The incorporation of radioactive fatty acids into the phospholipids of nerve-cell-body membranes in vivo. Evidence for highly labelled neuronal nuclei

1. Nerve cell bodies were isolated in bulk from cerebral cortices of 15 day-old rabbits after intrathecal injections of [³H]plamitate, [³H]oleate or [³H]arachidonate and [¹⁴C]glycerol. 2. Nuclear, microsomal and two mitochondrial fractions were isolated from homogenates of the radioactively labelled nerve cell bodies by using differential and discontinuous-gradient centrifugation. 3. After 7.5min in vivo, a high percentage (>80%) of the total ³H-labelled fatty acid radioactivity was found in the membrane fractions of the nerve cell bodies, whereas after 60min in vivo 50% of the total [¹⁴C]glycerol radioactivity was found in the high-speed supernatant. 4. The specific radioactivities of phosphatidylcholine, phosphatidylethanolamine and phosphatidylinositol, and the radioactivity in neutral lipid and non-esterified fatty acid fractions were determined in the four subfractions, as were the distributions of several marker enzymes and nucleates. 5. With respect of ³H-labelled fatty acid, the phospholipids of the nuclear fraction had the highest specific radioactivities of the four subfractions. However, for [¹⁴C]glycerol labelling, generally the ¹⁴C specific radioactivities for individual phospholipids were comparable in the four subfractions. This latter observation suggests transport of phospholipids synthesized de novo between membranes of the nerve cell body. 6. Double-labelling experiments demonstrated that individual phospholipids and the combined neutral lipids of the nuclear fraction had higher labelling ratios of ³H-labelled fatty acid/[¹⁴C]glycerol than did the corresponding lipids of the microsomal or mitochondrial fractions. 7. On the basis of the labelling results and the marker studies, it is proposed that it is indeed the nuclei of the nuclear fraction that have these lipids highly labelled with ³H-labelled fatty acid, and the existence of nuclear acyl transferases that are responsible for this fatty acid incorporation is suggested.     

FINE STRUCTURAL LOCALIZATION OF CHOLESTEROL-1,2-3H IN DEGENERATING AND REGENERATING MOUSE SCIATIC NERVE

The localization of ³H-labeled cholesterol in nerves undergoing degeneration and regeneration was studied by radioautography at the electron microscope level. Two types of experiments were carried out: (a) Cholesterol-1,2-³H was injected intraperitoneally into suckling mice. 5 wk later, Wallerian degeneration was induced in the middle branch of the sciatic nerve, carefully preserving the collateral branches. The animals were then sacrificed at various times after the operation. During degeneration, radioactivity was found over myelin debris and fat droplets. In early stages of regeneration, radioactivity was found in myelin debris and regenerating myelin sheaths. Afterwards, radioactivity was found predominantly over the regenerated myelin sheaths. Radioactivity was also associated with the myelin sheaths of the unaltered fibers, (b) Wallerian degeneration was induced in the middle branch of the sciatic nerves of an adult mouse, preserving the collateral branches. Cholesterol-1,2-³H was injected 24 and 48 hr after the operation and the animal was sacrificed 6 wk later. Radioactivity was found in the myelin sheaths of the regenerated and unaltered fibers. The results from these experiments indicate that: (a) exogenous cholesterol incorporated into peripheral nerve during myelination remains within the nerve when it undergoes degeneration. Such cholesterol is kept in the myelin debris as an exchangeable pool from which it is reutilized for the formation of the newly regenerating fibers, especially myelin. (b) exogenous cholesterol incorporated into the nerves at the time that degeneration is beginning is also used in the formation of new myelin sheaths during regeneration, (c) mature myelin maintains its ability to incorporate cholesterol.     

An analysis of the interactions between sympathetic nerve fibers and smooth muscle cells in tissue culture

The interactions between sympathetic nerve fibers and smooth muscle cells and fibroblasts from the newborn guinea pig vas deferens were studied in tissue culture with phase contrast microscopy, time-lapse microcinematography, catecholamine fluorescence histochemistry and scanning and transmission electron microscopy. The amount of sympathetic nerve fiber growth, its catecholamine fluorescence reaction and the size of the nerve cell bodies and their nuclei all increased in the presence of vas deferens tissue. Specific growth of nerve fibers to large clumps of vas deferens tissue was seen from distances of up to 2 mm. In contrast, no specific growth from a distance occurred to single cells or small groups of cells. However, random contact with a muscle cell often led to close, extensive, and long-lasting associations. Contact with fibroblasts was always transitory.The rate of sympathetic nerve fiber growth over individual muscle cells was faster than over fibroblasts, which, in turn, was faster than over the collagen-coated surface of the coverslip. Palpation of a muscle cell by a nerve fiber growth cone increased the rate of spontaneous contraction of the muscle cell, the extent of the increase being dependent on the number of nerve fibers involved. Multiple innervation of a smooth muscle cell occurred if nerve fibers reached the cell at about the same time, but not if there was a close association already established. These results are discussed in relation to possible interactions of sympathetic nerve fibers with smooth muscle cells in vivo.     

Studies on uptake of intraventricularly administered tritiated noradrenaline and 5-hydroxytryptamine with combined fluorescence histochemical and autoradiographic techniques

Summary Tritiated noradrenaline (NA) and 5-hydroxytryptamine (5-HT) (1.5–30 C) have been injected intraventricularly into normal or reserpine-nialamide pretreated rats 1/2 to 2 hours before the killing. Various parts of the brains were freeze-dried, reacted with formaldehyde gas and embedded in paraffin or Araldite. Before application of the stripping film emulsion many sections were photographed in the fluorescence microscope in order to perform a combined histochemical and autoradiographic study of the monoamine neurons. By such an approach it was possible to demonstrate 1. that the accumulation of radioactivity in cell bodies after ³H-NA and ³H-5-HT injection is localized to catecholamine (CA) and 5-HT cell bodies respectively; 2. that injected ³H-NA and ³H-5-HT in the doses used relatively selectively are taken up into the NA and 5-HT nerve terminals respectively, since the distribution of grains in the sections follow that of the fluorescent terminals; 3. that the accumulation of silver grains only reaches the zone (200–400 ) close to the ventricles and the ventral part of the subarachnoidal space. By grain counting it was possible to estimate that the degree of concentration of radioactivity in the monoamine cell bodies was up to 4 times that in the immediate surroundings. — The Araldite sections consistently gave a better resolution in the autoradiographic picture than the paraffin sections. It is postulated that freeze-drying and plastic embedding for autoradiography will be a valuable method for the cellular demonstration of certain biogenic amines which are not easily demonstrated by the histochemical fluorescence method and of other biologically active water-soluble compounds, since diffusion will be restricted to a minimum.This work has been supported by grants from the Medical Research Council (14X-715-04A, B69-14X-530-04) and by grants from M. Bergvalls Stiftelse and E. och O. Ericssons Stiftelse.     

Transport axonal de protéines marquées dans le motoneurone géant de l'écrevisse

Isolated abdomens of crayfish were maintained in vitro and lysine (-³H) was intracellularly injected into one of the giant motoneuron of the ventral cord ganglia by iontophoresis. Membrane potentials ranging between -60 and -70 mV were recorded all along the experiment. Light microscope radioautographs showed an intense reaction over the injected nerve cell body and the initial segment of its axon; most of the surrounding tissues were free of radioactivity when the diffusion of the injected lysine (-³H) was prevented by adding cold lysine to the bathing medium. Some exchange of label was however noted with electrically coupled axons and glial sheaths. No radioactive protein could be traced in the numerous nerve endings of the neuromuscular junction. Nonetheless when a ligature was placed on the nerve root, the amount of accumulated radioactivity was increased from 3 to 6 h. in the axon of the injected motoneuron only. Electron microscope radioautographs indicate that the fast transported proteins were mainly associated with the endoplasmic reticulum and the axonal membrane. It is concluded that the visualization of the nerve endings was limited by the dispersion of the label into the numerous thin terminal branchs of the axon; however the combination of iontophoretic injection and radioautography permits to trace endogenous protein along the axon and to study molecular exchanges with other cells.     

Long-term acrylamide intoxication induces atrophy of dorsal root ganglion A-cells and of myelinated sensory axons

We have examined the effects of acrylamide on primary sensory nerve cell bodies and their myelinated axons in chronic acrylamide intoxication. The numbers and sizes of dorsal root ganglion cell bodies (L5) and myelinated nerve fibers were estimated with sterelogical techniques in severely disabled rats which had been treated with 33.3 mg/kg acrylamide twice a week for 7.5 weeks. There was no loss of dorsal root ganglion cells or myelinated nerve fibers in the roots, the sciatic nerve, sural nerve, and a tibial nerve branch. The mean perikaryal volume of A-cells was reduced by 20% (2P < 0.001) from 50000 μm³ in controls (CV = 0.13) to 40000 μm³ (0.12), whereas B-cell volume was unchanged. All size-frequency distribution curves of myelinated axon area of peripheral nerves and sensory roots were shifted to the left towards smaller values in rats exposed to acrylamide. In the L5 sensory root 3 mm from the ganglion, there was a significant reduction of mean cross sectional area of myelinated axons by 14% (2P < 0.05) from 7.6 μm² (0.11) in controls to 6.5 μm² (0.13) in intoxicated rats. The mean cross sectional area of myelinated sural nerve axons was reduced by 22% (2P < 0.001) from 8.6 μm² (0.08) in controls to 6.7 μm² (0.17) in intoxicated rats. We conclude that chronic intoxication with acrylamide leads to selective atrophy of type A dorsal root ganglion cell bodies and simultaneous atrophy along their peripheral axons, whereas neuronal B-cell bodies and motor axons are spared. It is suggested that the neuronal atrophy might well represent a defect of neurofilament synthesis and transport.     

Extrasynaptic localization of α-bungarotoxin receptors in the rat superior cervical ganglion

Binding of [¹²⁵I]α-bungarotoxin to nicotinic cholinergic receptors (α-bungarotoxin receptors) was investigated in the rat superior cervical ganglion by light and electron microscope autoradiography. Both techniques indicated that labelling, which was inhibited by d-tubocurarine, occurred around and/or over neuronal perikarya. In particular, ultrastructural autoradiography showed that the synapses were devoid of radioactivity, suggesting that α-bungarotoxin receptors in the rat superior cervical ganglion are molecules distinct from the nicotinic (postsynaptic) receptors normally involved in ganglionic transmission. By contrast, specific labelling was found in extrasynaptic areas of the neuronal membrane in contact with satellite cells (neuron-satellite cell boundary). Quantitative analysis indicated that at that level silver grains were present on both the neuronal membrane and satellite cells. Furthermore, beside neuronal perikarya, radioactivity was also found around nerve fibres, probably in relation to both the axonal and interstitial sides of the ensheathing Schwann cells. Only a few grains were clearly accumulated inside nerve fibres. Finally, significant amounts of specific radioactivity were detected in the neuronal cytoplasm, especially at the level of rough endoplasmic reticulum and Golgi apparatus. However, parallel diffusion experiments with [¹²⁵I]α-bungarotoxin and [³H]inulin (a marker for the extracellular space) provided no evidence that the toxin enters the neuronal cytoplasm. Thus, the intraneuronal (specific) labeling was probably a reflection of α-bungarotoxin binding to membrane receptors and the subsequent internalization of the toxin-receptor complex in the neurons. We conclude that in the rat superior cervical ganglion extrasynaptic nicotinic acetylcholine receptors (α-bungarotoxin receptors) may be widely located on the neuronal membrane as well as on the plasma membrane of satellite and Schwann cells. The physiological significance of this molecular architecture is discussed.     

Effect of the alkaloid (−) cathinone on the release of radioactivity from rabbit atria prelabelled with 3H-norepinephrine

In certain countries of East Africa and the Arab Peninsula, fresh leaves of the khat shrub are used as a stimulant. The effect of the plant material can be explained by the presence of the phenylalkylamine alkaloid (?) cathinone in the leaves, since this substance has been shown to have an amphetamine-like releasing effect on CNS tissue prelabelled with ³H-dopamine. Characteristically, the chewing of khat is accompanied by sympathomimetic effects, especially at the cardiovascular level. To test whether these might be due to release of neurotransmitter from adrenergic nerve endings, the effect of (?) cathinone on the efflux of radioactivity from isolated rabbit atrium tissue prelabelled with ³H-norepinephrine was investigated. It was found that, at concentrations below 1 μM, (?) cathinone caused an immediate increase of efflux. The effect was dose-dependent and was potentiated by pretreatment of the rabbits with reserpine. Preincubation of the tissue with desipramine and cocaine prevented the induction of release by (?) cathinone. The results indicate that the alkaloid (?) cathinone has an amphetamine-like releasing effect on noradrenergic nerve endings and they suggest that the cardiovascular symptoms observed during khat consumption are due to release of neurotransmitter from physiological storage sites.     

Dopamine in a molluscan nervous system: Synthesis and fluorescence histochemistry

The nervous system of the pond snail, Helisoma trivolvis, was investigated for its ability to synthesize and accumulate ³H-catecholamines from ³H-tyrosine. ³H-Dopamine, but not ³H-norepinephrine, was synthesized by several ganglia. The highest accumulations were found in the cerebral, pedal, and buccal ganglia. The Falck-Hillarp and glyoxylic acid fluorescence histochemical techniques were applied to the buccal ganglia to visualize dopamine-containing cells. Fluorescing cells were found on both dorsal and ventral sides of the ganglion. Peripheral nerves of the buccal ganglia also displayed catecholamine fluorescence and accumulated ³H-dopamine. However, no ³H-dopamine synthesis occurred in the cerebral-buccal connectives, which connect the buccal ganglia with the rest of the central nervous system. Therefore, we conclude that there is a dopaminergic system intrinsic to the buccal ganglia and their peripheral targets.     

Accumulation of 3H-glycine in interneurons of the cat spinal cord

Summary After in vivo njections of ³H-glycine into the cat spinal cord autoradiography at the light and electron microscopic level revealed high concentrations of radioactivity over certain nerve endings, often containing flat vesicles, over glial cells and over neuronal cell bodies probably representing spinal interneurons. Motoneurons, on the other hand, showed only a low activity.     

Fluorescence-microscopical demonstration of a population of gastro-intestinal nerve fibres with a selective affinity for Quinacrine

Summary A population of nerve fibres in the gastro-intestinal tract of mice showing a high affinity for quinacrine was revealed by fluorescence microscopy. Similar results were obtained in rats and guinea pigs. Whole-mounts of sheets of the smooth muscle layer following incubation in 10^-6-10^-7 M quinacrine for 15–60 min revealed fine fluorescent varicose nerve fibers in the myenteric plexus of Auerbach both around nerve cell bodies and in the interconnecting strands. Many fibers were also present between the strands of the plexus, especially running parallel to the circular muscle layer. Such fibers were not seen in similarly quinacrine-incubated irides. A proportion of the cell bodies in Auerbach's plexus also showed quinacrine accumulation. These cells were apparently smaller neurons, sometimes with fluorescent processes. Intraperitoneal injections of quinacrine failed to demonstrate nerve fibers, but some cell bodies in Auerbach's plexus were positive. Subsequent paraformaldehyde treatment for monoamine visualization showed persistent adrenergic nerve terminals in the intestine and iris. These nerves seemed to be fewer and had a more yellow fluorescence than normally. The identity of the quinacrine-positive fibers is discussed with respect to recent suggestions that purinergic, substance P, enkephalin, and somatosin-containing nerves, in addition to adrenergic and cholinergic nerves, are present in the gut wall.Supported by the Swedish Medical Research Council (04X-03185). Magnus Bergvalls Stiftelse and Karolinska Institutets Fonder. For generous gifts of Mepacrine we thank Winthrop, Skärholmen, Stockholm, Sweden. The skilful technical assistance of Miss Gerd Boetius and Miss Maud Eriksson is gratefully acknowledged     

Comparative studies of quinacrine-positive neurones in the myenteric plexus of stomach and intestine of guinea-pig,rabbit and rat

Summary The number of quinacrine-fluorescent nerve cell bodies and the percentage of the ganglion area occupied by this fluorescence within stretch preparations of the myenteric plexus of the stomach and ileum of the guineapig, rabbit and rat were assessed. The number of quinacrine-positive cell bodies per cm² of plexus varied between 1045 in the rabbit ileum to 2633 in the rat stomach, whilst the percentage of the ganglionic area occupied by fluorescence was approximately 10 %. The distribution of quinacrine-fluorescent nerve fibres and cell bodies in the myenteric plexus was compared to the distribution of nerves revealed by catecholamine fluorescence and by staining for acetylcholinesterase in the stomach and ileum of all three species. Quinacrine fluorescence appears to be selective for non-adrenergic, non-cholinergic nerves; the possibility that it binds to high levels of ATP is discussed.     

LOCALIZATION OF MACROMOLECULES IN ESCHERICHIA COLI : II. RNA and its Site of Synthesis

The distribution of RNA in cells of E. coli 15 T^-U^- labeled with uridine-H³ was studied by methods involving the analysis of radioautographic grain counts over random thin cross-sections and serial sections of the cells. The results were correlated with electron microscope morphological data. Fractionation and enzyme digestion studies showed that a large proportion of the label was found in RNA uracil and cytosine, the rest being incorporated as DNA cytosine. In fully labeled cells the distribution of label was found to be uniform throughout the cell. The situation remained unchanged when labeled cells were subsequently treated with chloramphenicol. When short pulses of label were employed a localization of a large proportion of the radioactivity became apparent. The nuclear region was identified as the site of concentration. Similar results were obtained when cells were exposed to much longer pulses of uridine-H³ in the presence of chloramphenicol. If cells were subjected to a short pulse of cytidine-H³, then allowed to grow for a while in unlabeled medium, the label, originally concentrated to some extent in the nuclear region, was found dispersed throughout the cell. The simplest hypothesis which accounts for these results is that a large fraction of the cell RNA is synthesized in a region in or near the nucleus and subsequently transferred to the cytoplasm.     

Location of sites of dopamine storage in megakaryocytes by autoradiography

We have used quantitative electron microscope autoradiography to study the subcellular sites of 3H-dopamine uptake in mouse megakaryocytes after a single intraperitoneal injection. Autoradiographic grains were found to be associated almost exclusively with the vesicles of precursors of monoamine-storage organelles. The labeling intensity (radioactivity) of the demarcation membrane system which is continuous with the plasmalemma was also significantly greater than would be expected. On the other hand, radioactivity associated with the remaining sites in the cytoplasm was not significantly different from that expected of a random distribution. In order to compare 3H-dopamine uptake during cell maturation, light microscope autoradiographic studies were also done. Immature megakaryocytes were labeled slightly, but the number of silver grains increased significantly in maturing cells. Mature megakaryocytes were 2.7 times more radioactive than the maturing cells. Our results suggest that the megakaryocytes were able to accumulate dopamine from the early stages of cell maturation and to store dopamine in precursors of monoamine-storage organelles.     

Combined fluorescence histochemistry and 3h-noradrenaline measurements of adrenergic nerves

Summary A method is described which combines the histochemical fluorescence technique of Falck and Hillarp with isotope measurements in the same pieces of tissue. Tissue pieces incubated in isotope solutions were treated for fluorescence microscopy and examined. They were then removed from the microscopical slides, and the radioactivity determined. It was shown that NA¹ content and estimated fluorescence intensity were well correlated. The procedure devised is of special value when isotope measurements are needed of structures which can be safely identified only in the fluorescence microscope, and it has been used for quantitative estimations of adrenergic innervation.Abbreviations used Na noradrenaline - cpm counts per minute - dpm desintegrations per minute     

Autoradiography of nucleoside uptake into the retina

A selective uptake mechanism for some nucleosides and related substances was found in retinae of light adapted rabbits and fish. After the intravitreal injection in vivo of [³H]adenosine, [³H]inosine, [³H]guanosine and certain related compounds, the distribution of radioactivity was studied by autoradiography. Retinae were also incubated in [³H]adenosine and [³H]inosine and then were similarly processed.In rabbits, the accumulation of radioactivity from [³H]adenosine and [³H]guanosine was predominantly into glial cells, but also into neurons. [³H]Inosine labelled glia almost exclusively. However, the adenosine analog, [³H]methylphenylethyl-adenosine, resulted in well-defined neuronal labelling in this species. In fish, a few photoreceptor cell bodies exhibited strong radioactivity with the nucleosides, presumably representing incorporation into nucleic acids of replicating cells. Labelling was also seen in horizontal cells, amacrine cells and ganglion cells after the injection of either [³H]adenosine, [³H]guanosine or [³H]inosine.To some extent, the selective accumulation of radioactivity is likely to be due to cell replication, but in most neurons, other factors must be responsible. Judging from what is known about the actions of adenosine in central nervous tissue, signal transmission in the retina could be such a factor.     

Process of cellular division in Escherichia coli growth pattern of E. coli murein

The growth pattern of the murein-sacculus which determines the shape of the Escherichia coli cell was studied by the use of high-resolution autoradiography with the electron microscope. The murein was pulse labelled with ³H-labelled diaminopimelic acid as a specific murein precursor and sacculi were prepared immediately. The radioactivity of the nascent murein appeared on the auto- radiographs at a well-defined growth zone in the central area of the sacculus. This was true regardless of the size of the cells. Pulse chase experimenta show rapid mixing of labelled murein with pre-existing murein and its even distribution over the whole surface of the sacculus.     

Light and electron microscopic autoradiography of substantia nigra of rat after intraventricular administration of tritium labelled norepinephrine,dopamine, serotonin and the precursors

Summary In autoradiographies of substantia nigra in rat, it has been observed that after intraventricular injections of ³H-dopamine and ³H-norepinephrine respectively the silvergrains are accumulated in nigra neurons and their dendritic branches. The incorporation was more pronounced in the case of ³H-norepinephrine than ³H-dopamine. This seems to indicate that exogenous norepinephrine may have stronger affinity to nigra neurons and their dendrites than exogenous dopamine. In addition, some ³H-dopamine and ³H-norepinephrine labelled nerve terminals were observed in axo-dendritic synapses. In contrast to these data, ³H-5HTP and ³H-5HT administration showed almost all silver grains accumulated in the neuropil when observed in light microscopic autoradiography. Electron micrographs further reveal that the incorporation of ³H-5HTP and ³H-5HT was mostly within axo-dendritic boutons with more frequent dense core vesicles. These data again strongly suggest that substantia nigra receives a large number of serotoninergic fibres forming axo-dendritic synapses which may play an important role in modulation of substantia nigra function.Dr. Parizek was on leave of absence from the Charles University, Faculty of Medicine, Hradec Králové, Czechoslovakia.     

AUTORADIOGRAPHIC STUDIES OF SYNTHESIS AND INTRACELLULAR MIGRATION OF GLYCOPROTEINS IN THE RAT ANTERIOR PITUITARY GLAND

The incorporation of [³H]fucose in the somatotrophic and gonadotrophic cells of the rat adenohypophysis has been studied by electron microscope autoradiography to determine the site of synthesis of glycoproteins and to follow the migration of newly synthesized glycoproteins. The pituitaries were fixed 5 min, 20 min, 1 h, and 4 h after the in vivo injection of [³H]fucose and autoradiographs analyzed quantitatively. At 5 min after [³H]fucose administration, 80–90% of the silver grains were localized over the Golgi apparatus in both somatotrophs and gonadotrophs. By 20 min, the Golgi apparatus was still labeled and some radioactivity appeared over granules. At 1 h and 4 h, silver grains were found predominantly over secretory granules. The kinetic analysis showed that in both protein-secreting cells (somatotrophs) and glycoprotein-secreting cells (gonadotrophs), the glycoproteins have their synthesis completed in the Golgi apparatus and migrate subsequently to the secretory granules. It is concluded from these in vivo studies that glycoproteins which are not hormones are utilized for the formation of the matrix and/or of the membrane of the secretory granules. The incorporation of [³H]fucose in gonadectomy cells (hyperstimulated gonadotrophs) was also studied in vitro after pulse labeling of pituitary fragments in medium containing [³H]fucose. The incorporation of [³H]fucose was localized in both the rough endoplasmic reticulum (ER) and the Golgi apparatus. Later, the radioactivity over granules increased while that over the Golgi apparatus decreased. The concentration of silver grains over the dilated cisternae of the rough ER was not found to be modified at the longest time intervals studied.