Katecholaminhaltige Neurone in der neuroendokrinen Steuerung Prinzip, Anwendung der Mikrofluorimetrie

Apoptotic signaling in dopamine-induced cell death: the role of oxidative stress, p38 mitogen-activated protein kinase, cytochrome c and caspases

Oxidative stress generated by dopamine (DA) oxidation could be one of the factors underlying the selective vulnerability of nigral dopaminergic neurons in Parkinson's diseases. Here we show that DA induces apoptosis in SH-SY5Y neuroblastoma cells demonstrated by activation of caspase-9 and caspase-3, cleavage of poly(ADP-ribose) polymerase as well as nuclear condensation. We also show that p38 mitogen-activated protein kinase is activated within 10 min of DA treatment, which precedes the onset of apoptosis because the potent p38 kinase inhibitor SB203580 protects against DA-induced cell death as well as against caspase-9 and caspase-3 activation. In addition, the antioxidant N-acetyl-L-cysteine (NAC) effectively blocks DA-induced p38 kinase activation, caspase-9 and caspase-3 cleavage and subsequent apoptosis, indicating that DA triggers apoptosis via a signaling pathway that is initiated by the generation of reactive oxygen species (ROS). Dopamine exerts its toxicity principally intracellularly as the DA uptake inhibitor, nomifensine significantly reduces DA-induced cell death as well as activation of p38 kinase and caspase-3. Furthermore, DA induces mitochondrial cytochrome c release, which is dependent on p38 kinase activation and precedes the cleavage of caspases. These observations indicate that DA induces apoptosis primarily by generating ROS, p38 kinase activation, cytochrome c release followed by caspase-9 and caspase-3 activation.

Involvement of T-complex protein-1delta in dopamine triggered apoptosis in chick embryo sympathetic neurons

The neurotransmitter dopamine (DA) is capable of inducing apoptosis in post-mitotic sympathetic neurons via its oxidative metabolites. The differential display method was applied to cultured sympathetic neurons in an effort to detect genes whose expression is transcriptionally regulated during the early stages of DA-triggered apoptosis. One of the up-regulated genes was identified as the chick homologue to T-complex polypeptide-1delta (TCP-1delta), a member of the molecular chaperone family of proteins. Each chaperone protein is a complex of seven to nine different subunits. A full-length clone of 1.9 kilobases was isolated containing an open reading frame of 536 amino acids with a predicted molecular weight of 57,736. Comparison with the mouse TCP-1delta revealed 78 and 91% homology on the DNA and protein levels, respectively. Northern blot analysis disclosed a steady and significant increase in mRNA levels of TCP-1delta after DA administration, reaching a peak between 4 and 9 h and declining thereafter. Induction of the TCP-1delta protein levels was also observed as a function of DA treatment. Overexpression of TCP-1delta in sympathetic neurons accelerated DA-induced apoptosis; inhibition of TCP-1delta expression in these neurons using antisense technology significantly reduced DA-induced neuronal death. These findings suggest a functional role for TCP-1delta as a positive mediator of DA-induced neuronal apoptosis.

Postnatal development of the dopaminergic neurons in the rat mesencephalon

The two mesencephalic dopaminergic systems in the developing rat brain were investigated immunohistochemically by dopamine and tyrosine hydroxylase and the results were quantitatively analyzed with a computer. The number of the dopaminergic neurons in the substantia nigra and the ventral tegmentum area did not change significantly during the postnatal development. Dopaminergic terminals in the lateral septum peaked at postnatal days (PD) 30, when the cell size in middle third of the ventral tegmentum area which was suggested as an origin of this projection system, increased largely. Patchy structures in the striatum were shown most distinctly at PD 7 and disappeared at PD 35 using dopamine antibody, but there were no changes in the cell size of the substantia nigra from PD 14 to 75. Dopaminergic neurons, in general, do not show a transient change in ontogeny.

Semaphorins as mediators of neuronal apoptosis

Shrinkage and collapse of the neuritic network are often observed during the process of neuronal apoptosis. However, the molecular and biochemical basis for the axonal damage associated with neuronal cell death is still unclear. We present evidence for the involvement of axon guidance molecules with repulsive cues in neuronal cell death. Using the differential display approach, an up-regulation of collapsin response mediator protein was detected in sympathetic neurons undergoing dopamine-induced apoptosis. A synchronized induction of mRNA of the secreted collapsin-1 and the intracellular collapsin response mediator protein that preceded commitment of neurons to apoptosis was detected. Antibodies directed against a conserved collapsin-derived peptide provided marked and prolonged protection of several neuronal cell types from dopamine-induced apoptosis. Moreover, neuronal apoptosis was inhibited by antibodies against neuropilin-1, a putative component of the semaphorin III/collapsin-1 receptor. Induction of neuronal apoptosis was also caused by exposure of neurons to semaphorin III-alkaline phosphatase secreted from 293EBNA cells. Anti-collapsin-1 antibodies were effective in blocking the semaphorin III-induced death process. We therefore suggest that, before their death, apoptosis-destined neurons may produce and secrete destructive axon guidance molecules that can affect their neighboring cells and thus transfer a "death signal" across specific and susceptible neuronal populations.

Toxicity of 6-hydroxydopamine and dopamine for dopaminergic neurons in culture

Toxicity of 6-hydroxydopamine (6-OHDA) and dopamine were studied in cultures of dissociated fetal rat mesencephalic cells. To assess survival and function of dopaminergic cells we quantified the number of tyrosine hydroxylase-positive cells and measured dopamine uptake. Non-dopaminergic cells were monitored by counting the number of cells visible with phase-contrast microscopy and measuring GABA uptake. 6-OHDA, in contrast to MPP+, which selectively destroyed dopaminergic neurons, was found to be a non-selective neurotoxin in this culture system. Between 10 and 100 microM, dopaminergic and non-dopaminergic cells were destroyed. At concentrations higher than 100 microM, i.e., concentrations frequently used to lesion catecholaminergic neurons in vivo, 6-OHDA resulted in structural fixation and loss of viability of dopaminergic and non-dopaminergic cells. Dopamine produced the same actions at slightly higher concentrations. One hundred to 300 microM was toxic for all cell types, and concentrations above 300 microM resulted in fixation. The findings suggest that 6-OHDA cannot be considered a selective toxin for catecholaminergic neurons in vitro. The demonstrated toxicity of dopamine tends to support speculations that processes related to dopamine metabolism may play a role in the pathogenesis of Parkinson's disease.

Organization of diencephalic dopamine neurones projecting to the spinal cord in the rat

Using the aluminium-formaldehyde method for visualization of catecholamines in combination with injections of the fluorescent retrograde tracer True Blue we have studied those diencephalic dopamine (DA)-containing cell groups which have been proposed to give rise to the DA innervation of the spinal cord and investigated the organization of the diencephalospinal DA system in detail. The A13 cell group was found to contain 370, and the A11 cell group 140, DA-producing cells on each side, whereas only very few such cells were found in the paraventricular hypothalamic nucleus. Tracer injections into the spinal cord labelled only DA cells within the A11 group. The overall majority of labelled cells were found ipsilaterally but some cells were also found contralaterally indicating the existence of a minor crossed dopaminergic projection to the spinal cord. Large tracer injections which covered the hemicord at different levels generally resulted in very similar distributions and numbers of retrogradely-labelled DA cells. The labelled DA-containing cells constituted 30-50% of the total number of labelled neurones in the ipsilateral A11 area and about 20-40% of the total number of DA containing cells in this area were labelled. Small injections that did not extend into the nucleus reticularis or the adjacent part of the lateral funiculus failed to label any diencephalic DA cells but usually labelled some non-DA cells in the A11 area. It is concluded that the diencephalospinal DA neurones have long axons that extend over several segments and possibly traverse the entire length of the spinal cord, giving off collateral branches at various levels. From the anatomical data of the present study and previous pharmacological and electrophysiological findings it seems possible that diencephalospinal DA neurones could modulate both sympathetic activity and nociception.

Quantification of formaldehyde induced fluorescence and its application in neurobiology

The methods used for measurements of fluorescence intensity in histochemical preparation will be described. Under certain conditions, the FIF intensity of biological objects shows a linear relationship with the local monoamine concentration. Microfluorometry enables determination of changes in monoamine concentrations in cell bodies, terminal axons and extraneuronal structures. In certain neuronal systems, FIF intensity of cell bodies appears to be correlated with neuronal activity. FIF intensity measurements of terminal axons can provide information on turnover of monoamine in structures as small as individual varicosities. Finally, the significance of extraneuronal FIF intensity in relationship to neurotransmission will be discussed. This paper aims to show that determinations of FIF provide information on the functional activity of neuronal systems.

A scanning microfluorimetric study on sympathetic nerve fibres: intraneuronal differences in noradrenaline turnover

The quantitative aspects of formaldehyde induced fluorescence (FIF) of noradrenaline (NA) in sympathetic nerve fibres were studied in whole mount preparations of the iris of the rat. Both "static" and scanning microfluorimetric measurements showed a close linear relationship between the FIF intensity and the NA content after pharmacological treatment (alpha-methyl-p-tyrosine, amphetamine, guanethidine, nialamide). A histogram analysis method is described to study fluorescence changes in different parts of the nerve fibre histogram, in order to evaluate changes in different segments of the nerve fibres characterized by their fluorescence intensity. The method is illustrated by a study on NA turnover. The chemically determined halflife (T 1/2 of NA after alpha-methyl-p-tyrosine (4.3 h) was in close agreement with the T 1/2 estimated microfluorimetrically (4.2 h). However, pronounced differences were found in various parts of the nerve fibre histogram (3.7-6.3 h). We conclude that the turnover of NA is different in various segments of the sympathetic nerve fibres in the rat iris and that the most intensely fluorescent varicosities display the longest T 1/2 and the highest turnover rate of NA.

Spike activity and histofluorescence correlated in the giant dopamine neurone of Planorbis corneus

The relationship between catecholamine fluorescence and electrical activity of the nerve cell has been investigated in the giant dopamine neuron (GDN) of the left pedal ganglion of the European water snail, Planorbis corneus. Electrical recordings were performed in vitro with intracellular microelectrodes on 35 GDN. The ganglion was frozen to -195 degrees C with the electrode in situ and processed for histochemical microfluorimetry. The intensity of catecholamine fluorescence was measured over different places (42/cell) throughout the cytoplasm of the GDN. In order to investigate the temporal relation between histochemical and electrophysiological parameters, the activity of 21 GDN was changed by administration of nicotine to the bathing solution (10(-5)--10(-7) M). This treatment was followed by depolarization in most of the GDN, with increased firing in two thirds and decreased activity in one third of the spontaneously active cells, whereas hyperpolarization was seen in 4 GDN, accompanied by a decrease in firing. Acetylcholine (10(-5) M) tested on one GDN caused depolarization and increased firing. A signigicant positive correlation was found between the fluorescence intensity of individual GDN and the firing rate of these cells as observed during the last 60 sec or the last 10 sec before freezing. The correlation coefficient dropped markedly when the first rates of the 2nd, 3rd, or 4th and 5th min before freezing were correlated with cellular fluorescence intensity. Intensity was not correlated with the resting membrane potential recorded at the time of freezing. The intensity response to activation was not uniform throughout the cytoplasm of GDN. Neurons with increased mean fluorescence intensity regularly showed small clusters and cristae of intensely fluorescent material surrounded by less fluorescent parts of the cytoplasm. This morphological observation of increased intensity differences between cytoplasmic structures was confirmed by the statistics of the intensity values determined in individual cells. The present observations demonstrate the existence of a relation between cell firing and neuronal dopamine fluorescence at the level of the individual nerve cell. The activity immediately preceding the time of freezing of the cell appears to be most important. Certain components of the cytoplasm appear to react preferentially; their subcellular nature remains to be elucidated. The link between electrical activity and cellular dopamine fluorescene was found to be basically the same in the giatn invertebrate neuron and in the dopamine nerve cells of rat substantia nigra.

Quantitative fluorescence histochemistry of combined formaldehyde-chloral-induced fluorescence of amino-terminal tryptophyl-peptide in model experiments and in the pars intermedia of the rat hypophysis

The relationship between the intensity of combined formaldehyde-chloral vapour-induced fluorescence and the concentration of amino-terminal tryptophyl-peptide in model experiments was found to be non-linear. At a certain concentration the intensity began to increase more slowly than the concentration, and when the concentration further increased the intensity even began to decrease. Based on the studies previously reported and on the above findings it seems that fluorescence induced by combined formaldehyde-chloral vapour, glyoxylic acid vapour and possibly also other combined formaldehyde and carbonyl compounds in the hypophyseal cells containing amino-terminal tryptophyl-peptides is quenched in normal conditions due to the high local concentration. Thus, small to moderate changes in the amounts of amino-terminal tryptophyl-peptides cannot be observed by measuring the fluorescence intensity. In tissue experiments the intensity of combined formaldehyde-chloral vapour-induced fluorescence in the rat pars intermedia was measured after reserpine treatment, which decreases the number of hormone storage granules as demonstrated electron microscopically. The fluorescence intensity measurements were combined with an estimation of the amounts of amino-terminal tryptophyl-peptides extracted from hypophyses and separated in thin-layer chromatography, and subsequently demonstrated by combined formaldehyde-chloral vapour and a protein stain (amido black). Reserpine treatment decreased the fluorescence intensity in the pars intermedia and in thin-layer chromatography, and the staining of the fluorescent band with amido black was also decreased. Amino-terminal tryptophyl-peptides appeared to be depleted from the pars intermedia cells together with endorphins and other hormones of the ACTH/MSH cells containing tryptophan.

Effects of lesions in the ventral noradrenergic bundle on behavior and response to psychotropic drugs in rats

Bilateral lesions of the ventral noradrenergic bundle (VB) decreased concentration of noradrenaline within the mesendiencephalon but not in the cortex. Lesioned rats showed increased activity measured in the open field test. Cataloptogenic effects of chlorpromazine and haloperidol were almost completely abolished in VB-lesioned animals. The stereotypy induced by both--amphetamine and apomorphine was, however, unchanged. It is supposed that lesions of the VB lead to increased activity in dopaminergic neurons in the brain.

Changes in the distribution of non-neuronal elements in rat median eminence and in anterior pituitary hormone secretion after activation of tuberoinfundibular dopamine neurones by brain stimulation or nicotine

In order to investigate the posssibility of acute functional changes in non-neuronal elements (mainly tanycytes) of the median eminence, the proportion of portal capillary surface covered by such elements was measured by quantitative electron microscopy in ovariectomized, oestrogen-progesterone-pretreated rats. In some of these animals, the functional state of the tuberoinfundibular dopamine (DA) neurones was assessed by histochemical microfluorimetry. Serum concentrations of luteinizing hormone (LH), growth hormone (GH) and prolactin were determined by radioimmunoassay. Two different types of treatment, i.e. systemic administration of nicotine (1 mg/kg, s.c.) or electrical stimulation in the medial amygdaloid nucleus, markedly reduced the percentage of capillary surface covered by non-neuronal profiles within 20 and 15 min, respectively. At the same time, the tuberoinfundibular DA system responded by an increase in cellular fluorescence intensity, reflecting neuronal activation. Medial preoptic stimulation had basically the same effect but with more variability in the change in capillary coverage by tanycytes. The action of nicotine was prevented by pretreatment with the DA receptor blocking agent, pimozide (5 mg/kg), which indicates (1) that a dopaminergic mechanism was involved in the nicotine effect and (2) that the tanycyte response was elicited by DA released from nerve terminals acting at some receptor site. Nicotine also lowered serum levels of GH and prolactin. Pimozide antagonized only the effect on prolactin. While the reaction of DA neurones and capillary coverage by tanycytes were correlated with each other in individual rats, no statistically significant correlation was observed between tanycyte response and hormone levels, so that no conclusions can as yet be drawn as to the neuroendocrine significance of the tanycyte reaction. These results indicate that rapid changes in the proportion or portal capillary surface covered by non-neuronal profiles can be elicited by stimulation of extrahypothalamic brain areas or by activation of cholinergic mechanisms. The tanycyte response appears to be mediated at least in part by the tuberoinfundibular DA neurones.

Changes in cellular noradrenaline fluorescence in the denervated rat superior cervical ganglion

The microfluorimetrical investigation showed that in the principal perikarya of the rat superior cervical ganglion, after inhibition of noradrenaline-synthesis and unilateral preganglionic axotomy, the fluorescence of newly synthesized noradrenaline was most intense at the periphery of the perikarya of the intact side.

Stress-induced depression model in female rats--biochemical and histochemical investigation of brain monoamines

Forced running stress induced a prolonged inactive state with the abolition of hormone-dependent cyclic behavior in some female rats which had already recovered from physical exhaustion. The state could be regarded as a "depression model" in these animals. In the biochemical study, norepinephrine in the hypothalamus was found to be significantly lowered in these animals. In the histochemical study, an increase of fluroescence intensity in nerve cell groups of the ascending norepinephrine system and a decrease of fluorescence intensity in nerve cells and terminals of the tubero-infundibular dopamine system were found in these animals. These findings were also seen in the rats which were examined immediately after the stress, but not in the rats which recovered their spontaneous and cyclic running activity in several weeks after the stress. These results suggest that changes of monoamine metabolism in the brain which is induced by the stress remains unrestored for a long time in the "depression model rats".

A quantitative correlation between single unit activity and fluorescence intensity of dopamine neurones in zona compacta of substantia nigra, as demonstrated under the influence of nicotine and physostigmine

In order to investigate the possible relationship between neuronal activity and cellular fluorescence intensity, extracellular recordings of single unit activity and determinations of fluorescence intensity of dopamine (DA) neurones by histochemical microfluorimetry were performed in the same (rostral) part of zona compacta of substantia nigra in male rats. In urethane anaesthesia, zona compacta neurones characteristically showed a slow and fairly regular type of firing. Nicotine (1 mg/kg s.c.) induced a transient decrease in unit activity for 1 min followed by a sustained increase in firing rate. During that stage, 4-5 neurones/rat were recorded at different anteroposterior levels, each during 200 sec. Microfluorimetric examination of the fluorescence intensity developed at the end of the 30-min observation period by the DA neurones of the same area revealed a marked rise in cellular fluorescence intensity. Similar results were obtained with a lower dose of nicotine and/or a shorter observation period. Additional microiontophoretic experiments supported the view that extracellular recordings of the correlative electrophysiological-microfluorimetric investigation belonged to DA neurones. Release of DA from terminals was indicated by an increase in HVA concentration of caudate-putamen in rats subjected to the same nicotine treatment. When tested on one cell during a prolonged period of time, physostigmine (0.25 mg/kg i.p.) caused an initial increase in firing rate of zona compacta neurones (5-10 min) followed by a decrease of unit activity (15-23 min). In agreement with previous observations in mice, fluorescence intensity of nigral DA neurones likewise showed a biphasic change with an initial rise and subsequent decrease (examined at 9.5 and 22-23.5 min, respectively). When mean unit activity and mean fluorescence intensity of individual rats out of various experimental groups were related to each other, a highly significant positive correlation between neuronal fluorescence intensity and firing rate was found. The results obtained with physostigmine demonstrate that mean intensity closely paralleled mean unit activity in time, so that this correlation was maintained. These findings indicate that cellular fluorescence intensity of DA neurone groups can be used as an index of the level of neuronal activity, except for cases where a drug treatment interferes directly with catecholamine synthesis or storage mechanisms.

Prospects for microscopical cytochemistry

This review is devoted mainly to an evaluation of the status of microscopical cytochemistry seen as a discipline aiming at both the localization and the quantification of molecular processes in cells. Its relationships to ultramicrochemistry, as well as, in a broader sense, to biochemistry and cell biology, are discussed from both the historical and the methodological points of view. Recent developments in quantitative cytophysical techniques, such as automated cytophotometry using microscopes fitted with flying spot systems, TV cameras, or scanning stages, and the development of rapid flow cytometers are discussed. Analytical electron microscopy is touched upon too. The main part of the review is devoted to recent trends that strengthen the analytical basis of cytochemical staining methods. The special character of staining procedures as a kind of matrix chemistry is discussed and the potentialities of the use of matrix-incorporated compounds for the fundamental study and calibration of microscopical staining procedures are elaborated. Parallel developments in the theory and practice of matrix chemistry in biochemistry are stressed. Growing interrelations between microscopical cytochemistry and related fields of investigation, such as the controlled fragmentation of cells, and methods like ultramicroanalysis of individual cells are indicated.