Cytoarchitecture of the formatio reticularis of the brain stem of the dolphin]

In the present study some qualitative and quantitative features of the reticular formation of the medulla oblongata, pons and midbrain have been elucidated by cytoarchitectonic methods in the dolphin (Tursiops truncatus). The studies have demonstrated that similar to land mammalia, the dolphin has a reticular formation made up of spatially open cell groups lying in the deepest parts of the brain stem. Cytoarchitectonically the component parts of the reticular formation show a number of peculiarities enabling us to distinguish separate nuclei. In the dolphin peculiar architectonics have been observed in the nucleus gigantocellularis medullae oblongatae, nucleus papillioformis or the nucleus reticularis tegmenti Bechterewi and the nucleus centralis superior medialis seu ventralis. Fairly poor in cells are the nucleus centralis caudalis pontis and the nucleus centralis oralis pontis. We failed to single out as autonomous nuclei cell groups corresponding to the nucleus funiculi lateralis and the nucleus paratrochlearis of the land mammalia. The size and density of cells in nuclei have a number of peculiarities. The analysis of the ratios of the brainstem volume to that of reticular structures has shown them to be the smallest in the dolphin as compared with land mammals. The smaller share held by the brain-stem reticular formation and its cytoarchitectonic features can be associated with the functional properties resulting from the greater specialization of some of brain-stem systems (e.g. auditory, vestibular, extrapyramidal etc.) in the dolphin in comparison with land mammals.     

ENZYME HISTOCHEMISTRY OF THE RAT HYPOTHALAMUS DURING EARLY DEVELOPMENT

—The distribution, localization and changes in intensity of enzymes in major metabolic pathways of brain metabolism during the first 16 days postnatal life of the rat anterior hypothalamus are reported. Thiamine pyrophosphatase, acid phosphatase and 5′-nucleotidase showed rapid increases in activity between 0 and 5 days whilst AChE, Mg²⁺–ATPase and monoamine oxidase exhibited little or no activity before 3 days. Most enzymes showed a moderate intensity at 16 days in all nuclei whilst for some enzymes of phosphate metabolism the reaction was strong. The precocity of some enzymes particularly monoamine oxidase, lactate dehydrogenase and NADH₂-diaphorase seen in other regions at birth, was not apparent in hypothalamic nuclei. Comparisons are made with other regions of the brain and the findings discussed in relation to function.     

Ontogenesis of serotoninergic nuclei in the rat stem

The development of central serotoninergic neurons has been investigated with immunohistochemical techniques using the indirect peroxidase-antiperoxidase (PAP) method in 16-and 19-day-old rat embryos, in 1, 10 and 26 days old young and in adult animals. Immunoreactive neurons were present on embryonic day 16 in the subventricular area of the brain stem. First the countour of nucleus raphe dorsalis became distinct in the subventricular cell mass of the lower midbrain. In the ventral part of the tegmentum, cells were grouped along the midline in bilateral columns from which the nucleus centralis superior, the nucleus raphe pontis and the nuclei pontis differentiated. These nuclei were well defined in the newborn on either side of the midline, and the nucleus centralis superior and nucleus raphe pontis were fused on the midline in 10-day old rat. In the ventral part of the pons and medulla, a bilateral cell mass was also found along the midline. A number of immunoreactive cells moving off the midline constituted the nucleus raphe magnus which was formed on 19. embryonis day. Another contingent of immunoreactive cells remained at the midline and formed the nuclei raphe obscurus and pallidus. In newborn rat, these nuclei were well separated from the nucleus raphe magnus. They would later fuse on the midline, whereas the nucleus raphe magnus would remain a bilateral structure.     

Localization of alcohol and aldehyde dehydrogenases in the human spinal cord and brain

Location of aldehyde dehydrogenase (AldDG) and alcohol dehydrogenase (ADG) has been studied in 38 nuclei of the human brain. Neurons with a high AldDG activity predominate in the nucleus of the descending root of the trigeminal nerve, motor nuclei of the craniocerebral nerves (trigeminal, facial, abducent, blocking, sublingual, supraspinal), motor nuclei of the anterior horns of the spinal cord, lateral vestibular nucleus, posterior nucleus of the vagus nerve, pedunculopontine nucleus, superior salivary nucleus, and in the nucleus of Westphal-Edinger-Jacobovich. Neurons with a moderate AldDG activity predominate in the superior olivary complex, nucleus of the lateral loop, parabrachial (pigmented) mesencephalic nucleus and reticular lateral nucleus. A low enzymatic activity is specific for neurons of the pons proper, inferior vestibular nucleus, trapezoid body of the inferior olivary complex, dentate nucleus of the cerebellum, reticular nucleus of the tegmen of Bekhterev's pons and posterior nucleus of Gudden's suture. A high ADG activity is revealed in piriform neurons of the cerebellar cortex. Functional importance of ADG and AldDG activity in the brain is discussed.     

Histochemical study on the distribution of some enzyme activities in the vagal and facial lobes of the goldfish, Carassius auratus.

The histochemical localization of six enzymic activities (acetylcholinesterase, pseudocholinesterase, monoamine oxidase, lactate dehydrogenase, succinate dehydrogenase and glucose-6-phosphate dehydrogenase) has been studied in the vagal and facial lobes of the goldfish, Carassius auratus. These encephalic centers are hypertrophic in Cyprinidae, corresponding to the dominance of gustatory function. Acetylcholinesterase shows a complex laminar distribution in the vagal lobes and a peculiar cellular localization in vagal motor neurons. Monoamine oxidase activity is mainly evident in fibrous tracts coming to or leaving from the lobes. Among oxidative enzymes examined, lactate dehydrogenase and succinate dehydrogenase exhibit distribution patterns respectively similar to those observed for acetylcholinesterase and monoamine oxidase. Some features on enzymes distribution in the gustatory centers of Carassius are in agreement with the enzymatic patterns well known in higher vertebrates.     

Preliminary observations on the distribution of serotoninergic and cerebellar-projecting neurons of the raphe nuclei of the brain stem

Cerebellar projection from raphe nuclei were investigated in rabbit by using retrograde transport of HRP and serotonergic mapping by direct fluorescence. A close topographical correlation between the HRP labeled cells and the serotonergic neurons has been observed. The current study has demonstrated the presence of paramedian and lateral cells whose cytoarchitecture is identical with midline cells of many raphe nuclei. All of the raphe nuclei except the linear nuclei, contained serotonergic perikarya. The midline and paramedian portions of the nuclei raphe obscurus, pallidus, magnus, and nucleus raphe dorsalis contained principally serotonergic neurons; the lateral portions of the medullary raphe nuclei and the nuclei raphe pontis and centralis superior contained a significant number of non-fluorescent cells. In these regions, fluorescent sections often revealed the size, shape, and orientation of the perikarya and dendrites; further verification of cytoarchitectural characteristics of these neurons depended heavily upon these clues.     

Brain Monoamines and Optokinetic Performances in Pigmented and Albino Rats

The aim of this study was two-fold: 1) To provide in DA-HAN rats the basic brain monoamine data useful for later investigations of the neurochemical effects of sensory alterations and 2) to assess whether there is a relationship between the monoaminergic pattern in medial vestibular nuclei and optokinetic performances. We comparatively studied the regional brain monoamine distribution and the optokinetic performances in pigmented DA-HAN and albino Sprague-Dawley rats. As expected, the optokinetic responses and vestibulo-ocular reflex gain were by far more efficient in DA-HAN rats. Norepinephrine (NE), dopamine (DA), serotonin (5-HT) and their metabolites were determined in retina, brainstem nuclei and dopaminergic areas. DA-HAN rats exhibited an increased noradrenergic activity in the medial vestibular nuclei, locus cœruleus and anteroventral cochlear nucleus, an extended decrease of serotonergic activity in brainstem nuclei and increased DA stores with a reduced dopaminergic activity in most dopaminergic areas. These data confirm and extend the general findings that biochemical data obtained in one strain cannot be extrapolated to another strain. The possible role of the morphological neuronal abnormalities and functional impairment induced by albinism has been discussed especially in medial vestibular nucleus, cochlear nuclei and retina. Alternatively, behavioral factors may also explain some of the observed neurochemical differences.     

Release of endogenous serotonin from "encéphale isolé" cats. II - Correlations with raphe neuronal activity and sleep and wakefulness

The discharge pattern of single neurons localized in raphe nuclei dorsalis and centralis superior was recorded in "encéphale isolé" cats, during sleep and wakefulness episodes occurring spontaneously or triggered by vago-aortic stimulation. In both nuclei, a similar and progressive decrease in frequency of discharges is generally observed during shifts between wakefulness, the transitional phase of sleep and paradoxical sleep. In addition, the release of serotonin (5-HT) has been studied with push-pull cannulae (caudate nucleus level) and superfusion techniques (cortical associative area) in relation to the different stages of consciousness. The results showed a clear diminution of endogenous 5-HT released during spontaneously occurring or vago-aortic triggered sleep.     

Histochemical distribution of acetylcholinesterase and simple esterases in the brain of squirrel monkey (Saimiri sciureus)

Summary The distribution of acetylcholinesterase (AChE) and simple esterases (SE) has been investigated in 15 thick fresh frozen sections of the squirrel monkey brain. Simple esterases are cellular enzymes, found in locations similar to those of acid phosphatase (AC), although not as abundantly. The neuropil in most of the nuclei of the brain shows stronger SE activity compared to the AChE reaction. The AChE activity is strong in nucleus caudatus and putamen, and appreciable quantities of this enzyme are found in nucleus fasciculus diagonalis band of Broca, habenular complex, nucleus interpeduncularis, cranial nerve nuclei, gray layers of colliculus superior, griseum pontis, nuclei olivaris inferior, cuneatus, gracilis, etc. The nucleus interpeduncularis has proved very interesting histochemically because it is rich in AChE and SE, as well as acid phosphatase, monoamine oxidase and lactic dehydrogenase. In the area postrema, the neurons give stronger SE activity than the parenchymal cells, while the AChE activity in both types of cells is similar. The molecular layer of cerebellum is stronger in AChE compared to SE, whereas the Purkinje cells and granule cells are strong in SE and show only negligible AChE activity. The lining cells of the choroid plexus, in addition to the ependymal cells, demonstrate a negligible to mild AChE reaction in comparison to moderately strong simple esterase activity. The significance of these observations has been discussed.This work has been carried out with the aid of Grant No. 00165 from the Animal Resources Branch, National Institute of Health and a grant (NGR-11-001-016) from The National Aeronautics and Space Administration. Thanks are due to Mrs. M. J. Nimnicht and Miss M. E. Rogero for their technical help.     

Biochemical Mapping of Peptidyl-Glycine α-Amidation Activity in the Rat CNS

Peptidyl-glycine alpha-amidation enzyme activity has been measured in 36 nuclei or areas in the rat CNS and pituitary using D-Tyr-Phe-Gly as the substrate. The distribution of this enzyme is highly uneven, with highest activity levels (greater than 30 pmol/mg of protein/h) in hypothalamic nuclei, substantia grisea centralis, and nucleus ruber; moderate activity levels (10-30 pmol/mg of protein/h) in globus pallidus, septum, midbrain, pons, medulla oblongata, and cervical spinal cord; and low activity levels (1-10 pmol/mg of protein/h) in other telencephalic and thalamic structures. Almost no alpha-amidation activity (less than 0.5 pmol/mg of protein/h) was detected in cerebellar cortex. The Km values in several brain regions are of the same order.     

Histochemical studies on the morphology of the golgi apparatus and on the enzymes of carbohydrate metabolism in various nuclei of the rat mesencephalon

Summary Detailed histochemical studies have been conducted on the distribution of various enzymes such as thiamine pyrophosphatase, α-glucan phosphorylase, hexokinase, glucose-6-phosphate dehydrogenase, aldolase, lactate dehydrogenase and succinate dehydrogenase in various components of the nucleusEdinger-Westphali, nucleus n. oculomotorii, nucleus ruber and nucleus niger of healthy adult male Wistar strain rats. The thiamine pyrophosphatase reaction showed the morphological patterns of the Golgi apparatus characteristic for each nucleus. The Golgi apparatus was well developed in the nucleusEdinger-Westphali, composing a network of highly fenestrated plates in the nucleus n. oculomotorii and nucleus ruber, and a simple network in the nucleus niger. These results indicate that the former three nuclei need a rich energy supply and argue against the possibility that the four nuclei have a secretory role. The neurons of the nucleusEdinger-Westphali may derive their energy mainly from glucose of the circulating blood, but glial cells may serve as energy donators to the neurons in the pars compacta of the nucleus niger, and the neurons of the other nuclei may derive energy from both sources. These conclusions are consistent with the morphological patterns of the Golgi apparatus. It is suggested that the neurons of the nucleusEdinger-Westphali, nucleus n. oculomotorii, nucleus ruber and of the pars lateralis of the nucleus niger may be equipped almost equally with the Embden-Meyerhof pathway and with the hexose monophosphate shunt. But, the hexose monophosphate shunt is dominant in the pars compacta of the nucleus niger. It is also suggested that the pattern of distribution of succinate dehydrogenase may parallel that of lactate dehydrogenase. The nucleus n. oculomotorii, and nucleus ruber have a higher level of oxidative metabolism than the nucleusEdinger-Westphali and the nucleus niger. The nucleusEdinger-Westphali may be representative of autonomic nuclei with low oxidative metabolism whereas the nucleus n. oculomotorii may represent motor nuclei with high oxidative metabolism. Predominance of hexose monophosphate shunt, intense hexokinase reaction around the neurons, and weak activity of succinate dehydrogenase indicate that the pars compacta of the nucleus niger belongs to the category of “exceptional nuclei”.     

Histochemical correlates of changes in the primate brain associated with varying environmental light conditions

Summary Squirrel monkeys were kept in 3 groups of 2 each maintained on one of the following light schedules: 12-12 hour light/dark, continuous light, and continuous dark. The animals (one from each group) were sacrificed after a period of 81/2 and 111/2 months and histochemical techniques for some oxidative and hydrolytic enzymes were employed in cryostat section of the brains of these animals. Lactic dehydrogenase (LDH), an enzyme involved in glycolytic metabolism, showed enhanced enzyme activity compared to the other two groups in a number of areas (e.g., corpus geniculatum laterale, nucleus n. oculomotorii and trochlearis, nucleus interpeduncularis, locus coeruleus, reticular formation, cerebellar cortex, etc.). LDH showed more pronounced enzyme changes in the neuropil, whereas the neurons showed somewhat more enhanced activity in the succinic dehydrogenase preparations. Butyrylcholinesterase and simple esterase, however, did not show any difference in enzyme reaction in the three groups under study. Similarly, certain areas (e.g., colliculus superior, griseum pontis, central gray, vestibular and cochlear nuclei, choroid plexus and ependyma) did not show any enzyme difference in all the eight enzyme preparations. The epiphysis showed a decrease in monoamine oxidase activity in the constant light-exposed animals compared to the other two groups. The significance of these findings is discussed.     

Neuropeptides and monoamines in the carp (Cyprinus carpio) pretectum: An immunocytochemical study

The distribution of neurotensin, neurokinin A, dynorphin A, galanin, somatostatin-28 (1-12), neuropeptide Y, vasoactive intestinal polypeptide, gastrin-releasing peptide, gamma-melanocyte stimulating hormone, alpha-neo-endorphin, angiotensin H, cholecystokinin-8, serotonin and tyrosine hydroxylase has been studied in the pretectal nuclei of the Cyprinus carpio: nuclei pretectalis superficialis parvicellularis and magnocellularis, pretectalis centralis, pretectalis, and pretectalis periventricularis dorsalis and ventralis using an indirect immunoperoxidase technique. We have found neuropeptide Y and serotonin immunoreactive fibres in all pretectal nuclei, whereas gastrin-releasing peptide immunoreactive fibres were visualized in the nuclei pretectalis superficialis parvicellularis and magnocellularis, pretectalis centralis. pretectalis and pretectalis periventricularis dorsalis; neurokinin A immunoreactive fibres in the nuclei pretectalis superficialis parvicellularis and magnocellularis and pretectalis periventricularis dorsalis; galanin immunoreactive fibres in the nuclei pretectalis superficialis parvicellularis, pretectalis centralis and pretectalis periventricularis dorsalis; and neurotensin immunoreactive fibres in the nucleus pretectalis periventricularis dorsalis. Additionally, immunoreactive cell bodies containing neuropeptide Y were observed in the nuclei pretectalis superficialis parvicellularis and pretectalis periventricularis dorsalis, and serotonin and tyrosine hydroxylase cell bodies were found in the nuclei pretectalis periventricularis dorsalis and ventralis respectively. The presence of the neuroactive substances found in the carp pretectal nuclei suggest that they might be involved in the regulation of certain functions within the visual system.     

Effect of glutaraldehyde fixation on the localization of various oxidative and hydrolytic enzymes in the brain of rhesus monkey, Macaca mulatta

Synopsis Histochemical investigations have been made on the localization of certain oxidative and hydrolytic enzymes in the different areas of rhesus monkey brain using unfixed, freshfrozen tissue and 3% glutaraldehyde-fixed material. After glutaraldehyde fixation, the oxidative enzymes lose most of their activity normally demonstrable in the fresh-frozen section. The hydrolytic enzymes are somewhat resistant to fixation but also lose about half of the enzyme activity observed after no fixing procedure. The glycogen is better preserved in the glutaraldehyde-fixed material compared to fresh-frozen or even formaldehyde-fixed tissue. The significance of these observations is discussed in relation to glutaraldehyde as a fixative of choice in electron histochemistry.List of abbreviations used in the Figures ALH area lateralis hypothalami - APH area posterior hypothalami - AS aquaeductus Sylvii - ATN anterior thalamic nuclei - BC brachium conjunctivum - CC corpus callosum - CD nucleus caudatus - CI capsula interna - CIS cortex insularis - CM centrum medianum thalami - COR corona radiata - CP commissura posterior - CSR colliculus superior - EM eminentia medialis - F fornix - GC substantia grisea centralis - GLM corpus geniculatum laterale, magnocellular part - GLP corpus geniculatum laterale, parvocellular part - GP globus pallidus - LD nucleus lateralis dorsalis thalami - LME lamina medullaris externa thalami - LMI lamina medullaris interna thalami - LP nucleus lateralis posterior thalami - MD nucleus medialis dorsalis thalami - ML nucleus lateralis corpus mammillaris - MM nucleus medialis corpus mammillaris - NC nucleus centralis thalami - NCI nucleus colliculi inferioris - NLL nucleus lemnisci lateralis - NR nucleus ruber - NSTH nucleus subthalamicus - N III nervus oculomotorius - PC nucleus paracentralis thalami - PCR pedunculus cerebri - PUT Putamen - PV nucleus paraventricularis hypothalami - R nucleus reticularis thalami - RU nucleus reuniens thalami - SM stria medullaris thalami - SMH nucleus supramammillaris hypothalami - SMT nucleus submedius thalami - SN substantia nigra - TO tractus opticus - VL nucleus ventralis lateralis thalami - VP nucleus ventralis posterior thalami - ZI zona incerta - II ventriculus lateralis - III ventriculus tertius     

Calcitonin gene-related peptide: detailed immunohistochemical distribution in the central nervous system

With the use of an antiserum generated in rabbits against synthetic human calcitonin gene-related peptide (CGRP) the distribution of CGRP-like immunoreactive cell bodies and nerve fibers was studied in the rat central nervous system. A detailed stereotaxic atlas of CGRP-like neurons was prepared. CGRP-like immunoreactivity was widely distributed in the rat central nervous system. CGRP positive cell bodies were observed in the preoptic area and hypothalamus (medial preoptic, periventricular, anterior hypothalamic nuclei, perifornical area, medial forebrain bundle), premamillary nucleus, amygdala medialis, hippocampus and dentate gyrus, central gray and the ventromedial nucleus of the thalamus. In the midbrain a large cluster of cells was contained in the peripeduncular area ventral to the medial geniculate body. In the hindbrain cholinergic motor nuclei (III, IV, V, VI, VII XII) contained CGRP-immunoreactivity. Cell bodies were also observed in the ventral tegmental nucleus, the parabrachial nuclei, superior olive and nucleus ambiguus. The ventral horn cells of the spinal cord, the trigeminal and dorsal root ganglia also contained CGRP-immunoreactivity. Dense accumulations of fibers were observed in the amydala centralis, caudal portion of the caudate putamen, sensory trigeminal area, substantia gelatinosa, dorsal horn of the spinal cord (laminae I and II). Other areas containing CGRP-immunoreactive fibers are the septal area, nucleus of the stria terminalis, preoptic and hypothalamic nuclei (e.g., medial preoptic, periventricular, dorsomedial, median eminence), medial forebrain bundle, central gray, medial geniculate body, peripeduncular area, interpeduncular nucleus, cochlear nucleus, parabrachial nuclei, superior olive, nucleus tractus solitarii, and in the confines of clusters of cell bodies. Some fibers were also noted in the anterior and posterior pituitary and the sensory ganglia. As with other newly described brain neuropeptides it can only be conjectured that CGRP has a neuroregulatory action on a variety of functions throughout the brain and spinal cord.     

Histochemical studies on the morphology of the Golgi apparatus and on the enzymes of carbohydrate metabolism in various nuclei of the rat mesencephalon.

Detailed histochemical studies have been conducted on the distribution of various enzymes such as thiamine pyrophosphatase, alpha-glucan phosphorylase, hexokinase, glucose-6-phosphate dehydrogenase, aldolase, lactate dehydrogenase and succinate dehydrogenase in various components of the nucleus Edinger-Westphali, nucleus n. oculomotorii, nucleus ruber and nucleus niger of healthy adult male Wistar strain rats. The thiamine pyrophosphatase reaction showed the morphological patterns of the Golgi apparatus characteristic for each nucleus. The Golgi apparatus was well developed in the nucleus Edinger-Westphali, composing a network of highly fenestrated plates in the nucleus n. oculomotorii and nucleus ruber, and a simple network in the nucleus niger. These results indicate that the former three nuclei need a rich energy supply and argue against the possibility that the four nuclei have a secretory role. The neurons of the nucleus Edinger-Westphali may derive their energy mainly from glucose of the circulating blood, but glial cells may serve as energy donators to the neurons in the pars compacta of the nucleus niger, and the neurons of the other nuclei may derive energy from both sources. These conclusions are consistent with the morphological patterns of the Golgi apparatus.     

DIFFERENTIATION OF THE RETINA AND RETINAL LACTATE DEHYDROGENASE ISOENZYMES IN THE TELEOST, ORYZIAS LATIPES

The activity of lactate dehydrogenase in the teleost Oryzias latipes , shows a gradual increase during embryonic development, followed by an abrupt rise on hatching, which coincides with the appearance of the retinal isoenzymes. By the time of hatching, the retina has differentiated, and no significant change is observed in the retinal structure until 2 days after hatching. It was assumed that metabolic changes which occur on hatching may trigger the synthesis of retinal lactate dehydrogenase isoenzymes.     

SUBCELLULAR FRACTIONS OF NORMAL HUMAN SUBSTANTIA NIGRA AND CAUDATE NUCLEUS; A STUDY OF THEIR MORPHOLOGY AND SOME ENZYMES INCLUDING GLUTAMATE DECARBOXYLASE AND CHOLINE ACETYLTRANSFERASE

Abstract— Subcellular fractions have been prepared from normal human caudate nucleus and substantia nigra by a standard fractionation technique and the fractions assayed for the following enzymes, which were studied because of their relevance to neurotransmission and pathological change: glutamate decarboxylase (EC 4.1.1.15), choline acetyltransferase (EC 2.3.1.6), acetylcholinesterase (EC 3.1.1.7), acid phosphatase (EC 3.1.3.2) and succinate dehydrogenase (EC 1.3.99.1). The distribution of these enzymes was assessed in relation to the morphology of the fractions as observed by electron microscopy. As with preparations from animal cerebral cortex, acetylcholinesterase and acid phosphatase were found mainly in fractions known to contain plasma membranes, synaptosomal membranes and microsomes. The levels of choline acetyltransferase in fractions from the substantia nigra were too low to measure but, in the caudate nucleus, the enzyme was concentrated in the crude mitochondrial fraction (P₂), especially in the P₂B and P₂C subfractions. A high proportion of the glutamate decarboxylase activity was present in the P₂ fractions of the substantia nigra and caudate nucleus and, although the synaptosomal (P₂B) fraction contained the enzyme, significant amounts were found in the mitochondrial (P₂C) fraction. This may have been due to some contamination of the mitochondria with small synaptosomes. Succinate dehydrogenase showed a conventional bimodal distribution between synaptosomes and mitochondria with a concentration in the latter.     

Presence of elongation factor 1 in nuclei and nucleoli of rat liver

Purified rat liver nuclei contain 11% of the total cellular translation elongation factor 1 activity. Ninety percent of the nuclear EF-1 activity was in the nucleoplasm and 10% was nucleolar. The specific activities of the nuclear and nucleolar EF-1 were 2 to 3 times higher, respectively, than EF-1 activity of the liver homogenate. The presence of EF-1 in the purified nuclei did not result from cytoplasmic contamination since only 0.14% of the cellular lactate dehydrogenase was present in the nuclei. These results provide the first evidence for the presence in the cell nucleus of translational factors of protein synthesis.     

Effect of reserpine on 5-hydroxytryptophan (5HTP)-immunoreactive neurons in the rat brain

By immunohistochemistry of rat brain in conjunction with a specific antibody against 5-hydroxytryptophan (5HTP), we examined immunoreactivity to 5HTP in neurons, from which 5-hydroxytryptamine (5HT; serotonin) was depleted by reserpine treatment. The distribution patterns of 5HTP-positive neurons overlapped with those of 5HT neurons. Treatment with reserpine (5 mg/kg, 90 min before death) caused a complete suppression of 5HT-positive staining, but 5HTP-immunostaining remained in perikarya of the nuclei raphe dorsalis, centralis superior and obscurus. Treatment with reserpine (25 mg/kg, 90 min before death) suppressed the 5HTP-immunoreaction in certain perikarya (e.g. of the nucleus raphe dorsalis) and fibres; however, 5HTP-immunostaining remained in perikarya of the nuclei centralis superior and raphe obscurus. This suggests that these neurons synthesize more 5HTP by a process which appears to be stimulated by reserpine.