Production of nerve growth factor by brown fat in culture: relation with the in vivo developmental stage of the tissue

The regulation of nerve growth factor (NGF) production is still poorly understood. We attempt here to determine whether brown adipose tissue (BAT), which is densely innervated by sympathetic nerve fibres and can be induced to grow in adult rats by simple cold exposure, has the ability to produce NGF and thus to stimulate the growth of its innervation and, if so, whether this NGF activity is developmentally regulated. BAT at various stages of development was cocultured with NGF-sensitive sympathetic ganglia in the presence or absence of antiserum to NGF. Both undifferentiated BAT from newborn hamster and differentiated BAT from newborn rat induced neurite outgrowth by producing a neurotrophic factor which was biologically and immunologically indistinguishable from mouse submandibular gland beta (2.5S) NGF. Newborn hamster BAT and BAT from adult rats exposed to cold for 1 or 2 days showed the same high level of NGF activity, whereas the activities of newborn rat BAT, BAT from adult rats at normal room temperature or cold-exposed for 3 days or more were not significantly different from each other and were only about half as high. Newborn hamster BAT and BAT from adult rats cold-exposed for 1 or 2 days are both characterized in vivo by a rapidly increasing mitotic activity of the stromal-vascular cells, which distinguishes them from the other developing tissues tested. Our observations, therefore, suggest a relationship between NGF synthesis and proliferative activity.

Ultrastructural study of CCK and tyrosine hydroxylase immunoreactivity in the rat nucleus accumbens

The cholecystokinin (CCK)- and tyrosine hydroxylase (TH)-like immunoreactive (LI) axons and boutons were studied in the caudal and medial parts of the rat nucleus accumbens (NAC), using the indirect immunoperoxidase technique, at the electron microscopic level. Both CCK- and TH-LI boutons contained clear synaptic vesicles and large granular vesicles of similar size, but the CCK-LI boutons contained more large granular vesicles than TH-LI boutons. The CCK-LI and TH-LI boutons were heterogeneous. This finding might be related to the various immunoreactive neuronal types innervating the caudomedial NAC. However, the CCK-LI boutons (containing mostly small, round, clear synaptic vesicles) formed mainly asymmetrical synaptic contacts with dendritic spines whereas the TH-LI boutons (containing medium-sized as well as small, round, clear synaptic vesicles) formed mostly symmetrical synaptic contacts with dendritic shafts.

Development of the suprachiasmatic nucleus in rats during ontogenesis: tyrosine hydroxylase immunopositive cell bodies and fibers

This study has evaluated differentiation of tyrosine hydroxylase-immunopositive neurons in the suprachiasmatic nucleus as well as the innervation of this nucleus by tyrosine hydroxylase-immunopositive axons in rats during ontogenesis. Tyrosine hydroxylase-containing structures were detected with electron-microscopic pre-embedding immunocytochemistry at the 22nd fetal day as well as at the second, ninth and 21st postnatal days. Rare uni- and bipolar small tyrosine-hydroxylase-immunopositive neurons were observed in the suprachiasmatic nucleus both in fetuses and postnatal rats. These neurons underwent differentiation over the perinatal period that was mainly manifested in the increase of their size as well as in the development of the Golgi complex, granular endoplasmic reticulum and the onset of the dense core vesicle production. Concomitantly, tyrosine hydroxylase-immunopositive neurons, cell bodies and dendrites, became innervated by immunonegative axons first making presynapses, and, then, symmetric (Gray-type II) and asymmetric (Gray-type I) synapses. In addition to cell bodies and dendrites, tyrosine hydroxylase-immunopositive axons were regularly observed in ventral, ventrolateral and ventromedial regions of the suprachiasmatic nucleus in fetuses and postnatal rats. Tyrosine hydroxylase-immunopositive axons were observed either in simple appositions with the immunonegative neurons or making presynapses in fetuses and symmetric and asymmetric synapses in postnatal animals. The nature of the tyrosine hydroxylase-immunopositive axons and the functional significance in the suprachiasmatic nucleus in ontogenesis are discussed.

Development of the tuberoinfundibular system in rats: birthdates of the tyrosine hydroxylase-immunopositive neurons

The present study has attempted to determine the birthdates of the tyrosine hydroxylase (TH)-immunopositive neurons in the arcuate nucleus (AN) of rats, thus evaluating the time of the last mitotic divisions of their cell precursors. For this aim, 'long-survival' [3H]thymidine autoradiography was used in combination with immunocytochemistry of TH, the first enzyme of catecholamine synthesis. According to our data, some TH-immunopositive neurons in the AN were born as early as the 13th fetal day. At day 14, the number of double-labeled neurons almost tripled while reaching a maximum at day 15 of the intrauterine development. The fraction of the double-labeled neurons dropped on the following day, and practically disappeared by fetal day 17, showing cessation of the production of the TH-immunopositive neurons. The birth of the TH-immunopositive neurons is considered as the onset of the development of the tuberoinfundibular dopaminergic system.

Preparation of an antiserum using a fusion protein produced by a cDNA for rat aromatic L-amino acid decarboxylase

Aromatic L-amino acid decarboxylase (AADC) decarboxylates L-DOPA and 5-hydroxytryptophan into dopamine and serotonin, respectively. Starting from a rat AADC cDNA clone isolated in our laboratory, we produced a beta-galactosidase-AADC fusion protein in E. coli. It was purified from inclusion bodies and injected into a rabbit. The antiserum identified AADC on a Western blot of extracts from rat organs as a unique 50 kDa band; it also strongly reacted by immunohistochemistry with dopaminergic and serotonergic neurons. This new beta-galactosidase-AADC fusion protein then constitutes a useful tool for producing AADC as an antigen free of contamination by mammalian proteins.

Neuronal projections to the medial preoptic area of the sheep, with special reference to monoaminergic afferents: immunohistochemical and retrograde tract tracing studies

The preoptic area contains most of the luteinizing hormone releasing hormone immunoreactive neurons and numerous monoaminergic afferents whose cell origins are unknown in sheep. Using tract tracing methods with a specific retrograde fluorescent tracer, fluorogold, we examined the cells of origin of afferents to the medial preoptic area in sheep. Among the retrogradely labeled neurons, immunohistochemistry for tyrosine hydroxylase, dopamine-beta-hydroxylase, phenylethanolamine N-methyltransferase, and serotonin was used to characterize catecholamine and serotonin fluorogold labeled neurons. Most of the afferents came from the ipsilateral side to the injection site. It was observed that the medial preoptic area received major inputs from the diagonal band of Broca, the lateral septum, the thalamic paraventricular nucleus, the lateral hypothalamus, the area dorsolateral to the third ventricle, the perimamillary area, the amygdala, and the ventral part of the hippocampus. Other numerous, scattered, retrogradely labeled neurons were observed in the ventral part of the preoptic area, the vascular organ of the lamina terminalis, the ventromedial part of the hypothalamus, the periventricular area, the area lateral to the interpeduncular nucleus, and the dorsal vagal complex. Noradrenergic afferents came from the complex of the locus coeruleus (A6/A7 groups) and from the ventro-lateral medulla (group A1). However, dopaminergic and adrenergic neuronal groups retrogradely labeled with fluorogold were not observed. Serotoninergic fluorogold labeled neurons belonged to the medial raphe nucleus (B8, B5) and to the serotoninergic group situated lateral to the interpeduncular nucleus (S4). In the light of these anatomical data we hypothesize that these afferents have a role in the regulation of several functions of the preoptic area, particularly those related to reproduction. Accordingly these afferents could be involved in the control of luteinizing hormone releasing hormone (LHRH) pulsatility or of preovulatory LHRH surge.

Immunohistochemical investigation of tyrosine-hydroxylase in the islets of Langerhans of adult mice, rats and guinea pigs

As an indirect way to establish whether catecholamines are actually elaborated in the islets of Langerhans of adult albino and pigmented mice and guinea pigs, or albino rats, the presence of tyrosine-hydroxylase was immunohistochemically investigated using a highly specific polyclonal serum against the enzyme. The antiserum was applied to paraffin sections of pancreases fixed either in acrolein or Bouin's fluid. Such sections were then treated with the avidin-biotin method. Tyrosine-hydroxylase was found exclusively in the beta cells of rats and in those of the two strains of mice. Results in the guinea pig varied according to whether the animals were pigmented or albino. In pigmented specimens, the enzyme was detected in beta and non-beta cells, whereas in albino animals it was undetectable in any of the islet cells. All these observations were performed in material fixed in acrolein. Bouin's fluid resulted a rather poor fixative for the detection of the enzyme in the islets. The results are compared with those of other authors who investigated the presence of monoamines in the islets of Langerhans. Since tyrosine-hydroxylase is a specific marker for catecholamine-synthesizing cells, it is concluded that insular cells have the ability to elaborate these substances.

Morphological relationships between tyrosine hydroxylase-immunoreactive neurons and dopamine-beta-hydroxylase-immunoreactive fibres in dopamine cell group A15 of the sheep

Double immunocytochemical labelling with antibodies raised against tyrosine hydroxylase (TH) and dopamine-beta-hydroxylase was used on semi-thin sections of sheep hypothalamus to investigate possible morphological relationships between dopamine neurons of group A15 and noradrenaline afferents to this area. Dopamine-beta-hydroxylase-immunoreactive (IR) fibres were found in the close proximity of dendrites of TH-IR neurons. At electron microscopic level, single immunocytochemical staining with TH antibodies revealed the presence of synaptic contacts between labelled or unlabelled axon terminals and anti-TH labelled dendrites. These observations suggest that in the sheep, TH-IR neurons of group A15 are controlled by non-catecholaminergic and catecholaminergic afferents. Catecholamine inputs could contain either dopamine or noradrenaline. The hypothesis of noradrenaline inputs to A15 is strongly supported by the results obtained after double labelling on semi-thin sections. Tyrosine hydroxylase-immunoreactive perikarya and dendrites often seemed to be partly surrounded by glial processes. This latter observation suggests that the synaptic investment of these neurons might be controlled by glial cells.

Aromatic amino acid decarboxylase (AADC) immunohistochemistry in vertebrate brainstem with an antiserum raised against AADC made in E. coli

Aromatic L-amino acid decarboxylase (AADC) is involved in the biosynthesis of catecholamines and indolamines. AADC is present in the nervous system, in the chromaffin cells, and in non-neuronal tissues. We tested the capacity of a new polyclonal antibody, obtained by immunization of rabbits with a recombinant protein beta-galactosidase-AADC, to detect monoaminergic neurons in the brainstem as well as monoaminergic paraneurons in the adrenal medulla from goldfish, frog, skink, quail, and mouse. In the adrenal gland we found an immunoreactivity that was consistent with the distributions of the chromaffin cells previously reported. In the brainstem, groups of immunoreactive neurons and several labelled fibers were observed in the five species studied. The raphe region showed cell bodies and processes similar to those previously identified as monoaminergic by other authors. In addition, in medulla oblongata and isthmic tegmentum we found, in goldfish, skink, and quail, neuronal groups similar to mammalian D groups which contain AADC but are devoided of serotonin and catecholamines.

Assignment of the rat genes coding for dopa decarboxylase (DDC) and glutamic acid decarboxylases (GAD1 and GAD2)

By use of rat cDNA probes and a panel of cell hybrids segregating rat chromosomes, the genes encoding three pyridoxal 5'-phosphate (PLP)-dependent decarboxylases--namely, DOPA-decarboxylase (Ddc), glutamic acid decarboxylase 1 and 2 (Gad1 and Gad2)--were assigned to rat Chromosomes (Chrs) 14, 3, and 17, respectively. If one takes into account chromosome localizations in the human and the mouse, the present results (i) show that a synteny group is retained on rat Chr 14, human Chr 7, and mouse Chr 11 (Ddc); (ii) strengthen the homology relation known between rat Chr 3 and human and mouse Chrs 2 (Gad1); (iii) suggest that rat Chr 17 has no extensive homology to any human chromosome; and (iv) suggest the order (Prl, Fdp)--Tpl2--Gad2 on the rat Chr 17.

Characterization and partial purification from pheochromocytoma cells of an endogenous equivalent of scyllatoxin, a scorpion toxin which blocks small conductance Ca(2+)-activated K+ channels

This work describes the partial purification of a heat-stable peptide which has the same properties as the scorpion toxin, scyllatoxin, a specific blocker of one class of Ca(2+)-activated K+ channels: (i) it competes with [125I]apamin for binding to the same site, (ii) like apamin and scyllatoxin, it blocks the after-potential hyperpolarization in skeletal muscle cells in culture, (iii) like apamin and scyllatoxin, it contracts guinea-pig taenia coli relaxed by epinephrine, (iv) it cross-reacts with antibodies raised against scyllatoxin but not with antibodies raised against apamin.

Preparation of a rat brain histidine decarboxylase (HDC) cDNA probe by PCR and assignment of the human HDC gene to chromosome 15

The formation of histamine from its precursor histidine is catalyzed by histidine decarboxylase (HDC), a pyridoxal phosphate (PLP)-dependent decarboxylase. The knowledge of sequence similarities between various rodent HDCs permitted us to prepare a rat brain HDC cDNA probe. After reverse transcription of rat brain polyA + mRNA, the HDC cDNA obtained was amplified by the polymerase chain reaction using two specific primers. The resulting 1019-bp DNA was cloned in the p-MAL vector. Its sequence corresponds to the published data on rat fetal liver HDC. This 1019-bp rat probe detected two BamHI sequences in man; these were assigned to chromosome 15 by somatic hybrid cell analysis. According to the well-known homology between human chromosome 15 and mouse chromosome 2, the result obtained is in agreement with the published localization of HDC on mouse chromosome 2. The mapping of the human HDC gene on chromosome 15 is an original contribution to the chromosomal assignment of related PLP-dependent decarboxylases.

Immunohistochemical colocalization of tyrosine hydroxylase and estradiol receptors in the sheep arcuate nucleus

In sheep, the arcuate nucleus contains numerous tyrosine hydroxylase (TH) and estradiol receptor (rE2) immunoreactive (IR) perikarya and it has been shown previously in this species that catecholaminergic neurons can mediate the gonadal steroid action on the reproductive function. In the present study, double immunohistochemical labelling with antibodies against TH and rE2 have been used to demonstrate the presence of rE2 in TH-IR neurons in the arcuate nucleus where the distribution of TH-IR and rE2-IR neurons overlap each other. Only less than 10% of all the rE2-IR perikarya presented TH immunoreactivity. It was therefore hypothesized that either such a low number of double labelled neurons can support the effects of estradiol in this area or that the effect of this steroid was indirect. In the latter case it might be first mediated by beta-endorphin neurons which have been previously described in this nucleus.

Purification and characterization of the blue-green rat phaeochromocytoma (PC12) tyrosine hydroxylase with a dopamine-Fe(III) complex. Reversal of the endogenous feedback inhibition by phosphorylation of serine-40

Tyrosine hydroxylase (TH) was purified from tumours of rat phaeochromocytoma (PC12) cells by a three-step purification procedure giving 30 mg of pure enzyme in 3 days. The enzyme sedimented with an S(eo),w value of 9.2 S and revealed an apparent subunit molecular mass of 62 kDa with a minor 60 kDa component. Two-dimensional gel isoelectric focusing/electrophoresis and tryptic digestion revealed that the heterogeneity could be accounted for by limited proteolysis of the 62 kDa component and the presence of covalently bound phosphate. The enzyme had a strong blue-green colour (epsilon 700 = 3.1 +/- 0.2 mM-iron-1.cm-1). The resonance Raman spectrum obtained with lambda excitation = 605 nm revealed the presence of an Fe(III)-catecholamine complex in the isolate enzyme, similar to that observed in the bovine adrenal enzyme [Andersson, Cox, Que, Flatmark & Haavik (1988) J. Biol. Chem. 263, 18621-18626]. In the rat PC12 enzyme, all of the iron present (0.53 +/- 0.03 atom per subunit) seems to be chelated by the feedback inhibitors (0.49 +/- 0.05 mol of dopamine and 0.10 +/- 0.03 mol of noradrenaline per mol of subunit). The e.p.r. spectra at 3.6 K show g-values at 7.0, 5.2 and 1.9 as observed for other catecholate-complexed enzymes. After phosphorylation of serine-40 and addition of L-tyrosine a new rhombic (magnitude of E/D = 0.33) e.p.r. species could be observed. Phosphorylation of serine-40 by cyclic AMP-dependent protein kinase increased the catalytic activity; depending on assay conditions, up to 80-110-fold activation could be observed when measured at high TH (i.e. high endogenous catecholamine) concentration.

Mapping of the dopa decarboxylase gene to the 11A band of the murine genome

A human DOPA decarboxylase (DDC) cDNA probe of 747 base pairs has been used to map the DDC gene by in situ hybridization on mouse metaphase chromosomes. This result indicates that the gene is located on band 11A, near the erythroblastosis oncogene B (erb b) locus. This provides evidence for a synteny group on mouse chromosome 11 and human chromosome 7.

Distribution of catecholaminergic and serotoninergic systems in forebrain and midbrain of the newt, Triturus alpestris (Urodela)

Mapping of monoaminergic systems in the brain of the newt Triturus alpestris was achieved with antisera against (1) thyrosine hydroxylase (TH), (2) formaldehyde-conjugated dopamine (DA), and (3) formaldehyde-conjugated serotonin (5-HT). In the telencephalon, the striatum was densely innervated by a large number of 5-HT-, DA- and TH-immunoreactive (IR) fibers; IR fibers were more scattered in the amygdala, the medial and lateral forebrain bundles, and the anterior commissure. In the anterior and medial diencephalon, TH-IR perikarya contacting the cerebrospinal fluid (CSF-C perikarya) were located in the preoptic recess organ (PRO), the organum vasculosum laminae terminalis and the suprachiasmatic nucleus. Numerous TH-IR perikarya, not contacting the CSF, were present in the posterior preoptic nucleus and the ventral thalamus. At this level, DA-IR CSF-C neurons were only located in the PRO. In the posterior diencephalon, large populations of 5-HT-IR and DA-IR CSF-C perikarya were found in the paraventricular organ (PVO) and the nucleus infundibularis dorsalis (NID); the dorsal part of the NID additionally presented TH-IR CSF-C perikarya. Most regions of the diencephalon showed an intense monoaminergic innervation. In addition, numerous TH-IR, DA-IR and 5-HT-IR fibers, originating from the anterior and posterior hypothalamic nuclei, extended ventrally and reached the median eminence and the pars intermedia of the pituitary gland. In the midbrain, TH-IR perikarya were located dorsally in the pretectal area. Ventrally, a large group of TH-IR cell bodies and some weakly stained DA-IR and 5-HT-IR neurons were observed in the posterior tuberculum. No dopaminergic system equivalent to the substantia nigra was revealed. The possible significance of the differences in the distribution of TH-IR and DA-IR neurons is discussed, with special reference to the CSF-C neurons.

Quantitative autoradiography of tyrosine hydroxylase immunoreactivity in the rat brain

Levels of tyrosine hydroxylase (TH) were quantified in discrete areas of unfixed rat brain tissue sections using a rapid and sensitive radioimmunohistochemical method. The immunological reaction with the TH monoclonal antibody was revealed by a 35S-labelled secondary antibody and thus permitted autoradiographic detection of the enzyme. Autoradiograms were generated by apposition of tissue sections to high-sensitivity films or by dipping into autoradiographic emulsion. A detailed analysis of antibody concentration, incubation time, tissue section thickness, and exposure time of the film was undertaken to determine optimal conditions to produce a linear radiolabelling intensity with respect to the amount of antigen. Quantification of the antigen at regional levels was assessed by computer-assisted image analysis. Autoradiographic optical density of radiolabelling in brain areas was converted to enzyme concentrations by interpolation with a constructed TH calibration curve processed in parallel with tissue sections. The specificity of the labelling and the validity and reproducibility of the quantification were investigated. The distribution of TH radiolabelling was comparable to that described using immunofluorescence histochemistry or measuring TH enzymatic activity on homogenates. Using a 35S-labelled antibody, the detection of TH could be performed at the cellular level.

Dopamine increases the expression of tyrosine hydroxylase and aromatic amino acid decarboxylase in primary cultures of fetal neurons

Previous studies, aimed at identifying which diffusible signals may influence the differentiation of embryonic neurons towards the monoaminergic phenotypes during brain development, have shown that serotonin itself could promote the 'serotoninergic-like properties' of hypothalamic cells from mouse embryos. We presently reinvestigated such 'autocrine/paracrine' regulatory mechanisms by exposing dissociated cell cultures from embryonic rat hypothalamus and brain stem to dopamine--or related agonists--in an attempt to influence their differentiation towards the catecholaminergic phenotype. Chronic treatment of cells by dopamine or apomorphine (a mixed D1/D2 agonist), but not selective D1 and D2 agonists, significantly increased the number of cells that expressed tyrosine hydroxylase (TH: as assessed with a specific anti-TH antiserum) and the activity of aromatic L-amino acid decarboxylase (AADC) in the cultures. Furthermore, apomorphine treatment also decreased the levels of cholecystokinin-like material in primary cultures from the brainstem (but not the hypothalamus) where both dopamine and cholecystokinin are--partly--colocalized in mesencephalic dopaminergic neurons. The maximal effects of both dopamine and apomorphine on TH expression and AADC activity occurred earlier in the brainstem (on cells from 14- to 15-day-old embryos) than in the hypothalamus (on cells from 15- to 16-day-old embryos), in line with the well established caudo-rostral maturation of the rat brain. Furthermore both the expression and the dopamine-induced modulation of AADC activity and TH immunoreactivity appeared to occur independently of each other. Present and previous data are in agreement with a possible autocrine/paracrine action of dopamine and serotonin during brain development.(ABSTRACT TRUNCATED AT 250 WORDS)

Quantitative image analysis with densitometry for immunohistochemistry and autoradiography of receptor binding sites--methodological considerations

Major technical progress in the development of computer-based image analysis has made possible the entry of autoradiography and immunohistochemistry into a new era where quantification by densitometry has become easily accessible. Autoradiography could become quantitative and displayed adequate reproducibility with the help of emulsion-coated films and the use of scales of standards of known radioactivity exposed and analyzed in parallel to the tissue sections. Immunohistochemistry after revelation by a color-based enzymatic technique can also become quantitative, providing that standardization of the crucial steps of the procedure and calibration through a parallel treatment of a scale of antigen standards can be ensured. Such an approach is described here in the rat with reference to tyrosine hydroxylase (TH), the main synthesizing enzyme for catecholamines, and with dopamine (DA) itself, a catecholaminergic neurotransmitter. The different parts of the procedure, which can influence the results, such as the fixation of the animals by perfusion and the evaluation of the fluctuations via the calibration curve, are discussed in detail. Biological validation of the proposed procedure is described by reference to experiments already well documented biochemically, such as the induction effect of reserpine on TH in the rat locus coeruleus and the depleting effect of alpha-methyltyrosine (AMPT), a well-known blocker of TH activity, on rat striatal DA content. Finally the importance of restricting the measurements to the (pseudo)linear portion of the calibration curve is illustrated by the autoradiographic identification of the differential intrastriatal repartition of the dopaminergic D1 and D2 receptor sites, particularly the dual patch-matrix compartments.

Different mRNAs code for dopa decarboxylase in tissues of neuronal and nonneuronal origin

A cDNA clone for dopa decarboxylase (EC 4.1.1.28) has been isolated from a rat pheochromocytoma cDNA library and the cDNA sequence has been determined. It corresponds to an mRNA of 2094 nucleotides. The length of the mRNA was measured by primer-extension of rat pheochromocytoma RNA and the 5' end of the sequence of the mRNA was confirmed by the PCR. A probe spanning the translation initiation site of the mRNA was used to hybridize with mRNAs from various organs of the rat. S1 nuclease digestion of the mRNAs annealed with this probe revealed two classes of mRNAs. The comparison of the cDNA sequence and published sequences for rat liver, human pheochromocytoma, and Drosophila dopa decarboxylase supported the conclusion that two mRNAs are produced: one is specific for tissue of neuronal origin and the other is specific for tissues of nonneuronal (mesodermal or endodermal) origin. The neuronal mRNA contains a 5' untranslated sequence that is highly conserved between human and rat pheochromocytoma including a GA stretch. The coding sequence and the 3' untranslated sequence of mRNAs from rat liver and pheochromocytoma are identical. The rat mRNA differs only in the 5' untranslated region. Thus a unique gene codes for dopa decarboxylase and this gene gives rise to at least two transcripts presumably in response to different signals during development.