Neural structures in the receptive field of pleural ganglion mechanosensory neurons of Aplysia californica

The peripheral processes of the mechanoafferents that, when stimulated, initiate the much-studied tail withdrawal reflex of Aplysia californica have not been characterized. We show that immunofluorescence staining for class III -tubulin highlights neurons and reveals nerve tracts and fine neuronal processes in Aplysia tissue. Coupled with transmission and scanning electron microscopy, class III -tubulin immunofluorescence is consistent with the possibility that mechanoafferents in the receptive field of pleural ganglion mechanosensory neurons penetrate the tail epidermis and terminate as ciliated endings. This view is reinforced by comparisons among neuronal processes in several mechanosensory epidermal regions and in a chemosensory epidermis.     

Ultrastructural localization of egg-laying prohormone-related peptides in the atrial gland of Aplysia californica

The atrial gland is an exocrine organ that secretes into the oviduct of Aplysia californica and expresses three homologous genes belonging to the egglaying hormone gene family. Although post-translational processing of the egg-laying hormone precursor in the neuroendocrine bag cells has been examined in detail, relatively little is known about the post-translational processing of egg-laying hormone-related gene products in the atrial gland. A combination of morphologic techniques that included light-microscopic histology and immunocytochemistry, transmission electron microscopy, and immuno-electron microscopy were used to localize egg-laying hormone-related peptides in the atrial gland and to evaluate the characteristic morphology of their secretory cells. Results of these studies showed that there were at least three major types of secretory cells in the atrial gland (types 1–3). Significantly, of these three cell types, only type 1 was immunoreactive to antisera against egg-laying hormone-related precursor peptides. The immunoreactivity studies established that all three egg-laying hormone-related precursor genes are expressed in type-1 cells and indicated that the processing of these precursors also occurs within the secretory granules of this cell type. Evidence was also obtained that proteolytic processing of the egg-laying hormone-related precursors differed significantly from that observed in the bag cells. In contrast to the bag cells, the NH₂-terminal and COOH-terminal products of the egg-laying hormone-related precursors of the atrial gland were not sorted into different types of vesicles.     

Demonstration of insulin-related substances in the central nervous systems of pulmonates and Aplysia californica

Summary the occurrence of insulin-related substances in the central nervous system of pulmonates and Aplysia californica was investigated by means of immunocytochemistry and in situ hybridization. Previous experiments have shown that, in Lymnaea stagnalis, the growth hormone-producing neurons in the cerebral ganglia (the so-called light green cells) express at least 5 genes that are related to the vertebrate insulin genes, i.e., they encode prohormones that are composed of a B- and A-chain and a connecting C peptide. These insulin related molecules also have the amino acids essential for their tertiary structure (viz. cysteines) at identical positions to those of the vertebrate insulins. In the investigated basommatophoran and stylommatophoran snails and slugs, neurons reacted with an antiserum raised against the C peptide of one of the molluscan insulin-related peptides. These neurons can be considered to be, based on morphological and endocrinological criteria, homologous to the light green cells of L. stagnalis. In A. californica, all central ganglia contain immunoreactive neurons. The highest number (about 50) was observed in the abdominal ganglion. The present results indicate that insulin-related substances are generally occurring neuropeptides in the central nervous system of molluscs.     

The morphology,innervation and neural control of the anterior arterial system of Aplysia californica

Summary The morphology, innervation, and neural control of the anterior arterial system of Aplysia californica were investigated. Immunocytochemical and histochemical techniques generated positive reactions in the anterior arterial system for several neuroactive substances, including SCP_B, FMRFamide, R151 peptide, dopamine and serotonin. Three neurons were found to innervate the rostral portions of the anterior arterial tree. One is the identified peptidergic neuron R15 in the abdominal ganglion, and the other two are a pair of previously unidentified neurons, one in each pedal ganglion, named pedal arterial shorteners (P_AS)- The endogeneously bursting neuron R15 was found to innervate the proximal anterior aorta. It also innervates a branch of the distal anterior aorta, the left pedal-parapodial artery. Activity in R15 causes constriction of the left pedal-parapodial artery. This effect is presumed to direct hemolymph towards the genital groove and penis on the right side in vivo. This vasoconstrictor action of R15 is mimicked by the R151 peptide. The P_AS neuron pair causes longitudinal contraction of the rostral anterior aorta and the pedal-parapodial arteries. In vivo, the pair is active during behaviors involving head withdrawal and turning. By adjusting the length of the arteries during postural changes, the P_AS neurons may prevent disturbances in blood flow due to bending or kinking of the arterial walls.     

Multiple factors promoting narrow host range in the sea hare,Aplysia californica

Summary Juvenile sea hares, Aplysia californica, utilize only the red algae Plocamium cartilagineum and Laurencia pacifica as host plants at Santa Catalina Island, CA. I tested three hypotheses which might account for this pattern of host choice: 1) A. californica specialize on the algae on which they grow best, 2) A. california specialize on algae from which they acquire secondary compounds that protect them from predators, and 3) A. californica specialize on certain algae in order to lower their encounter rates with predators. The results suggested that host range in the Aplysia californica system is affected by more than one factor. The first hypothesis was supported. A. californica of three size classes grew well on Plocamium, but could not grow at all on most other species of algae. Larger A. californica were able to grow on species of algae that smaller ones could not. The second hypothesis was also supported. Small A. californica grown on Plocamium were rich in terpenes. Small A. californica grown on Ulva sp. were terpene-free. Rock wrasses, Halichoeres semicinctus, were more likely to eat Ulva-fed A. californica than Plocamium-fed A. californica. Other fish and lobster, Panulirus interruptus, did not discriminate between the two groups. Kelp bass, Paralabrax clathratus, which were force-fed Ulva-fed A. californica regurgitated them less often, and after digesting them more completely, than did Paralabrax force-fed Plocamium-fed A. californica. The third hypothesis was rejected. A. californica located on Plocamium were not more cryptic to the opisthobranch Aglaja inermis (navanax), or to the pomacentrid fish, Hypsypops rubicundus, than were A. californica located on other algae. In addition, navanax, a specialist predator of opisthobranchs, was significantly more abundant on Plocamium than on other algae.     

Isolation of an egg-laying hormone-binding protein from the gonad of Aplysia californica and its localization in oocytes

A protein solubilized from a membrane preparation of the gonad of Aplysia californica has been isolated by affinity chromatography, using bag cell egg-laying hormone (ELH) as the bound ligand, and partially purified and characterized by gel electrophoresis. The protein has an apparent molecular weight of 52 kDa and consists of two disulfide-linked subunits of about 30 kDa each. The protein is glycosylated and has an acidic pI. Approximately 10–15 g of this protein can be isolated from a single ovotestis, representing less than 1% of the total protein in the gonad; but the protein could not be detected in buccal mass or body wall, tissues which do not have apparent response to ELH.Antibodies generated against this ELH-binding protein (ELHBP) were used to localize sites in the ovotestis which might contain this molecule and thus represent targets for egg-laying hormone. Immunocytochemical results indicate that the oocytes are a rich source of this protein, since their cytoplasm was the only detectable site of immunoreactivity.Whether this binding protein represents an egg-laying hormone receptor is uncertain, but its prevalence in oocytes suggests that ELH plays a signaling role on these gametes.Abbreviations ConA convalin A - DAB diaminobenzidine - ELH egg-laying hormone - ELHBP ELH-binding protein - IEF isoelectric focusing - IGFR insulin-like growth factor - IgG immunoglobulin - NGS normal goat serum - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecylsulfate     

cDNA Sequence, Protein Structure, and Evolution of the Single Hemocyanin from Aplysia californica, an Opisthobranch Gastropod

By protein immunobiochemistry and cDNA sequencing, we have found only a single hemocyanin polypeptide in an opisthobranch gastropod, the sea hare Aplysia californica, which contrasts with previously studied prosobranch gastropods, which express two distinct isoforms of this extracellular respiratory protein. We have cloned and sequenced the cDNA encoding the complete polypeptide of Aplysia californica hemocyanin (AcH). The cDNA comprises 11,433 bp, encompassing a 5UTR of 77 bp, a 3UTR of 1057 bp, and an open reading frame for a signal peptide of 20 amino acids plus a polypeptide of 3412 amino acids (M_r ca. 387 kDa). This polypeptide is the subunit of the cylindrical native hemocyanin (M_r ca. 8 MDa). It comprises eight different functional units (FUs: a, b, c, d, e, f, g, h) that have been identified immunobiochemically after limited proteolysis of AcH purified from the hemolymph. Each FU shows a highly conserved copper-A and copper-B site for reversible oxygen binding. FU AcH-h carries a specific C-terminal extension of ca. 100 amino acids that include two cysteines that may be utilized for disulfide bridge formation. Potential N-glycosylation sites are present in six FUs but lacking in AcH-b and AcH-c. On the basis of multiple sequence alignments, phylogenetic trees and a statistically firm molecular clock were calculated. The latter suggests that the last common ancestor of Haliotis and Aplysia lived 373±47 million years ago, in convincing agreement with fossil records from the early Devonian. However, the gene duplication yielding the two distinct hemocyanin isoforms found today in Haliotis tuberculata occurred 343±43 million years ago.[Reviewing Editor: Dr. Axel Meyer]The sequence reported in this paper has been deposited in the GenBank database under accession number AJ556169.     

Characterization of Neuronal Protein Phosphatases in Aplysia californica

Biochemical properties of neuronal protein phosphatases from Aplysia californica were characterized. Dephosphorylation of phosphorylase alpha by extracts of abdominal ganglia and clusters of sensory neurons from pleural ganglia was demonstrated. Type-1 protein phosphatase (PrP-1) was identified in these extracts by the dephosphorylation of the beta-subunit of phosphorylase kinase and its inhibition by the protein, inhibitor-2. Type-2A protein phosphatase (PrP-2A) was demonstrated by the dephosphorylation of the alpha-subunit of phosphorylase kinase, which was insensitive to inhibitor-2. As in vertebrate tissues, only four enzymes, PrP-1 (47%), PrP-2A (42%), PrP-2B (11%), and PrP-2C (less than 1%), accounted for all the cellular protein phosphatase activity dephosphorylating phosphorylase kinase. Aplysia PrP-1 and PrP-2A were potently inhibited by okadaic acid, with PrP-1 being approximately 20-fold more sensitive than PrP-2A. By comparison, purified PrP-2A from rabbit skeletal muscle was 15- to 20-fold more sensitive to okadaic acid than PrP-1 from the same source. Only PrP-1 was associated with the particulate fractions from Aplysia neurons, whereas PrP-1 and PrP-2A, -2B, and -2C were all present in the cytosol. Extraction of the particulate PrP-1 decreased its sensitivity to okadaic acid by sixfold, suggesting that cellular factor(s) affect its sensitivity to this inhibitor. In most respects, protein phosphatases from Aplysia neurons resemble their mammalian counterparts, and their biochemical characterization sets the stage for examining the role of these enzymes in neuronal plasticity, and in learning and memory.     

Peptidergic motoneurons in the buccal ganglia of Aplysia californica Immunocytochemical,morphological, and physiological characterizations

Summary We used physiological recordings, intracellular dye injections and immunocytochemistry to further identify and characterize neurons in the buccal ganglia of Aplysia calif ornica expressing Small Cardioactive Peptide-like immunoreactivity (SCP-LI). Neurons were identified based upon soma size and position, input from premotor cells B4 and B5, axonal projections, muscle innervation patterns, and neuromuscular synaptic properties. SCP-LI was observed in several large ventral neurons including B6, B7, B9, B10, and B11, groups of s1 and s2 cluster cells, at least one cell located at a branch point of buccal nerve n2, and the previously characterized neurons B1, B2 and B15.B6, B7, B9, B10 and B11 are motoneurons to intrinsic muscles of the buccal mass, each displaying a unique innervation pattern and neuromuscular plasticity. Combined, these motoneurons innervate all major intrinsic buccal muscles (I1/I3, I2, I4, I5, I6). Correspondingly, SCP-LI processes were observed on all of these muscles. Innervation of multiple nonhomologous buccal muscles by individual motoneurons having extremely plastic neuromuscular synapses, represents a unique form of neuromuscular organization which is prevalent in this system. Our results show numerous SCPergic buccal motoneurons with widespread ganglionic processes and buccal muscle innervation, and support extensive use of SCPs in the control of feeding musculature.Abbreviations SCP-LI small cardioactive peptide-like immunoreactivity - PSC postsynaptic current - EPSP excitatory postsynaptic potential - IPSP inhibitory postsynaptic potential - FI facilitation index - TMR time to maximal response     

Neurogenesis of cephalic sensory organs of <Emphasis Type=Italic>Aplysia californica</Emphasis>

The opisthobranch gastropod Aplysia californica serves as a model organism in experimental neurobiology because of its simple and well-known nervous system. However, its nervous periphery has been less intensely studied. We have reconstructed the ontogeny of the cephalic sensory organs (labial tentacles, rhinophores, and lip) of planktonic, metamorphic, and juvenile developmental stages. FMRFamide and serotonergic expression patterns have been examined by immunocytochemistry in conjunction with epifluorescence and confocal laser scanning microscopy. We have also applied scanning electron microscopy to analyze the ciliary distribution of these sensory epithelia. Labial tentacles and the lip develop during metamorphosis, whereas rhinophores appear significantly later, in stage 10 juveniles. Our study has revealed immunoreactivity against FMRFamides and serotonin in all major nerves. The common labial nerve develops first, followed by the labial tentacle base nerve, oral nerve, and rhinophoral nerve. We have also identified previously undescribed neuronal pathways and other FMRFamide-like-immunoreactive neuronal elements, such as peripheral ganglia and glomerulus-like structures, and two groups of conspicuous transient FMRFamide-like cell somata. We have further found two distinct populations of FMRFamide-positive cell somata located both subepidermally and in the inner regions of the cephalic sensory organs in juveniles. The latter population partly consists of sensory cells, suggesting an involvement of FMRFamide-like peptides in the modulation of peripheral sensory processes. This study is the first concerning the neurogenesis of cephalic sensory organs in A. californica and may serve as a basis for future studies of neuronal elements in gastropod molluscs. This work was supported by the German Science Foundation (DFG; Kl 1303/3-1 to A.K.K.), SYNTHESYS (DK-TAF-202 to T.W.), the German Academic Exchange Service (DAAD to T.W.), the Danish Natural Science Research Council (FNU; grants 21-04-0356 and 272-05-0174 to A.W.), and the Carlsberg Foundation (grant 2005-1-249 to A.W.).     

Immunocytochemical localization of neurotensin-containing neurons in the hypothalamus of the japanese quail,Coturnix coturnix japonica

Summary The hypothalamus of Japanese quail, Coturnix coturnix japonica, has been studied by means of the peroxidase-antiperoxidase immunocytochemical method, with the use of antibodies to synthetic neurotensin (NT). A number of immunoreactive neuronal perikarya occur in the medial preoptic nucleus of the rostral hypothalamus and a few in the accessory part of paraventricular nucleus and dorsal portion of the infundibular nucleus. Some of them correspond to the parvocellular neurons previously identified tentatively as neurosecretory (Mikami et al. 1975, 1976). Large numbers of immunoreactive neuronal fibers are found in the preoptic area, which extend as a remarkable fiber tract from this area to the ventral septal area and to the subfornical organ. A few immunoreactive fibers also extend ventrocaudally to the infundibular nucleus and to the neural lobe.This investigation was supported by Scientific Research Grants No. 556196 and No. 576176 from the Ministry of Education of Japan to Professor Mikami and Mr. Yamada     

FMRFamide is endogenous to the Aplysia heart

The presence of the molluscan neuropeptide FMRFamide was investigated in the heart of the sea hare, Aplysia californica. Immunohistochemical localization and high performance liquid chromatography (HPLC) coupled with radioimmunoassays of HPLC fractions were used to demonstrate the presence of FMRFamide and FLRFamide in the heart. FMRFamide-immunoreactive (FMRFamide-IR) nerve fibers, varicosities, and neuronal somata were observed in whole-mounts of the hearts. The atrium and atrioventricular (AV) valve regions contained significantly higher densities (P<0.05, ANOVA) of immunoreactive varicosities compared to the ventricle. The high density of FMRF-amide-IR varicosities in the atrium and the lack of sensitivity of this region to FMRFamide suggest that the atrium may be a neurohemal organ for the release of FMRF-amide. The presence of FMRFamide-IR somata in the Aplysia heart suggests that peripheral neurons may play a role in modifying heart activity, independent of the central nervous system.This work was supported by California State University, Fullerton intramural grants and NIH grant NS29750 to J.K.O., Departmental Associations Council student research grants to L.L.H., and NIH grant HL08371 to W.L.     

Immunocytochemical localization of histamine in flatworms

Summary Specific antibodies against histamine were used to demonstrate the occurrence and cellular distribution of histamine-like immunoreactivity in three species of flatworms (phylum Platyhelminthes). In the parasitic cestode Diphyllobothrium dendriticum, histamine-reactivity was found in neurons of the main nerve cords, and in cells lining the central and peripheral excretory ducts. In the free-living microturbellarian Microstomum lineare and in the planarian Polycelis nigra, histamine-immuno-reactivity was restricted to cells and fibres of the nervous system. The occurrence of histamine or a related substance in the nervous system of flatworms, which represent primary bilateria, indicates the importance of this neuroactive substance in the animal kingdom.     

Immunocytochemical localization of a calcium-binding protein in the rat duodenum

Summary The cellular localization of the vitamin D-dependent calcium-binding protein (CaBP) in the duodenum of rat was studied using indirect immunofluorescence and immunoperoxidase staining methods. Specific positive reaction product, indicative of the presence of CaBP, was exclusively located within the villous part of the duodenal mucosa. Moreover, CaBP was detected mainly within the supranuclear region of the cytoplasm of absorptive cells and also at the level of their basal laminae. CaBP was not demonstrable either in the nuclei or associated with the brush border membrane of absorptive cells. Also, CaBP was neither detectable in goblet cells nor in sub-epithelial layers. When the specific anti-CaBP antiserum was replaced by nonimmune rabbit serum or when it was preabsorbed on a CaBP-Sepharose conjugate, no positive immunostaining was seen. Together with recent biochemical data our observations agree well with the view that CaBP may act as an intracellular buffer by protecting the cell against too high Ca²⁺ concentrations.     

Immunohistochemical localization and radioenzymatic measurements of serotonin (5-hydroxytryptamine) in hearts of Aplysia and several bivalve mollusks

Summary Serotonin immunoreactivity was localized in hearts of the opisthobranch gastropod, Aplysia californica (sca hare) and several species of bivalve mollusks, the heterodonts, Mercenaria mercenaria (quahog or cherry stone clam), Protothaca staminea (little neck clam), and the pteriomorphs, Hinnites multirugosus (rock scallop), Crassostrea virginica (eastern oyster), Mytilus edulis (eastern mussel), and Geukensia demissa (ribbed mussel). In addition, serotonin was assayed in the ventricles, auricles and heart-associated tissues in A. californica, M. mercenaria, H. multirugosus, and G. demissa with a sensitive radioenzymatic assay. Serotonin concentrations and the density of innervation were significantly higher in members of the subclass Heterodonta compared to the subclass Pteriomorpha. Serotonin immunoreactivity was observed in all species surveyed except G. demissa, which also contained relatively low concentrations of serotonin. Varicose fibers presumably corresponding to release sites were localized in the ventricles, auricles, and the auricular-ventricular valves. We hypothesize that in the species where serotonin-immunoreactive fibers are present, serotonin serves to modulate cardiac myogenic activity. The significance of the observed distribution and concentration of serotonin to the physiological effects of serotonin on cardiac function in these species is discussed.     

Immunocytochemical localization of a substance in the eyestalk of the prawn,Palaemon serratus,reactive with an anti-FMRF-amide rabbit serum

Summary By use of a specific antiserum against the molluscan cardio-excitatory tetrapeptide FMRF-amide in combination with the PAP-method it was possible to obtain positive immunocytochemical reactions in several neurosecretory regions of the eyestalk of the prawn Palaemon serratus. FMRF-amide-like material was found in perikarya and nerve fibers of the medulla terminalis and in neurons in the lamina ganglionaris. The immunoreactivity observed in the glandular tissue located at the basal insertion of the eyestalk muscles must be ascribed to a non-specific reaction. The identification of immunopositive nerve fibers, ending on a nerve bundle in the medulla terminalis, and the fact that immunoreactive material was absent in the neurohemal sinus gland seem to indicate a neurotransmitter/neuromodulator function.     

Immunocytochemical localization of somatostatin-containing neurons in the rat hypothalamus

Summary The rat hypothalamus was studied at the light microscopic level with the use of single and double immunocytochemical staining methods. It was shown that the rat supraoptic and paraventricular hypothalamic nuclei, and their accessory neurosecretory nuclei, do not contain magnocellular somatostatin neurons. The distribution of the hypothalamic parvocellular somatostatin cells is described. The parvocellular component of the rat hypothalamic paraventricular nucleus is, at least partly, composed of somatostatin cells: they form a fairly well circumscribed periventricular cell mass. The rat suprachiasmatic nuclei contain separate somatostatin neurons and vasopressin neurons. Scattered somatostatin cells are present in the entire arcuate nucleus. In addition to the periventricular somatostatin cells located in the preopticanterior hypothalamic area and in the arcuate nucleus, the rat hypothalamus also contains numerous scattered somatostatin cells located distant from the third ventricle.This investigation was supported by a grant from the Belgian Nationaal Fonds voor Geneeskundig Wetenschappelijk Onderzoek     

Immunocytochemical localization of methyl-coenzyme M reductase in Methanobacterium thermoautotrophicum

Cells of Methanobacterium thermoautotrophicum were fixed with glutaraldehyde, sectioned and labeled with antibodies against the subunit of component C (=methyl-CoM reductase) of methyl-CoM reductase system and with colloidal gold-labeled protein A. It was found that the gold particles were located predominantly in the vicinity of the cytoplasmic membrane, when the cells were grown under conditions where methyl-CoM reductase was not overproduced. This finding confirms the recent data obtained with Methanococcus voltae showing via the same immunocytochemical localization technique that in this organism methyl-CoM reductase is membrane associated.