Distribution of Tyrosine Hydroxylase mRNA in the Rat Central Nervous System Visualized by Alkaline Phosphatase in situ Hybridization Histochemistry

Distribution of catecholaminergic and peptidergic cells in the gerbil medial amygdala, caudal preoptic area and caudal bed nuclei of the stria terminalis with a focus on areas activated at ejaculation

The posterodorsal preoptic nucleus (PdPN), lateral part of the posterodorsal medial amygdala (MeApd) and medial part of the medial preoptic nucleus (MPNm) are activated at ejaculation in male gerbils as assessed by Fos expression. We sought to immunocytochemically visualize substance P (SP), cholecystokinin (CCK), oxytocin, vasopressin and tyrosine hydroxylase (TH), a catecholaminergic marker, in the mating-activated cells, but the need for colchicine precluded behavioral testing. Instead, we detailed distributions of cells containing these molecules in the medial amygdala, caudal preoptic area and caudal bed nuclei of the stria terminalis (BST) and quantified their densities in the PdPN, MPNm and lateral MeApd for comparison to densities previously assessed for mating-activated efferents from these sites. TH cells were as dense in the PdPN and lateral MeApd as activated efferents to the anteroventral periventricular nucleus. In the lateral MeApd, TH cells were grouped where cells activated at ejaculation are clustered and where CCK cells form a ball. Lateral MeApd CCK cells and PdPN SP cells were as dense as activated efferents to the principal BST. Oxytocinergic PdPN cells and SP cells in the MPNm were as dense as mating-activated efferents to the lateral MeApd. If some oxytocin cells in the PdPN project to the neurohypophysis, as in rats, they could be a source of the oxytocin secreted at ejaculation. Since gerbils are monogamous and biparental, it was also interesting that, unlike monogamous prairie voles, they had few TH cells in the MeApd or dorsal BST, resembling promiscuous rats, hamsters and meadow voles.

Regulation of GAP-43 protein and mRNA in nigrostriatal dopaminergic neurons after the partial destruction of dopaminergic terminals with intrastriatal 6-hydroxydopamine

Changes in the level of GAP-43 and its mRNA in nigrostriatal dopaminergic neurons in an animal model of the presymptomatic period of Parkinson's disease were measured to find the characteristic features of GAP-43 in nigrostriatal dopaminergic neurons. Since the dopaminergic neurons possess a relatively large amount of GAP-43 protein and mRNA, the dopaminergic neurons must be endowed with specific functions related to those of GAP-43. In this study, dopaminergic axon terminals were partially destroyed by intrastriatal 6-hydroxydopamine (6-OHDA). Rats were decapitated 3, 14, and 56 days following treatment. Levels of GAP-43 and tyrosine hydroxylase (TH) in the striatum were detected by immunoblotting and quantified. The number of GAP-43 mRNA-positive neurons and that of TH mRNA-positive neurons in the substantia nigra pars compacta (SNc) were detected by in situ hybridization using alkaline phosphatase (ALP)-labeled probes. Levels of GAP-43 in the striatum showed no significant alteration during the period of the experiment, although levels of TH were gradually restored. The number of GAP-43 mRNA-positive neurons as well as that of TH mRNA-positive neurons in the SNc decreased. These results suggests that dopaminergic neurons restore their axon terminals with little change in GAP-43, and that transcription and/or stability of GAP-43 mRNA in the dopaminergic neurons are susceptible to the toxin, although the dopaminergic neurons can maintain the translational product in the terminals. This feature may be related with a degeneration of dopaminergic neurons in Parkinson's disease.

Induction of c-fos messenger ribonucleic acid in neuropeptide Y and growth hormone (GH)-releasing factor neurons in the rat arcuate nucleus following systemic injection of the GH secretagogue, GH-releasing peptide-6

In this study we investigated the neurochemical identity of the arcuate cells activated following GH-releasing peptide-6 (GHRP-6) injection by comparing, on consecutive sections, the distribution c-fos messenger RNA (mRNA) with that of mRNAs for peptides synthesized in arcuate cells, including neuropeptide Y (NPY), GH-releasing factor (GRF), tyrosine hydroxylase, POMC, and somatostatin. Rats bearing chronically implanted jugular catheters were injected with either 50 micrograms GHRP-6 or vehicle. Thirty minutes later they were terminally anesthetized and perfused with fixative. Paraffin-embedded sections of 7 microns thickness were processed using in situ hybridization for either c-fos mRNA or mRNAs for the neurochemical markers. In GHRP-6-treated rats the mean (+/-SEM) number of cells expressing c-fos mRNA in the arcuate nucleus (23 +/- 2 cells/section per rat; n = 5) was significantly higher than for vehicle-treated controls (2 +/- 1 cells/section per rat; n = 5; P < 0.001, Mann-Whitney U test). Superimposed camera lucida maps indicated that, in GHRP-6-injected rats, neurochemically identifiable cells expressing c-fos mRNA also express NPY mRNA (51 +/- 4%), GRF mRNA (23 +/- 1%) tyrosine hydroxylase mRNA (11 +/- 3%), POMC mRNA (11 +/- 2%), or somatostatin mRNA (4 +/- 1%). Thus, the majority of cells expressing c-fos mRNA following GHRP-6 injection are NPY and GRF-containing cells.

Oligozymes. Oligonucleotide-enzyme conjugates

The simple use of nonisotopic hybridization probes to detect complementary sequences provides valuable information in a large number of research and commercial applications. In hybridization assays, the four "S's (speed, simplicity, sensitivity, and specificity) are important criteria for determining the choice of probe and label. The direct chemical combination of synthetic oligonucleotide probes and enzyme labels offer advantages unmatched by other approaches, with the oligonucleotide providing rapid hybridization and high specificity, and the direct enzyme label providing simple and sensitive detection. Such oligonucleotide-enzyme conjugates ("oligozymes") can be used in a variety of hybridization and detection formats, including dot blots, Southern/northern blots, in situ, and solution hybridization/capture schemes. The practical synthesis and use of such oligozymes are summarized.

Estimation of the number of somatostatin neurons in the striatum: an in situ hybridization study using the optical fractionator method

Somatostatin-containing neurons of the striatum constitute fewer than 5% of the total neuronal population. Their involvement in the feedforward inhibition of the spiny projection neurons, the modulation of other interneurons, and the regulation of regional blood flow indicates that this small population of neurons plays an important role in the processing of information in the striatum. As a first step in developing a quantitative structural framework within which a more rigorous analysis can be made of the functional circuitry of the striatum, we used modern unbiased stereological techniques to make estimates of the total number of neurons expressing mRNA for somatostatin in the striatum of rats. The strategy developed involved the application of the optical fractionator technique to relatively thick tissue sections that were hybridized in situ with a relatively short oligonucleotide probe conjugated to a nonradioactive reporter molecule. The approach is generally applicable to other subpopulations of in situ hybridized cells in other parts of the brain and can provide a link between molecular neurobiology and stereology. The mean total number of neurons on one side of the striatum was estimated to be 21,300. An analysis of the sampling scheme indicated that counting no more than 200 neurons in a systematic sample of not more than 15 sections per individual results in an estimate with a precision that is more than sufficient for comparative and experimental studies. The issues that must be considered when analyzing in situ hybridized tissue with modern stereological methods, the interpretive caveats inherent in the resulting data, and the unique perspectives provided by data like that presented here for striatal somatostatin neurons are discussed.

Effect of dietary NaCl on tyrosine hydroxylase in the superior cervical ganglia of Dahl rats

To investigate the involvement of peripheral catecholamines in the development of Dahl-Iwai salt-sensitive (DIS/Eis) hypertension, we performed immunohistochemical staining of tyrosine hydroxylase (TH) in the superior cervical ganglia (SCG) of DIS/Eis rats and Dahl-Iwai salt-resistant (DIR/Eis) rats, and in situ hybridization histochemistry for demonstration of TH mRNA localization in the SCG of these rats. DIS/Eis and DIR/Eis rats were fed on a high (8%) salt diet or on a low (0.3%) salt diet for 4 weeks. Nerve cells in the SCG of DIS/Eis high salt rats exhibited more intense TH-immunoreactivity (P < 0.01) and hybridization signals (P < 0.01) than those of the other experimental groups. These findings suggest that activation of peripheral sympathetic nerves may account for hypertension in DIS/Eis rats on a high salt diet.

RNA detection using non-radioactive in situ hybridization

Methods of non-radioactive in situ hybridization to RNA now enable the simultaneous detection of two RNAs in the same tissue. Sensitivity has been increased by several modifications, including the use of the polymerase chain reaction. Recently, in situ hybridization has been combined with lineage tracing to determine the origin of cells expressing a specific gene.

Location of PHM/VIP mRNA in human gastrointestinal tract detected by in situ hybridization

The expression of the gene for vasoactive intestinal polypeptide (VIP) and peptide histidine methionine (PHM) in the human gastrointestinal tract was studied by in situ hybridization and Northern blotting for PHM/VIP mRNA and immunocytochemistry using specific antisera against the bioactive peptides PHM and VIP. In the colon sigmoideum, antisera against all five putative processing products of the VIP precursor (prepro-VIP) were used, namely prepro-VIP 22-79, PHM, prepro-VIP 111-122, VIP and prepro-VIP 156-170. Furthermore, RNA extracted from various regions of the gastrointestinal tract was examined by Northern blots and hybridization to a VIP-cDNA probe. Throughout the gastrointestinal tract, PHM/VIP mRNA was found in neurons only. Using single- or double-staining methods, we demonstrated both PHM/VIP mRNA and the corresponding peptides PHM and VIP in the neurons. In the sigmoideum, the single-staining methods were extended to investigate whether the neurons simultaneously contained PHM/VIP mRNA and each of the five prepro-VIP-derived peptides. Only one major band of PHM/VIP mRNA (1.9 kb) was found by Northern blotting in the tissue of the gastrointestinal tract.

Combination of alkaline phosphatase in situ hybridization with immunohistochemistry: colocalization of calretinin-mRNA with calbindin and tyrosine hydroxylase immunoreactivity in rat substantia nigra neurons

We describe a method to combine non-radioactive in situ hybridization using alkaline phosphatase (AP) labelled oligonucleotide-probes with immunohistochemistry on the same thin paraffin section. The simultaneous detection of calretinin-mRNA and calbindin- or tyrosine hydroxylase-like immunoreactivity in neurons of rat substantia nigra, pars compacta, was used as a test system to develop the method. Brains were fixed by perfusion with 4% paraformaldehyde and embedded in paraffin. Five-microns-thick sections were processed for non-radioactive in situ hybridization with a 33-base alkaline phosphatase conjugated synthetic oligonucleotide complementary to calretinin mRNA. After hybridization and colour reaction to visualize calretinin mRNA, sections were incubated with antibodies against calbindin D28K or tyrosine hydroxylase. Immunoreaction was visualized using the avidin-biotin-complex-technique and diaminobenzidine. As the colour of both reaction products differ markedly, the distribution of calretinin mRNA-containing neurons (purple-blue, alkaline phosphatase product) and calbindin/tyrosine hydroxylase immunopositive cells (brown peroxidase product) could be differentiated easily on the same section. Calbindin- and tyrosine hydroxylase-like immunoreactivity was found in the majority of calretinin mRNA-containing cells within the substantia nigra, pars compacta, indicating that in this nucleus a proportion of the dopaminergic neurons contain both calcium binding proteins calbindin and calretinin. In conclusion, non-radioactive in situ hybridization using alkaline phosphatase labelled oligonucleotide probes can be readily combined with immunohistochemistry.

Co-expression of dopamine transporter mRNA and tyrosine hydroxylase mRNA in ventral mesencephalic neurones

Radioactive in situ hybridization was used to map the cellular localization of dopamine (DA) transporter mRNA-containing cells in the adult rat central nervous system. The distribution of DA transporter mRNA-containing cells was compared to adjacent sections processed to visualize tyrosine hydroxylase (TH) mRNA, a marker of catecholamine containing neurones. TH mRNA-containing cells, visualized using an alkaline phosphatase labelled probe, were detected in the hypothalamus, midbrain and pons; the strongest hybridization signals being detected in the substantia nigra, ventral tegmental area and locus coeruleus. The distribution of DA transporter mRNA-containing cells was more restricted; a strong signal being detected in the substantia nigra pars compacta and ventral tegmental area only. No hybridization signal was detected in the locus coeruleus. By simultaneously hybridizing mesencephalic tissue with both the alkaline phosphatase-labelled TH probe and the 35S-labelled DA transporter probe we were able to demonstrate that both DA transporter and TH mRNAs are expressed by the same cells in the substantia nigra and ventral tegmental area. The restricted anatomical localization of DA transporter mRNA-containing cells and the lack of expression in the locus coeruleus and other adrenergic and noradrenergic cell groups confirms the DA transporter as a presynaptic marker of DA containing nerve cells in the rat brain.

Distribution of calretinin mRNA in rat spinal cord and dorsal root ganglia: a study using non-radioactive in situ hybridization histochemistry

Using non-radioactive in situ hybridization calretinin mRNA was detected in numerous small neurons within lamina II and IV of the dorsal horn. Many labelled cells are distributed over the whole ventral horn; however, no motoneurons contained the mRNA. In dorsal root ganglia 4.9 +/- 1.7% (mean +/- S.D., n = 5 animals) of the primary afferent neurons contained calretinin mRNA. Labelled cells were of intermediate and large size with diameters ranging from 36 to 68 microns indicating that calretinin is synthesized in neurons with myelinated afferent fibers and presumably a corpuscular ending.

Distribution of GAP-43 (B50/F1) mRNA in the adult rat brain by in situ hybridization using an alkaline phosphatase labeled probe

GAP-43 (B-50,F1, pp46) is a calmodulin binding protein which is specific to the nervous system and also a substrate for the protein kinase C. Furthermore an enrichment of this protein in the growth cone and developmental brain indicate that this protein is related to nerve development, regeneration, and outgrowth. While its level dramatically decreases after the completion of synaptogenesis, the protein is still to some extent continuously expressed in certain regions of the mature brain. In order to clarify GAP-43 localization in mature normal rats, we investigated the distribution of GAP-43 mRNA in the rat central nervous system by using a non-radioisotopic in situ hybridization histochemistry. This method demonstrated GAP-43 mRNA expressing cells with high resolution. GAP-43 mRNA was more abundant in the forebrain than in the lower brainstem. Intense hybridization signal was observed in the mitral cells of olfactory bulb, cerebral cortex, CA3 region of hippocampus, diagonal band, substantia nigra, raphe nuclei, locus coeruleus, and dorsal motor nucleus of vagus. Weak to moderate hybridization signals were also widely expressed in thalamus, hypothalamus, and midbrain. Moreover, most noradrenergic, adrenergic, serotonergic, histaminergic, and caudal part of dopaminergic cells exhibited an intense GAP-43 mRNA signal. Thus, GAP-43 mRNA is abundantly expressed under normal conditions in the brain and may play an important physiological role particularly in the forebrain and in monoaminergic neurons supporting the findings that GAP-43 could be implicated in plasticity and monoamine release.

In situ hybridization histochemistry quantification: automatic count on single cell in digital image

It is extremely useful in investigations of the central nervous system (CNS) to measure mRNA expression in cells by in situ hybridization. However, this approach is limited by the difficulties of a reliable quantitative evaluation. In the present paper we describe a method for quantifying radioactive hybrids on individual cells by a silver grain count in digital images. Quantification is based on the real size and grey level of a single grain obtained by computerized microscope image analysis (IBAS 2, Kontron-Zeiss, PC 286). The program provides for automatic identification of cell area, the portion occupied by grains and their grey level. The number of grains per cell results from a mathematical function integrating these parameters with a 'density factor'. This factor is introduced to better estimate the number of grains when there is overlapping. The method was tested by measuring the expression of preproNPY (pp-NPY) mRNA in rat dentate gyrus and preproSomatostatin (pp-SOM) mRNA in frontal cerebral cortex of control and colchicine-treated rats. Colchicine did not modify the number of pp-SOM mRNA-positive cells but reduced the expression per cell. These results confirm the advantages of our method to quantify a wide range of silver grains (10-5000) and improves the sensitivity of in situ hybridization. With this support the in situ hybridization technique could be considered a real quantitative method for measuring small alterations in neuronal function.

Sensitive mRNA detection using unfixed tissue: combined radioactive and non-radioactive in situ hybridization histochemistry

In the present study some experimental parameters for in situ hybridization histochemistry (ISHH) have been analysed using 35S-labelled and alkaline phosphatase-conjugated probes, in order to develop a reproducible double-labelling procedure. We have compared the total exclusion of tissue fixation with tissue sections fixed by immersion in formalin. In addition, the effect of dithiothreitol was assessed both when combining radiolabelled and non-radioactive probes on a single tissue section and when the probes were used separately. Hybridization of unfixed tissue resulted in stronger specific labelling and lower background both for radiolabelled and alkaline phosphatase-conjugated probes. No loss in tissue preservation was seen at the light microscopic level after hybridization of unfixed tissue. High concentrations (200 mM) of dithiothreitol strongly suppressed background when using 35S-labelled probes, whereas in the non-radioactive procedure, alkaline phosphatase labelling could only be achieved with very low dithiothreitol concentrations (less than 1 mM). This incompatibility led to a protocol using unfixed tissue sections and a sequential hybridization procedure, with the radiolabelled probe and high concentrations of dithiothreitol in the first step and the alkaline phosphatase-conjugated probe without dithiothreitol in the second step.

Differential regulation of manganese and copper/zinc superoxide dismutases by the facial nerve transection

The effects of unilateral nerve transection on manganese and copper/zinc superoxide dismutase (Mn-SOD and Cu/Zn-SOD) mRNA levels in the facial nucleus were studied by in situ hybridization. An increase of Mn-SOD mRNA levels was first seen in the ipsilateral facial nucleus 12 h after axotomy, and was most pronounced at 4-7 days after this procedure; by 56 days, the increase disappeared. There was no change in Cu/Zn-SOD mRNA levels at any time after axotomy. We further confirmed, by immunohistochemistry, that the increase in Mn-SOD transcription was followed by protein synthesis. These results are suggestive of an important role for Mn-SOD in defense, regeneration and recovery responses following nerve transection.

A species-specific population of tyrosine hydroxylase-immunoreactive neurons in the medial amygdaloid nucleus of the Syrian hamster

The medial amygdaloid nucleus (Me) is part of a neural pathway that regulates sexual behavior in the male Syrian hamster. To characterize the neurochemical content of neurons in this nucleus, brains from colchicine-treated adult male and female hamsters were immunocytochemically labeled using antibodies that recognize the catecholamine-synthesizing enzymes, tyrosine hydroxylase (TH), dopamine-beta-hydroxylase (DBH) and phenylethanolamine-N-methyltransferase (PNMT), as well as dopamine. A large population of TH-immunoreactive (TH-IR) neurons was observed throughout Me of male and female hamsters, primarily concentrated in the midrostral and caudal portions of the nucleus. The somata were generally small to medium in size and bipolar. Brains from animals that did not receive colchicine contained a limited number of TH-IR neurons in Me as reported previously. The DBH and PNMT antisera did not label any cells in Me of colchicine-treated animals, and the dopamine antiserum labeled neurons in the same location as the caudal group of TH-IR cells. Therefore, these caudal TH-IR neurons are interpreted to be dopaminergic. The rostral group of TH-IR neurons, on the other hand, may be producing only the immediate precursor of dopamine, L-3,4-dihydroxyphenylalanine (L-DOPA). The TH-synthesizing neurons in Me of the Syrian hamster appear to be a species-specific group of cells located outside of the previously described catecholaminergic cell groups.

Quantitative autoradiographic study on tyrosine hydroxylase mRNA with in situ hybridization and alpha 2 adrenergic receptor binding in the locus coeruleus of the spontaneously hypertensive rat

alpha-2 Adrenergic (A2) receptors and tyrosine hydroxylase (TH) mRNA in the locus coeruleus (LC) were studied using [125I]iodoclonidine and [35S]TH oligonucleotide probe. Spontaneously hypertensive (SHR) rats contained less TH mRNA at their prehypertensive, but not at the well-established hypertensive stage, than age-matched Wistar-Kyoto rats. Furthermore, there is an up-regulation of A2 receptors in SHR rats which is parallel to their blood pressure elevation. The present data suggest that increased A2 receptors in conjunction with TH mRNA reduction in the LC are associated with initiation, but not maintenance of genetic hypertension.

Transient expression of neurotensin mRNA in the mitral cells of rat olfactory bulb during development

The transient expression of neurotensin mRNA in the mitral cells of the rat olfactory bulb was demonstrated during the perinatal period using non-radioactive in situ hybridization in which an alkaline phosphatase labelled oligodeoxynucleotide probe was used. The relative cellular content of neurotensin mRNA signal was measured by use of a microdensitometer. Neurotensin mRNA positive cells were observed in the primordium of mitral cells on embryonic day 14 and their mRNA content increased gradually up to the day of birth. During the first postnatal week, the strength of their neurotensin mRNA signal decreased dramatically, and continued to decrease until in the adult olfactory bulb neurotensin mRNA was no longer detectable. This decrease of the neurotensin mRNA content coincided with a parallel decrease of neurotensin immunoreactivity observed in the lateral olfactory tract.

Colchicine-induced expression of proneurotensin mRNA in rat striatum and hypothalamus

The effect of colchicine treatment on proneurotensin mRNA expression was examined using a sensitive non-radioactive in situ hybridization histochemistry technique with an enzyme-labelled antisense oligonucleotide probe. Intraventricular injection of colchicine rapidly induced strong neurotensin mRNA expression in a number of neurons in the dorsomedial part of the caudate putamen, and in the paraventricular, and arcuate nuclei while an induction of neurotensin mRNA was not observed in vehicle (saline)-injected animals. Neurotensin mRNA was not induced significantly in other periventricular areas such as the medial preoptic area or the lateral septum. These results indicate that colchicine can itself rapidly induce neurotensin mRNA expression and that this induction is specific to certain cell populations in the vicinity of the ventricles. These results demonstrate that colchicine should be used with caution in immunohistochemical studies demonstrating the normal distribution of peptide immunoreactivity or mRNA.

Developmental control over vitamin-D-induced calbindin gene expression during early differentiation of chicken jejunal enterocytes

In situ hybridization and immunocytochemical techniques have been used to examine the distribution of vitamin-D-induced calbindin mRNA and calbindin protein in enterocytes lining the crypts and villi of chicken small intestine. Basal villus enterocytes contained approximately twice as much calbindin but over three times as much calbindin mRNA compared to values found in basal crypt and upper villus enterocytes, all values being measured 2 days after vitamin D injection into D-deficient chickens. Virtually no calbindin mRNA was detected in tissues taken from control D-deficient birds. Direct proportionality found between calbindin mRNA and calbindin content in enterocytes of basal crypt, mid and upper villus suggests pre-translational control over calbindin synthesis. The implications of possible inefficient translation of calbindin mRNA in basal villus enterocytes are discussed. Present methods of analysis provide a novel way to study mechanisms controlling gene expression throughout the whole process of enterocyte differentiation.

The transient appearance of proneurotensin mRNA in the rat hypoglossal nucleus during development

Using a sensitive non-radioactive in situ hybridization technique utilizing alkaline phosphatase labelled oligodeoxynucleotide neurotensin probe we have observed the transient expression of neurotensin mRNA in the rat hypoglossal nucleus. Neurotensin mRNA containing cells were first observed on embryonic day 14 in the primodium of the hypoglossal nucleus. The intensity of the mRNA signal increased during the perinatal period until a maximum signal was observed at birth. After this time, the intensity of the neurotensin mRNA signal decreased dramatically during the first postnatal week. Subsequently the mRNA signal decreased gradually during maturation until only a very weak signal was detected in the adult. The visualization of neurotensin mRNA containing cells in the hypoglossal nucleus has not previously been reported. The transient expression of NT mRNA containing cells prior to birth may suggest that neurotensin has a role in the development of this nucleus.

A comparative analysis of neurons containing catecholamine-synthesizing enzymes and neuropeptide Y in the ventrolateral medulla of rats, guinea-pigs and cats

Neurons in the ventrolateral medulla oblongata of rats, guinea-pigs and cats that contain tyrosine hydroxylase, dopamine-beta-hydroxylase, phenylethanolamine-N-methyltransferase and neuropeptide Y have been demonstrated immunohistochemically in serial coronal sections of tissue taken from the level of the cervical spinal cord to the level of the facial nucleus. The anatomical distribution of these neurons has been described, quantified and reconstructed in three dimensions to compare the neuron populations between species. In all species, between 50 and 90% of immunoreactive neurons lay rostral to the level of the obex. There were no significant differences in the number and distribution of neurons containing catecholamine-synthesizing enzymes between control animals and those pretreated with colchicine, with two exceptions: all dopamine-beta-hydroxylase neurons were weakly immunoreactive without colchicine pretreatment in cats, and pretreatment with colchicine revealed a small rostral group of tyrosine hydroxylase-positive neurons in guinea-pigs. There were remarkable similarities in the rostrocaudal distributions of neurons containing tyrosine hydroxylase, dopamine-beta-hydroxylase and neuropeptide Y in relation to comparable anatomical landmarks across the species. However, the distributions of neurons containing tyrosine hydroxylase. Phenylethanolamine-N-methyltransferase-positive neurons, while densely stained in rats, were only faintly stained in cats and absent in guinea-pigs; the distribution of these neurons was similar to the distribution of neurons containing only tyrosine hydroxylase. The similarity of the distribution of neurons demonstrated using tyrosine hydroxylase, dopamine-beta-hydroxylase and neuropeptide Y immunohistochemistry implies that homologous catecholamine-containing neuron groups do exist in the ventrolateral medulla despite the variation in phenylethanolamine-N-methyltransferase between species. In contrast to the previous classification of neuron groups into A1 and C1 based on the presence or absence of this latter enzyme, the data suggest that a discrete group of tyrosine hydroxylase-immunoreactive neurons, which probably do not contain dopamine-beta-hydroxylase or neuropeptide Y, can be distinguished in the rostral ventrolateral medulla of all species. The absence of detectable dopamine-beta-hydroxylase in this group of neurons suggests that they may not synthesize either adrenaline or noradrenaline.

Four groups of tyrosine hydroxylase-immunoreactive neurons in the ventrolateral medulla of rats, guinea-pigs and cats identified on the basis of chemistry, topography and morphology

The data in the preceding paper [Halliday G. M. and McLachlan E. M. (1991) Neuroscience 43, 531-550] suggest that some neurons in the rostral ventrolateral medulla contain some catecholamine-synthesizing enzymes but may not produce catecholamines. The present study addresses this question directly by comparing the anatomical location and morphology of these neurons with those revealed by formaldehyde-induced fluorescence. Catecholamine-containing somata of rats and guinea-pigs have been demonstrated following FAGLU-perfusion in normal untreated animals, in animals pretreated with pargyline (a monoamine oxidase inhibitor), and in animals pretreated with colchicine (to block axoplasmic transport). The number and location of fluorescent somata in the ventrolateral medulla have been determined in serial coronal sections of tissue from the cervical spinal cord to the level of the facial nucleus. Catecholamine-fluorescent neurons at different levels of the ventrolateral medulla varied in their topography and sensitivity to pharmacological manipulation. However, the rostrocaudal distributions in rats and guinea-pigs were quantitatively remarkably similar implying that homologous groups of catecholamine-containing neurons exist. Comparison between these distributions and those of somata stained immunohistochemically for catecholamine-synthesizing enzymes and neuropeptide Y [Halliday G. M. and McLachlan E. M. (1991) Neuroscience 43, 531-550] revealed that the majority of fluorescent neurons in both species probably contain dopamine-beta-hydroxylase and neuropeptide Y as well as tyrosine hydroxylase. Those neurons lying just caudal to the facial nucleus immunoreactive for tyrosine hydroxylase and phenylethanolamine-N-methyltransferase but not dopamine-beta-hydroxylase and neuropeptide Y also lack catecholamine fluorescence. This rostral group of somata can be identified immunohistochemically in cats. The size and morphology of catecholamine-fluorescent neurons have been analysed in detail, and compared with the same features of the immunohistochemically stained neurons. Three morphological types of catecholamine-containing neurons could be distinguished in material prepared by both techniques from rats and guinea-pigs, and in immunohistochemical material from cats. Rostral tyrosine hydroxylase-positive neurons, which differed morphologically from these three types, were present in all three species. On the basis of anatomical location, neuronal morphology and chemical characteristics, four groups of tyrosine hydroxylase-immunoreactive neurons have been identified in the ventrolateral medulla of rats, guinea-pigs and cats. Only the caudal three of these four groups appear to synthesize catecholamine, probably noradrenaline. From published data it seems likely that these four groups of tyrosine hydroxylase-positive neurons have distinct projections and functions related to cardiovascular and respiratory control.

Co-expression of cholecystokinin mRNA and tyrosine hydroxylase mRNA in populations of rat substantia nigra cells; a study using a combined radioactive and non-radioactive in situ hybridization procedure

Improvements in the sensitivity of non-radioactive in situ hybridization histochemistry methods for detection of mRNA now make it feasible to combine the use of non-radioactive and radioactive in situ methods to visualize two mRNAs on the same tissue section. The method reported here allows the simultaneous detection of two mRNAs in one cell and therefore is ideally suited to the studies of co-expression. Here we demonstrate the co-expression of tyrosine hydroxylase (TH) mRNA and cholecystokinin (CCK) mRNA in the ventral mesencephalic dopaminergic neurones of the rat. The distribution of dopaminergic neurones containing both TH and CCK transcripts suggests, on the basis of earlier anatomical studies that these CCK/TH-containing doubled-labelled cells project mainly to the striatal matrix. Dopamine neurones believed to project to the patch compartment did not contain CCK mRNA.

Recent progress in the use of the technique of non-radioactive in situ hybridization histochemistry: new tools for molecular neurobiology

Recent developments in DNA and oligonucleotide chemistry have made it possible to modify nucleotides and link quite complex molecules to the modified nucleotides. These advancements in DNA chemistry provide a number of possibilities for labelling oligonucleotide probes for DNA or RNA detection by non-radioactive methods. Over the years a number of non-radioactive detection systems for mRNA or chromosomal DNA have been developed. As reporter molecules, biotin, acetylaminofluorene, dinitrophenol, digoxigenin, sulfonized nucleotides, and mercury have been used and may be detected with a variety of high-affinity detectors, e.g. avidin (in the case of biotin) or antibodies specific to digoxigenin. These various 'indirect methods' of detection have used a number of chemical amplification procedures in attempts to improve their sensitivity. However, the sensitivity of these methods is often less than that of conventional radioactive methods. A sensitive non-radioactive technique would have a number of advantages over the complex and specialized radioactive in situ hybridization methods. In our laboratory we have recently found that simple enzyme-labelled probes provide excellent sensitivity (equivalent to that found with radioactive methods) and substantially improved cellular resolution. In this article, we describe the principle of the method and illustrate some applications of this novel non-radioactive in situ method.