Localization of tissue plasminogen activator mRNA in adult rat brain

The distribution of tissue plasminogen activator (tPA) messenger RNA in rat brain was studied using in situ hybridization with ³⁵S UTP-labeled RNA probes derived from a fulllength tPA cDNA. Sense strand controls produced low, even backgrounds, with small elevations in the hippocampus. Full-length antisense probes produced strong signals over cerebral ventricular ependyma (including ependyma of the subcommissural organ), meninges, blood vessels, and Purkinje cell layer of the cerebellum, as well as strong signals over scattered cells throughout the brain. Some of these scattered labeled cells were large with lightly stained nuclei, while others were small with darkly stained nuclei. The large labeled cells, which were probably neurons, constituted 8% and 8% of cells in the brain stem and neocortex, respectively, and 100% of Purkinje cells. The small cells, which were present in all areas of the brain, constituted 3–11 % of cells in individual brain areas.     

A sleep disturbance in high risk for SIDS infants

A developmentally immature sleep pattern has been identified in infants with a recent history of an unexplained life-threatening episode of sleep apnoea who are considered at risk for SIDS. In these infants there is a persistence of Sleep Onset REM Periods (SOREMPS) after prolonged wakefulness when compared to controls matched for age, sex, birthweight and race. This sleep characteristic has not been previously reported.     

Neurotransmitter characteristics of brain grafts: striatal and septal tissues form the same laminated input to the hippocampus

In previous experiments we have studied the development of grafts of embryonic septal tissues implanted alongside the hippocampal formation of neonatal rats. In the present study we examined intracerebral implants of corpus striatum, a brain region that contains acetylcholinesterase-positive cells and does not normally project to the hippocampal formation, in order to evaluate the possibility that neurotransmitter identity may be involved in mechanisms guiding patterns of afferent growth and connectivity. Implant cavities were made in the entorhinal cortices of neonatal rat recipients and 3-6 days later embryonic striatal tissues were grafted to these preformed cavities. Implants were examined with acetylcholinesterase histochemistry one month after implantation. Grafts of embryonic striatal tissues did not survive implantation when the implant was introduced at the same time as the cavity was made. Grafts of corpora striata containing acetylcholinesterase-positive neurons were found in 7 of 11 rats in the delayed implant paradigm and, in all but one of these animals, acetylcholinesterase was present within those terminal laminae in the ipsilateral hippocampus and dentate gyrus that normally receive cholinergic input from the septal area. These findings suggest that cues underlying the development of specific connections between native (and implanted) septal efferents and hippocampal target neurons may be recognized by ingrowing acetylcholinesterase-reactive fibers from striatal implants.     

Intraaxonaler transport von Ethidium-Bromid-sensitiven RNS- und niedermolekularen 3H-Uridin-Verbindungen im tractus opticus von teleosteern

Zusammenfassung Am Sehtrakt von Carassius carassius und Scardinius erythrophthalmus wurde die axonale Ausbreitungsweise hoch- und niedermolekularer 3H-Uridin-Verbindungen untersucht. Dabei wurde nach intraocularer Injektion des Tracers für TCE-resistente Verbindungen eine intraaxonale Transportgeschwindigkeit von 2–4 mm/d bestimmt, für TCE-lösliche Verbindungen eine von ca. 30–50 mm/d. Durch Applikation des spezifisch mitochondrialen RNS-Synthese-Hemmers Ethidium-Bromid konnte die Einbaurate von 3H-Uridin in hochmolekulare RNS um 70–80% erniedrigt werden, was dafür spricht, daß die langsam im Axoplasma wandernden Mitochondrien einen Großteil der axonalen RNS synthetisieren.In der TCE-löslichen Fraktion konnten durch dünnschichtchromatographische Analyse noch nach 8d p. i. 3H-Uridin und 3H-UDPG nachgewiesen werden. Dieser Befund wird hinsichtlich eines transneuronalen Stoffübertritts von Uridin und der möglichen Bedeutung des UDPG-Transportes im Nervengewebe diskutiert.

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Intraaxonal transport of ethidium-bromide-sensitive RNA- and lowmolecular 3H-uridine-compounds in the optic tract of teleost

Summary In the optic system of teleosts (Carassius carassius and Scardinius erythrophthalmus) the axonal flow of high and low molecular 3H-uridine-compounds was investigated. After injection of the tracer into one eyeball and TCA-extraction of the samples a transport-rate of 2–4 mm/d was demonstrated. By the specific inhibitor of mitochondrial RNA-synthesis, Ethidium-Bromide, the amount of axonal radioactivity could be reduced to 20–30% of the control. This indicates the mitochondria as being the site of synthesis most of axonal RNA. Considering the TCA-soluble 3H-uridine-compounds, an intraaxonal flow also could be demonstrated, with a transport-rate of 30–50 mm/d, 16 times higher as the one of RNA. The analysis by thin layer chromatography indicated the existence of 3H-uridine and 3H-UDPG in the axonal fraction of TCA-soluble compounds still after an incorporation time of 8d. The possibility of a transneuronal convection of uridine and the function of UDPG-transport in the axon are discussed.

Frau Prof. Dr. H. Kersten (Erlangen) danke ich für die Überlassung einer Probe Ethidium-Bromid.     

Central effects of aldosterone infused into the rat subcommissural organ region

D-Aldosterone (5 ng/microliter/h) was infused for 6 days into the region of the subcommissural organ (SCO) of conscious, adult male Sprague-Dawley rats. Aldosterone increased urinary sodium loss and the sodium/potassium ratio. Although probably central in origin, these effects still occurred when cannulae were displaced up to 1 mm from the targeted SCO placement. Aldosterone decreased adrenal medullary cross-sectional area without affecting cell density. This effect was highly dependent on proper cannula placement and was not observed when the cannula tip was not in contact with the cerebrospinal fluid of the pineal recess over the rostral two-thirds of the SCO. We conclude that aldosterone increases sodium excretion by an action in the SCO and/or adjacent structures. We also postulate a negative trophic relationship between mineralocorticoids and the adrenal medulla mediated by the SCO.     

Amino acid substitutions within the heptad repeat domain 1 of murine coronavirus spike protein restrict viral antigen spread in the central nervous system

Targeted recombination was carried out to select mouse hepatitis viruses (MHVs) in a defined genetic background, containing an MHV-JHM spike gene encoding either three heptad repeat 1 (HR1) substitutions (Q1067H, Q1094H, and L1114R) or L1114R alone. The recombinant virus, which expresses spike with the three substitutions, was nonfusogenic at neutral pH. Its replication was significantly inhibited by lysosomotropic agents, and it was highly neuroattenuated in vivo. In contrast, the recombinant expressing spike with L1114R alone mediated cell-to-cell fusion at neutral pH and replicated efficiently despite the presence of lysosomotropic agents; however, it still caused only subclinical morbidity and no mortality in animals. Thus, both recombinant viruses were highly attenuated and expressed viral antigen which was restricted to the olfactory bulbs and was markedly absent from other regions of the brains at 5 days postinfection. These data demonstrate that amino acid substitutions, in particular L1114R, within HR1 of the JHM spike reduced the ability of MHV to spread in the central nervous system. Furthermore, the requirements for low pH for fusion and viral entry are not prerequisites for the highly attenuated phenotype.     

Regionally defective colonization of the terminal bowel by the precursors of enteric neurons in lethal spotted mutant mice

In order to gain insight into the process of colonization of the bowel by the neural crest-derived precursors of enteric neurons, the development of the enteric nervous system was examined in lethal spotted mutant mice, a strain in which a segment of bowel is congenitally aganglionic. In addition, nerve fibers within the ganglionic and aganglionic zones of the gut of adult mutant mice were investigated with respect to their content of acetylcholinesterase, immunoreactive substance P, vasoactive intestinal polypeptide and serotonin, and their ability to take up [³Hserotonin. In both the fetal gut of developing mutant mice and in the mature bowel of adult animals abnormalities were limited to the terminal 2 mm of colon. The enteric nervous system in the proximal alimentary tract was indistinguishable from that of control animals for all of the parameters examined. In the terminal bowel, the normal plexiform pattern of the innervation and ganglion cell bodies were replaced by a coarse reticulum of nerve fibers that stained for acetylcholineserase and were continuous with extrinsic nerves running between the colon and the pelvic plexus. These coarse nerve bundles contained greatly reduced numbers of fibers that displayed substance P- and vasoactive intestinal polypeptide-like immunoreactivity, but a serotonergic innervation was totally missing from the aganglionic bowel. During development, acetylcholineserase and uptake of [³Hserotonin appeared in neural elements in the foregut of mutant mice on the 12th day of embryonic life (E12), about the same time these markers appeared in the forgut in normal mice. By day E14, neurons expressing one or the other marker were recognizable as far distally as about 2 mm from the anus. The appearance of neurons in segments of gut grown for 2 weeks as expiants in culture was used as an assay for the presence of neuronal progenitor cells in the segments of fetal bowel at the time of explantation. Both acetyl- cholinesterase activity and uptake of [³Hserotonin developed in neuronsin vitro in expiants of proximal bowel between days E10 and E17. At all times, however, the terminal 2mm of mutant but not normal fetal gut gave rise to aneuronal cultures. In some mutant mice rare, small, ectopically-situated pelvic ganglia were found just outside aganglionic segments of fetal colon. Uptake of [³Hserotonin, normally a marker for intrinsic enteric neurites, was found in these ganglia.The experiments suppport the hypothesis that the terminal 2 mm of the gut in lethal spotted mutant mice is intrinsically abnormal and thus cannot be colonized by the precursors of enteric neurons. The defect seems to be specific in that both cells and processes of intrinsic enteric neurons, including all serotonergic and most peptidergic neurites, seem to be excluded from the abnormal region while extrinsic nerve fibers, including sympathetic and sensory axons, are able to enter the aganglionic zones. Since examination of neural progenitor cells has failed to reveal a significant proximo-distal displacement of these cells through the enteric tube during development of the murine bowel, a defect in the migration of precursor cells down the alimentary tract to the terminal gut seems unlikely to be substantially involved in the pathogenesis of aganglionosis. This conclusion is supported by the normal enteric nervous system in proximal regions of the mutant gut and the presence of enteric type neurons outside of, but at the same level as the aganglionic region.     

NMDA receptor mediated dendritic plasticity in cortical cultures after oxygen-glucose deprivation

Dendrites and spines undergo dynamic changes in physiological and pathological conditions. Dendritic outgrowth has been observed in surviving neurons months after ischemia, which is associated with the functional compensation. It remains unclear how dendrites in surviving neurons are altered shortly after ischemia, which might reveal the mechanisms underlying neuronal survival. Using primary cortical cultures, we monitored the dendritic changes in individual neurons after oxygen-glucose deprivation (OGD). Two to four hours of OGD induced approximately 30–50% cell death in 24 h. However, the total dendritic length in surviving neurons was significantly increased after OGD with a peak at 6 h after re-oxygenation. The increase of dendritic length after OGD was mainly due to the sprouting rather than the extension of the dendrites. The dendritic outgrowth after 2 h of OGD was greater than that after 4 h of OGD. Application of NMDA receptor blocker MK-801 abolished OGD-induced dendritic outgrowth, whereas application of AMPA receptor antagonist CNQX had no significant effects. These results demonstrate a NMDA receptor-dependent dendritic plasticity shortly after OGD, which provides insights into the early response of surviving neurons after ischemia.     

Cloning and spatial and temporal expression of the zebrafish dopamine D1 receptor.

Dopamine plays important roles in the regulation of central nervous system (CNS) development and functions. In vertebrates, two families of dopamine receptors, collectively known as dopamine D1 and D2 receptors, have been identified. Recently, dopamine receptors have been targeted by pharmacological and therapeutic studies of neurological disorders, such as Parkinson's disease. Here, we report a study on the molecular characterization of dopamine D1 receptor in zebrafish (Danio rerio). We cloned the full-length cDNA of a zebrafish dopamine D1 receptor, designated as drd1. The sequence of drd1 shares high homology to the sequences of dopamine D1 receptors in mammalian, amphibian, and other fish species. drd1 is expressed in the CNS. The first drd1 expression was observed at approximately 30 hours postfertilization, at which time the expression was seen in the developing diencephalon and hindbrain. In developing retinas, the expression of drd1 was detected in the inner nuclear layer with the exception of the marginal zones. In adult retinas, drd1 expression was detected in most cell types in the inner and outer nuclear layers as well as ganglion cell layer. Differential expression of drd1 in developing and adult retinas may play various roles in regulating visual system functions.