Thyroglobulin-like immunoreactivity in the nervous system of Eisenia foetida (Annelida,Oligochaeta)

Summary Immunohistochemical studies were performed by use of specific rabbit antisera and purified antibodies to human Tg on cephalic and body sections of Eisenia foetida and on cephalic sections of Lumbricus terrestris. Secondary antisera, either fluorescein- or peroxidase-conjugated, were used to identify the immunoreaction. Immunoreactive perikarya and some immunoreactive nerve fibres were detected in both the cerebral ganglion and the ventral nerve cord of E. foetida. From 8 to 19 Tg-like positive neurons per frontal section were observed in the brain, mainly in the dorsal zone. From 2 to 4 positive perikarya per ganglion were found in sagittal sections of the ventral nerve cord with a repetitive distribution. Numerous positive neurons were also found in the cephalic segments of L. terrestris. The present results indicate that a substance immunologically related to mammalian Tg is synthesized in earthworms. This suggests that some conservative sequences of Tg structure arose very early in evolution and supports the idea of a common evolutionary origin for endocrine and nervous systems.     

Zur neuronalen Regulation des Wasserhaushalts bei Lumbricus terrestris L.

Zusammenfassung Im Dehydrations-Experiment tolerieren Regenwürmer Flüssigkeitsverluste bis zu 70% ihres Körpergewichts. Hierbei ergeben sich hohe Anforderungen an die Anpassungsfähigkeit von Nephridien, Darm und Integument, die im Dienste des Wasser-und Elektrolythaushalts stehen. Um die Abhängigkeit dieser Organe von zentralnervösen Einflüssen zu studieren, wurden bei Lumbricus terrestris Ober-, Unterschlundganglion sowie ein Bauchmarkabschnitt zwischen dem 10.–15. Segment hinter dem Clitellum entfernt. In diesen Segmenten wurden 30, 60 und 120 min nach Versuchsbeginn der Schleimgehalt von Epidermiszellen, die Kerngröße von Darmepithel- und Chloragogen-Zellen sowie der innere und äußere Tubulusumfang von Nephridien cytometrisch bestimmt. In gleichen Intervallen wurde im Oberschlundganglion der Nucleinsäure- und Proteingehalt Gomoripositiver Neurone mikrospektrographisch gemessen. Aus dem Vergleich von cytometrischen und mikrospektrographischen Daten geht hervor: 1. Der nephridiale Stäbchenkanal steht am stärksten unter neuroendokrinem Einfluß. 2. Darmepithel- und Chloragogen-Zellen hängen sowohl von zentraler, neuroendokriner als auch von segmentaler, nervöser Kontrolle ab. 3. Die Schleimsekretion von Epidermiszellen wird wahrscheinlich über segmentale Nerven gesteuert; sie zeigt jedoch die ausgeprägteste Autonomie. Somit stehen die an der Regulation des Wasser- und Elektrolythaushalts beteiligten Organe von Lumbricus terrestris unter einer doppelten Kontrolle durch peptiderge sekretorische Neurone des Oberschlundganglions und segmentale Neurone des Bauchmarks.

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Neuronal regulatory mechanisms of the water balance in Lumbricus terrestris L.

Summary Earthworms tolerate loss of fluids up to 70% of their total body weight. The adaptive capacity must thus be very high in organs which control the exchange of water and electrolytes in nephridia, the intestine and skin. In order to study the influence of the central nervous system on adaption, the supra- and suboesophageal ganglion and the 10th–15th segments behind the clitellum were removed. In segments deprived of ventral nerve cord the mucous content of epidermal cells, the nuclear area of intestinal epithelial cells and chloragogen cells together with the circumference of nephridial tubules were measured 30, 60 and 120 min after placing Lumbricus terrestris in a standardized dry environment. Protein and nucleic acid contents of Gomori-positive neurons in the supraoesophageal ganglion were measured at these times. Comparison of the results of cytometric and microspectrographic measurements shows that 1) the distal segment of the wide nephridial tube is under neuroendocrine control, 2) intestinal epithelial cells and chloragogen cells are influenced by segmental neurons and central secretory nervous elements, 3) mucous secretion is autonomous but may be controlled by segmental nerve impulses. Therefore, water- and electrolyte exchange in Lumbricus terrestris is regulated by secretory peptidergic neurons of the supraoesophageal ganglion and by nerve cell complexes in the ventral nerve cord.

Geschäftsführender Direktor: Prof. Dr. A. Oksche.     

Detection of a 65 kDaras binding protein in rat and sheep brain cytosol using a chemical cross linking agent

The ability of aras protein to associate with proteins present in rat brain cytosolin vitro was investigated using chemical cross-linking agents and the¹²⁵I-labelled v-H-ras protein. Two iodinated protein complexes with apparent molecular weights of 40 and 85 kDa were observed when a mixture of rat brain cytosol and [¹²⁵I]ras was treated with the cross-linking agent disuccinimidyl suberate and subjected to SDS-PAGE. Formation of the [¹²⁵I] 85 kDa complex was enhanced by a high concentration of EDTA while generation of the 40 kDa species was abolished by this treatment. Formation of the [¹²⁵I] 85 kDa complex was inhibited by unlabelledras protein, GTP, GTPS, and GDP but not by ATPS and GMP.Chromatography of the cross-linked brain cytosol-[¹²⁵I]ras mixture on DEAE cellulose partially resolved the [¹²⁵I] 85 kDa complex from the [¹²⁵I]ras protein. The [¹²⁵I] 85 kDa complex (formed using ethyleneglycolbis (succinimidylsuccinate) as the cross-linking agent) could be immunoprecipitated using a rabbit anti-ras polyclonal antibody. Treatment of the immunoprecipitate with hydroxylamine to cleave the cross-link yielded [¹²⁵I]-labelledras. A substantial enrichment of the proportion of the [¹²⁵I] 85 kDa complex in the cross-linked extract was achieved by preparative SDS-PAGE. It is concluded that thein vitro chemical cross-linking approach employed here has detected tworas binding proteins in rat brain cytosol: a 65 kDa heat-sensitive and a 20 kDa heat-stable protein. The possibility that the 65 kDaras binding protein is aras regulatory orras effector protein which has not so far been characterised is briefly discussed.Abbreviations DSS disuccinimidyl suberate - EGS ethyleneglycolbis (succinimidylsuccinate) - GTPS guanosine 5-[-thio] triphosphate - ATPS adenosine 5-[-thio] triphosphate     

Nematodes from the Strait of Magellan and the Beagle Channel (Chile): the genera Cervonema and Laimella (Comesomatidae: Nematoda)

Five species of Cervonema and four species of Laimella are described from the Strait of Magellan and the Beagle Channel, Chile, six species of which are new to science. Cervonema chilensisn. sp. and Cervonema hermanin. sp. are separated from other known species of Cervonema by a short cervical region (less than one head diameter from the front end to the anterior border of the amphids). Cervonema chilensisn. sp. is characterised by a tail length of 5 anal diameters with posterior half filiform; Cervonema hermani n. sp. is characterised by a tail length of 6–9 anal diameter and posterior part (75%) cylindrical. Cervonema shiaen. sp. is characterised by the cephalic seta 4 m long, amphids 9–10 m in diameter; spicules 16 m long and 0.8–0.9 abd; tail 4.7–5.4 anal diameter and 50% posterior part filiform; 4–5 minute precloacal supplements. Laimella subterminatan. sp. is characterised by the subterminal position of the buccal cavity which separates it from the other species of the genus. Laimella annaen. sp. is characterised by the head diameter 9–11 m, cephalic setae and external labial setae 9 + 5 m long, respectively, amphids 7 m in diameter; spicules 28–30 m long; tail 14–17 anal diameter and posterior part (75%) filiform; 5 precloacal supplements. Laimella sandraen. sp. is very close to Laimella annaen.sp. in having similar cephalic sensilla, amphids and spicules. Laimella sandraen. sp., however, can be separated from L.annaen. sp. by the shape of head and the structure of sperm cells, the total body length and the cylindrical part of tail. Cervonema papillatum Jensen, 1988, C. tenuicauda (Stekhoven, 1950) and L. longicauda Cobb, 1920 are found in this area as well. The key of all known species of Cervonemaand Laimellais presented.     

Studies on the iodination of aras protein and the detection ofras polymers

Several methods for the iodination of recombinant v-H-ras protein were compared. The Iodobead method gave greates incorporation of radioactivity with minimal modification of theras protein. Upon treatment of theras protein with [¹²⁵I] Nal and an Iodobead, radioactivity was initially incorporated into a 22 kDa species with a pl of 5.2, then predominantly into a 23 kDa species with a pl of 5.4. The specific activity of [¹²⁵I]ras was 6×10⁶ cpm/pmol totalras protein. Iondination did not alter the biological activity of theras protein as judged by its ability to bind GTPS and induced maturation ofXenopus laevis oocytes. It is concluded that while iodination alters the apparent molecular weight and pI ofras, presumably by the oxidation of one or more classes of amino acids, this does not affect the biological function of the protein. Theras protein, radioactively-labelled with iodine using the Iodobead method, should be suitable for studies of protein-protein interactions involvingras. Treatment of iodinatedras with the chemical cross-linking agent disuccinimidyl suberate revealed the presence of several minor high molecular weight protein species. This result shows that, in a dilute solution of purifiedras protein, the monomeric form is in equilibrium with small amounts of polymeric forms.Abbreviations DSS Disuccinimidyl Suberate - GTPS Guanosine 5-[-thio] triphosphate - ATPS Adenosine 5[-thio] Triphosphate     

Absence of sensory input does not affect persistent neurons in Tenebrio molitor metamorphosis (Insecta: Coleoptera)

Summary The ventral nerve cord of holometabolous insects is reorganized during metamorphosis. Certain elements, however, persist from the larval to the adult stage. A group of dorsal unpaired median neurons and a set of thoracic serotonin-immunoreactive interneurons are shown to be persistent elements in the ventral nerve cord of Tenebrio molitor. These persistent neurons retain their bauplan even after deprivation of the sensory neurons projecting onto them. These persistent neurons might provide a network into which newly developing sensory neurons fit during reorganization of the nervous tissue.     

Experiments on anterior regeneration in<Emphasis Type="Italic"> Eurythoe complanata</Emphasis> ("Polychaeta", Amphinomidae): reconfiguration of the nervous system and its function for regeneration

In the polychaete Eurythoe complanata (Amphinomidae) regeneration of the nervous system has been monitored after amputation of anterior segments and after amputation plus extirpation of one to a few anterior ganglia of the ventral nerve cord. The serotonergic subunit of the nervous system was visualized with an antibody directed against the bioamine 5-HT. Cell proliferation could be demonstrated by incorporation of 5-bromo-2'-deoxyuridine. Antibody binding was visualized by fluorescence labeling and confocal laser scanning microscopy. The results show that regeneration of the nervous system occurs in two phases: (1) formation of primary neuronal structures by the "old" cord and (2) formation of new neurons in the regenerate that link up with the "old" system by their outgrowing axons. It is demonstrated that the nervous system is essential for regeneration: it induces cell proliferation in the blastema and subsequently in the regenerate. Extirpation of one ganglion retards regeneration, and extirpation of more than one ganglion prevents it completely, unless the affected segments are autotomized.     

Characterization of buccal motor programs elicited by a cholinergic agonist applied to the cerebral ganglion of Aplysia californica

Applying the non-hydrolyzable cholinergic agonist carbachol (CCh) to the cerebral ganglion of Aplysia elicits sustained, regular bursts of activity in the buccal ganglia resembling those seen during biting. The threshold for bursting is 10^2–4 M. Bursting begins after a 2 to 5 min delay. The burst frequency increases over the first 5 bursts, reaching a plateau value of 3 per minute. Bursting is maintained for over 10 min. Some of the effects of CCh may be attributed to its ability to depolarize and fire CBI-2, a command-like neuron in the cerebral ganglion that initiates biting. CBI-2 is also depolarized by ACh, and by stimulating peripheral sensory nerves. Excitation of CBI-2 caused by carbachol is partially blocked by the muscarinic antagonist atropine. We examined whether CCh-induced bursting is modified in ganglia taken from Aplysia that previously experienced treatments inhibiting feeding, such as satiation, head shock contingent or non-contingent with food, and training animals with an inedible food. No treatment consistently and repeatedly affected the latency, the peak burst period, the length of time that bursting was maintained, or the threshold CCh concentration for eliciting bursting. However, there was a decrease in the rate of the buildup of the buccal ganglion program in previously satiated animals.     

Ultrastructural localization of the iodination centre in the endostyle of the adult amphioxus (Branchiostoma lanceolatum)

Summary The site of iodination in the endostyle of the adult amphioxus was examined by light-and electron-microscopic autoradiography. In accordance with previous studies, light-microscopic autoradiography showed a distinct accumulation of autoradiographic grains at the apical end of epithelial cells in the lateral part of the endostyle. In the electron microscope two distinct cellular zones were identified in an approximate position of the light-microscopic zone 5. Zone 5a, not previously recognized, was adjacent to zone 4 and consisted of six to nine rows of cells free of characteristic granules. Cells in zone 5b contained large mucous granules and had, in previous ultrastructural studies, been identified as belonging to the typical zone 5. Four or less incomplete rows of granule-containing cells, not observed in previous studies, marked the border between zones 5b and 6. After incubation in ¹²⁵I for 5 min, electron-microscopic autoradiography showed a selective concentration of label to zone 5a, which, thus, corresponds to the iodination centre seen in the light microscope. The grains were associated with cilia and microvilli in the lumen. After longer incubation times (30, 60, 90 min) grains were still concentrated at the surface of zone 5a but were also associated with the surface of zones 5b and 6. Grains were also located over the cytoplasm of all three zones. They were associated with vesicles and lysosome-like structures, suggesting secondary uptake of labelled products by endocytosis. Methimazole, an inhibitor of peroxidase, abolished the autoradiographic reaction. In conclusion, the site of iodination in the endostyle of amphioxus is located in zone 5a, which has not previously been ultrastructurally defined. Iodination in the endostyle is an extracellular process, but secondary uptake by endocytosis appears to occur.     

Effect of age on acetylcholinesterase and other hemolymph proteins in Aplysia

Summary Hemolymph was examined in young (ca. 86 days old), mature (ca. 163 days old), and old (ca. 294 days old) Aplysia for age-related changes in constituent proteins. In young, mature, and old animals protein concentrations were 1.6±0.27, 1.41±0.53, and 1.45±0.43 mg·ml^-1, respectively. The copper-containing respiratory protein, hemocyanin, measured by determining the copper concentration, was found to increase significantly from young (0.98±0.51 g·ml^-1) to mature (2.02±0.95 g·ml^-1) Aplysia, with little change between mature and old (1.92±0.43 g·ml^-1) animals. These findings were consistent with the results obtained when hemocyanin was directly measured by spectrophotometric absorption at 340 nm. Acetylcholinesterase (AChE) was present in the hemolymph of Aplysia. Its activity was highest in mature animals (3121±1627 units·mg^-1) and least in old animals (1463±599 units·mg^-1). Young animals had intermediate levels (2080±762 units·mg^-1). SDS-PAGE revealed a distinct pattern of protein bands for hemolymph from each age group; hemolymph from the young group contained six prominent protein bands with molecular weights (MW) from 13 to 300 kDa. Hemolymph of mature and old animals exhibited four and three prominent protein bands, respectively, with MW between 45 and 300 kDa. A prominent band at 97 kDa was present in samples from the mature group, but was faint in samples from the old group and absent in samples from the young group. Under non-denaturing conditions the hemolymph protein band patterns for each group differed from the others, thereby demonstrating that the age-dependent differences in the protein profiles are intrinsic to hemolymph in vivo. Isoelectric focusing of the hemolymph samples revealed that the proteins were all acidic (pI ca. 3.0–6.5). The hemolymph from the young differed from the other two groups in having an additional acidic protein (pI ca. 4.0). A possible link between age-related changes in hemolymph proteins and age-related changes in the nervous system is proposed.Abbreviations 2-ME 2-mercaptoethanol - AChE acetylcholinesterase - FMRFamide amidated tetrapeptide containing phenylalanine, methionine, arginine and phenylalanine - MW molecular weight - PAS periodic acid-Schiff - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis - TRIS tris-(hydroxymethyl)-aminomethane     

Postembryonic development in Diaphanosoma brachyurum (Lievin, 1848) (Crustacea: Ctenopoda: Sididae)

Postembryonic females and males Diaphanosoma brachyurum from Lake Glubokoe (Moscow) have 3–4 and 3 juvenile instars, respectively. Females and males of the first three postembryonic instars can be identified by the different number of setae and setal rudiments on the proximal and distal segments of the exopodite of the swimming antennae: 3 + 7; (i + 3) + 7; 4 + (i + 7), respectively (i = rudiment of seta). The subsequent instars have 4 + 8 long plumose setae on these segments, but the fourth instar has the proximal lateral seta of the distal exopod segment slightly shorter and thinner than the others. The antennules and copulatory appendages of males are instar-specific. Diaphanosomas show small increments in body length during the postembryonic molts. The largest increments (about 115 m) occur during the first or second molts. The allometric equation of Huxley (1924) was used for a comparison of the relative growth rate of different body parts. In the middle of summer, the head and swimming antennae with the body and the antennal exopodite with the antennal basipodite grow in isometry. At the same time, the branches of the swimming antennae and their setae show allometric growth: the exopodite and distal setae grow faster than the endopodite and the lateral setae, respectively.     

The distribution of pheromone-biosynthesis-activating neuropeptide (PBAN) immunoreactivity in the central nervous system of the corn earworm moth,Helicoverpa zea

Summary Production of sex pheromone in several species of moths has been shown to be under the control of a neuropeptide termed pheromone-biosynthesis-activating neuropeptide (PBAN). We have produced an antiserum to PBAN from Helicoverpa zea (Lepidoptera: Noctuidae) and used it to investigate the distribution of immunoreactive peptide in the brain-suboesophageal ganglion complex and its associated neurohemal structures, and the segmental ganglia of the ventral nerve cord. Immunocytochemical methods reveal three clusters of cells along the ventral midline in the suboesophageal ganglion (SOG), one cluster each in the presumptive mandibular (4 cells), maxillary (12–14 cells), and labial neuromeres (4 cells). The proximal neurites of these cells are similar in their dorsal and lateral patterns of projection, indicating a serial homology among the three clusters. Members of the mandibular and maxillary clusters have axons projecting into the maxillary nerve, while two additional pairs of axons from the maxillary cluster project into the ventral nerve cord. Members of the labial cluster project to the retrocerebral complex (corpora cardiaca and cephalic aorta) via the nervus corpus cardiaci III (NCC III). The axons projecting into the ventral nerve cord appear to arborize principally in the dorsolateral region of each segmental ganglion; the terminal abdominal ganglion is distinct in containing an additional ventromedial arborization in the posterior third of the ganglion. Quantification of the extractable immunoreactive peptide in the retrocerebral complex by ELISA indicates that PBAN is gradually depleted during the scotophase, then restored to maximal levels in the photophase. Taken together, our findings provide anatomical evidence for both neurohormonal release of PBAN as well as axonal transport via the ventral nerve cord to release sites within the segmental ganglia.Abbreviations A aorta - Br-SOG brain-suboesophageal ganglion complex - CC corpus cardiacum - PBS phosphate-buffered saline - PLI PBAN-like immunoreactivity - TAG terminal abdominal ganglion - VNC ventral nerve cord     

Patterns of serotonin-immunoreactive neurons in the central nervous system of the earthworm Lumbricus terrestris L.

Summary The distribution patterns of serotonin-immunoreactive somata in the cerebral and subpharyngeal ganglion, and in the head and tail ganglia of the nerve cord of Lumbricus terrestris are described from whole-mount preparations. A small number of serotonin-immunoreactive neurons occurs in the cerebral ganglion, in contrast to the large population of serotonin-immunoreactive neurons that exists in all parts of the ventral nerve cord. From the arrangement of serotonin-immunoreactive somata in the subpharyngeal ganglion, we suggest that this ganglion arises from the fusion of two primordial ganglia. In head and tail ganglia, the distribution of serotonin-immunoreactive somata resembles that in midbody segments. Segmental variations in the pattern and number of serotonin-immunoreactive somata in the different body regions are discussed on the background of known developmental mechanisms that result in metameric neuronal populations in annelids and arthropods.Abbreviations CG1, CG2 cerebral soma group 1, 2 - CNS central nervous system - GINs giant interneurons - 5-HT 5-hydroxytryptamine, serotonin - 5-HTi 5-HT-immunoreactive - N side nerve - SG19 subpharyngeal soma group 1–9 - SN segmental nerve     

Immunohistochemical demonstration of a CCK-like peptide in the nervous system of a marine annelid worm,Nereis diversicolor O.F. Müller

Summary Perikarya and nerve fibers containing a substance immunologically related to CCK-8 were detected in the nervous system of Nereis, a marine annelid worm. The most noteworthy immunostaining was seen in cell bodies, localized at the periphery of the brain, within nuclei 5, 6, 7, 9, 10, 13, 14, 15, 17, 20, 23–24. Immunoreactive fibers were also found in the neuropile without any particular grouping. Numerous other positive perikarya occur in the medio-ventral portion of the ventral nerve cord, and in the ventral and dorsal parts of the suboesophageal ganglion. In addition to the cell bodies in the cerebral external layer, immunoreactive axons were abundantly observed in the connectives between the ganglia. Moreover, our results demonstrate CCK-like staining in neurons showing variations in size and shape, and in affinity for paraldehyde fuchsin. The present results support the hypothesis that this peptide may exert a role as neurotransmitter or neuromodulator in annelids.     

Effect of monosodium glutamate on the neural complex of Ciona intestinalis (Tunicata)

Summary Short-term treatment of the ascidian (tunicate) Ciona intestinalis with monosodium glutamate produces a transient decrease in methionine-enkephalin-like immunoreactivity of neurones in the nervous ganglion. Moreover, it causes vacuolisation of the cells in the neural complex, particularly in the neural gland. Similar damages occur after ovariectomy. These results suggest that the ovary exerts an indirect influence on the neural gland via the nervous ganglion, and that the methionine-enkephalin-like substance could be the responsible neuromediator.A portion of these results has been presented as a poster at the 10th International Symposium on Comparative Endocrinology, Copper Mountain, Colorado, USA (July 1985).     

Immunocytochemistry of GABA in the antennal lobes of the sphinx moth Manduca sexta

Summary The ganglionated plexus of the trachea of mice was studied quantitatively with a histochemical method that stains electively the ganglion nerve cells in whole-mount preparations. The plexus lies exclusively over the muscular part of the trachea, dorsal to the muscle itself, and it varies considerably in pattern and extent between individual animals. In young adult mice the plexus contains on average 235 neurons, occurring singly or gathered in packed ganglia. The ganglion neurons are relatively small, the profile area of three quarters of them measuring between 150 and 275 m² with an average of 251 m². In ageing mice the average number of ganglion neurons is the same as in young animals; however, cell sizes are markedly increased, the average being 341 m². Among the ultrastructural features of the ganglia, is a capsule (perineurium) of very regular structure, the presence of collagen, capillaries and myelinated axons inside the ganglia, and the presence of only few and short dendrites, some of which are abutted by synapsing nerve endings.     

Neuroanatomical,immunocytochemical, and physiological studies of the pharyngeal retractor muscle and its putative regulatory neurons playing a role in withdrawal and feeding in the snail, <Emphasis Type="Italic">Helix pomatia</Emphasis>

We describe the neurons regulating two separate functions of the pharyngeal retractor muscle (PRM), namely sustained contraction during body withdrawal and rhythmic phasic contractions during feeding, in the snail, Helix pomatia. The distribution of central neurons innervating the PRM is organized into two main units; one in the buccal-cerebral ganglion complex, the other in the subesophageal ganglion complex. Serotonin- (5-HT-), FMRFamide- (FMRFa-), and tyrosine-hydroxylase-immunostained neurons are present among the PRM neurons that densely innervate the PRM. 5HT both decreases and increases the amplitude of the electrically evoked contraction between concentrations of 0.1 M and 1 M. Dopamine (DA) only decreases the amplitude of contraction at a 1-M threshold concentration. In contrast, FMRFa increases the amplitude of the contraction and slightly elevates the tone of the PRM but requires a higher threshold (10 M). Assay by high-performance liquid chromatography of 5HT and DA in the PRM has shown that the 5HT level decreases during locomotion but increases during feeding, whereas the DA level increases during locomotion but slightly decreases during feeding. Thus, different segments of the PRM are innervated by neurons from different loci within the central nervous system. The segments of the PRM distal to the pharynx are innervated from loci of the subesophageal ganglion complex suggesting that they mediate withdrawal. The proximal segment of the PRM is innervated from cerebral and buccal loci indicating that these neurons mediate the feeding rhythm produced by buccal and cerebral feeding central pattern generators to induce rhythmic phasic contractions in the PRM during feeding.This work was supported by Hungarian Scientific Research Fund (OTKA) grants (T034106, T037389, T037505), the Wellcome Trust CRIG Programme, and the Wellcome Trust Travel Grant.     

“Naked” spinal cord on a non-segmented baton-like bony structure in the tail of the electric fish Eigenmannia virescens (Gymnotoidei)

Summary The caudal spinal cord of Eigenmannia virescens is not enclosed in a neural canal of the vertebral column. In fact, a segmented vertebral column with neural and ventral arches is lacking and replaced by a non-segmented baton-like bony structure on which the free spinal cord is located. The baton consists of calcified bone tissue with bone cells. Individual differences exist as far as the length of the rod is concerned. The electromotor neurons of this caudal part of the spinal cord are histochemically acetylcholinesterase-positive. The electrocytes which surround this part of the spinal cord show strong enzymatic actitivity on the posterior innervated face. However, there is also activity on the non-innervated lateral and anterior faces.     

Effect of Midthoracic Spinal Cord Constriction on Catalytic Nitric Oxide Synthase Activity in the White Matter Columns of Rabbit

The distribution and changes of catalytic nitric oxid synthase (cNOS) activity in the dorsal, lateral and ventral white matter columns at midthoracic level of the rabbit's spinal cord were studied in a model of surgically-induced spinal cord constriction performed at Th7 segment level and compared with the occurrence of nicotinamide adenine dinucleotide phosphate diaphorase expressing and neuronal nitric oxide synthase immunoreactive axons in the white matter of the control thoracic segments. Segmental and white-column dependent differences of cNOS activity were found in the dorsal (141.5 ± 4.2 dpm/m protein), lateral (87.3 ± 11.5 dpm/m protein) and ventral (117.1 ± 7.6 dpm/m protein) white matter columns in the Th5-Th6 segments and in the dorsal (103.3 ± 15.5 dpm/m protein), lateral (54.9 ± 4.9 dpm/m protein), and ventral (86.1 ± 6.8 dpm/m protein) white matter columns in the Th8-Th9 segments. A surgically-induced constriction of Th7 segment caused a disproportionate response of cNOS activity in the rostrally (Th5-Th6) and caudally (Th8-Th9) located segments in both lateral and ventral white matter columns. While a statistically significant decrease of cNOS activity was detected above the constriction site in the ventral columns, a considerable, statistically significant increase of cNOS activity was noted in the white lateral columns below the site of constriction. It is reasoned that the changes of cNOS activity may have adverse effects on nitric oxide (NO) production in the white matter close to the site of constriction injury, thus broadening the scope of the secondary mechanisms that play a role in neuronal trauma.