low compared to that of the LC neurons, probably due to the absence of a functional preganglionic input to the grafted SCG neurons. Although extracellular NA recovered from both the SCG- and the LC-grafted hippocampi is likely to derive from impulse-dependent neuronal release, it was largely unaffected by physiological stimuli applied to the host.

Published

1993

3. Characterization of in vivo noradrenaline release from superior cervical ganglia or fetal locus coeruleus transplanted to the subcortically deafferented hippocampus in the rat.

Author

Cenci MA, Nilsson OG, Kalén P, and Björklund A

Subjects

Afferent Pathways physiology, Animals, Brain Tissue Transplantation, Denervation, Dialysis, Female, Handling, Psychological, Hippocampus metabolism, Immobilization, Rats, Rats, Sprague-Dawley, Fetal Tissue Transplantation, Ganglia, Sympathetic metabolism, Hippocampus physiology, Locus Coeruleus metabolism, Nerve Tissue transplantation, Norepinephrine metabolism

Abstract

Solid grafts of autologous superior cervical ganglia (SCG) or fetal locus coeruleus (LC) were implanted unilaterally into a fimbria-fornix lesion cavity adjacent to the hippocampal formation after a 6-hydroxydopamine lesion of the intrinsic noradrenergic system. Twelve to 15 months after transplantation, one microdialysis probe was implanted in the dorsal hippocampus ipsilateral to the graft, and extracellular levels of noradrenaline (NA) were monitored during the application of pharmacological or behavioral stimuli. Age-matched intact and lesion-only animals served as controls. Morphological examination of the grafts was performed on sections processed for dopamine-beta-hydroxylase (DBH) immunohistochemistry. In the lesion-only controls, the hippocampus was totally devoid of DBH-immunoreactive fibers and hippocampal levels of NA were generally undetectable. Although both SCG and LC grafts gave rise to an extensive DBH-immunoreactive fiber ingrowth in the ipsilateral hippocampus, baseline NA release was strikingly different in the two graft groups, being markedly lower than normal in the SCG-grafted rats (3.5 +/- 0.1 fmol/30 microliters) and significantly higher than normal in the LC-grafted rats (44.5 +/- 12.3 fmol/30 microliters). The response to potassium-induced depolarization (100 mM KCl in the perfusion fluid), neuronal uptake blockade (5 microM desipramine), and sodium-channel blockade (1 microM TTX) was similar to normal in both graft groups. Exposure of the animals to mild (handling) or severe (immobilization) stressful stimuli significantly enhanced NA release in the intact controls, whereas no clear-cut effect could be detected in either graft group. Electrical stimulation of the medial septum, applied in an attempt to activate possible afferents to the grafts from the host septum, did not enhance NA release in any of the groups. The results show that grafts of both central and peripheral noradrenergic neurons can provide a source of steady-state NA release in the denervated hippocampus, but that the spontaneous activity of the grafted ganglionic neurons is very low compared to that of the LC neurons, probably due to the absence of a functional preganglionic input to the grafted SCG neurons. Although extracellular NA recovered from both the SCG- and the LC-grafted hippocampi is likely to derive from impulse-dependent neuronal release, it was largely unaffected by physiological stimuli applied to the host.

Published

1993

4. Host regulation of noradrenaline release from grafts of seizure-suppressant locus coeruleus neurons.

Author

Bengzon J, Brundin P, Kalén P, Kokaia M, and Lindvall O

Subjects

Animals, Fetal Tissue Transplantation, Kindling, Neurologic, Locus Coeruleus physiopathology, Male, Rats, Rats, Inbred Strains, Seizures physiopathology, Brain Tissue Transplantation, Locus Coeruleus metabolism, Neurons metabolism, Norepinephrine metabolism, Seizures metabolism

Abstract

Intrahippocampal implants of noradrenaline-rich neural tissue from the fetal locus coeruleus region suppress development of seizures induced by hippocampal kindling stimulation in hyperexcitable, noradrenaline-depleted rats. In the present study the intracerebral microdialysis technique has been used to monitor seizure-induced release of noradrenaline from such grafts. The steady-state output of noradrenaline in the hippocampus of grafted animals (previously treated with intraventricular 6-hydroxydopamine) was similar to the baseline level in normal rats. A generalized seizure gave rise to a threefold increase of hippocampal noradrenaline levels as compared to baseline (15-min samples) in both normal and grafted animals. The maximal increase of extracellular noradrenaline levels occurred within 2-4 min after the onset of seizure activity and the levels then tapered off, reaching baseline after another 6-8 min. In 6-hydroxydopamine-treated animals without grafts baseline noradrenaline levels were markedly reduced compared to those of normal rats and only minor changes were observed in response to seizures. This supports the theory that the high extracellular noradrenaline concentrations measured in conjunction with seizures originate from the grafts. A knife cut transecting the ascending bundle from the locus coeruleus led to a marked attenuation of the seizure-induced increase of noradrenaline release in normal animals. In the intact brain, and probably also in the grafts, this response thus seems to be dependent on impulse flow in locus coeruleus neurons and only to a minor extent on local regulatory mechanisms in the hippocampus. In conclusion, the present study demonstrates that grafted locus coeruleus neurons are able to restore both basal and seizure-induced extracellular noradrenaline levels in the hippocampus.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1991