Tachykinin-like immunoreactivity in the sinus venosus of the dogfish (Scyliorhinus canicula)

The sinus venosus of the elasmobranch heart is characterized by the presence of large bundles of unmyelinated nerve fibres that bulge into the cardiac lumen, below the endocardium. In the dogfish (Scyliorhinus canicula), these fibres contain numerous dense-core membrane-bounded granules of about 200 nm in diameter. Most intramural ganglion cells of the sinus venosus also show densely packed granules similar to those found in the subendocardial fibres. We have observed strong substance-P-like immunoreactivity in the large fibre bundles and in the perikarya of the ganglion cells. Preabsorption of the antisera with fragment 7–11 of substance P has shown that the antisera recognize the tachykinin canonic sequence. Our findings suggest that an undetermined tachykinin is secreted in the elasmobranch heart, and that it is probably released into the blood stream in the context of a little-known neuroendocrine system.     

The structure and ultrastructure of the sinus venosus in the mature dogfish (Scyliorhinus canicula): the endocardium, the epicardium and the subepicardial space

The sinus venosus of fish is the most caudal chamber of the heart. It is often reduced in teleosts but well developed in elasmobranchs. The sinus venosus of the dogfish (Scyliorhinus canicula) is vital, since it harbours key elements such as a little known neuroendocrine system and the nodal tissue. However, the study of its structure is still incomplete. We examined the endocardium, epicardium and subepicardium of the sinus venosus in mature dogfishes. The wall is 100-250 microm thick and comprises three main layers. Large bundles of myocardial cells occupy the middle layer. The endothelial ensheathing is composed of thin endocardial cells with prominent nuclei towards the lumen, whose cytoplasm contains numerous dense bodies and moderately dense bodies, 150-800 nm in diameter and large vacuoles. The possible functions of these organelles are discussed. The outermost layer is made of a robust sheet of cuboidal epicardial cells separated from the subepicardium by a conspicuous basal lamina. Numerous microvilli towards the pericardial cavity and elliptical vesicles are located in the apex of epicardial cells. A thick layer richly endowed with dense bundles of collagen fibres forms the subepicardial space. This structure should be contrasted with the venous return mechanism of elasmobranchs.     

The functional anatomy of the gills of the dogfish (Scyliorhinus canicula)

Vascular casting techniques combined with scanning electron microscopy of fixed tissue have been used to describe the vascular anatomy of the gills of the dogfish ( Scyliorhinus canicula ). Two distinct blood pathways were revealed: a 'respiratory' blood pathway which conveys deoxygenated blood from the heart to the gas exchange surface of the gills and then carries oxygenated blood away to the systemic circulation, and a 'non-respiratory' blood pathway which interconnects with the respiratory blood pathway and which diverts blood into the venous drainage from the gills.
The physiological function of this complex circulation in the gills of elasmobranchs is discussed in terms of both the osmotic constraints upon the animal, and the possible control of blood flow.     

Primary structure of glucagon from the gut of the common dogfish (Scyliorhinus canicula)

The primary structure of glucagon isolated from the intestine of the common dogfish, Scyliorhinus canicula, was established as H S E G T F T S D Y S K Y M D N R R A K D F V Q W L M N T. The peptide shows four substitutions compared with human glucagon: Glu-3 for Gln, Met-14 for Leu, Asn-16 for Ser and Lys-20 for Gln. Glucagon represented the predominant molecular form of the glucagon-like immunoreactivity in the dogfish gut extracts demonstrating that the pathway of posttranslational processing of proglucagon in the gut of this fish differs markedly from the pathway in the mammalian gut.     

Isolation of brush border membranes in vesicular form from the intestinal spiral valve of the small dogfish (Scyliorhinus canicula)

A simple, rapid method for the preparation of purified brush border membranes in vesicular form from rabbit kidney proximal tubules has been applied with closely similar results to the intestinal spiral valve of the small dogfish (Scyliorhinus canicula). Since the dogfish belongs to one of the most ancient species of fish, it may be suggested that the method is generally applicable to all species later evolved which possess a brush border membrane at the mucosal surface of the cells of the intestine or kidney.     

The developmental expression of foxl2 in the dogfish Scyliorhinus canicula

The FoxL2 genes are a subfamily of the Fox (forkhead box) gene family. FOXL2 is mutated in the disorder Blepharophimosis, Ptosis, and Epicanthus Inversus Syndrome (BPES), which is characterized by eyelid malformations, and Premature Ovarian Failure (POF). In the mouse expression is seen in the perioptic mesenchyme, developing eyelids, ovary and pituitary. We have isolated a foxl2 cDNA from the dogfish Scyliorhinus canicula (also known as the lesser spotted catshark), allowing the characterisation of this gene's sequence and expression from a lineage that diverged early in the evolution of gnathostomes. Molecular phylogenetic analysis strongly grouped this sequence with the gnathostomes within the FoxL2 subfamily. We demonstrate the early expression of Scyliorhinus canicula foxl2 in the mandibular head mesoderm and later in continuous populations of mandibular arch cells and mandibular head mesenchyme cells around the developing pituitary. As development proceeds expression decreases in the mesenchyme of the head but is seen in the mesenchyme around the eye and later in the developing eyelids. Additionally expression is seen in regions of pharyngeal arch mesoderm and in ectoderm from which gill buds will form. This expression is maintained in the developing and elongating gill buds. Thus, S. canicula foxl2 is a marker for the mandibular mesoderm and gill buds and its expression is conserved in the perioptic mesenchyme, developing eyelids and pituitary.     

Characterization of a chymosin-like pepsin from the dogfish Scyliorhinus canicula

1. Pepsin II extracted from the gastric mucosa of Scyliorhinus canicula has been characterized and compared to calf chymosin. 2. The kcat and Km of the dogfish enzyme for the synthetic hexapeptide Leu-Ser-Phe(NO2)-Nle-Ala-Leu-OMe have been determined. The kcat/Km ratio is close to that of calf chymosin. Its milk-clotting efficiency is however 21-fold lower than that of calf chymosin. 3. The proteolytic activity against haemoglobin is optimal at pH 2.5. It clots the milk up to pH 6.8. 4. The dogfish pepsin II shows relatively better activity at low temperatures than calf chymosin.     

Electrophoretic study of the caseinolytic activity of a pepsin from the dogfish Scyliorhinus canicula

Electrophoretic patterns of casein and casein subfractions were studied following proteolysis by dogfish pepsin II or calf chymosin. Both enzymes hydrolyze the kappa casein subfraction with the production of kappa paracasein peptide. alpha S1 and beta subfractions hydrolysis is stronger with dogfish enzyme than with chymosin. It is concluded that, despite a broader specificity, the activity spectrum of dogfish enzyme is, in many respects, similar to that of calf chymosin.     

Studies on the reticulo-endothelial system of the dogfish,Scyliorhinus canicula

Summary Clearance and subsequent localisation of a range of materials, including colloidal carbon, latex beads, sheep erythrocytes, bacteria and dextran were followed in the lesser spotted dogfish, Scyliorhinus canicula. It was found that two populations of peripheral blood leucocytes — monocytes and thrombocytes, but not granulocytes — were involved in clearance of the circulation. In the case of carbon, this material was cleared from the plasma after 12 h, and both the colloid-containing thrombocytes and monocytes disappeared from circulation by 8 weeks post injection. Upon injection of some of the materials, and particularly bacteria, a settling out of monocytes containing phagocytosed material was seen in the secondary lamellae and cavernous bodies of the gills. Large clumps of monocytes were found in the gills as early as 30 min post injection and these increased in size for up to one week, after which they gradually dispersed. The lining cells of the cavernous body, known as CB cells, were also responsible for the sequestration of carbon, latex beads and probably erythrocytes, but dextran and bacteria were not internalised. The origin, functions and phylogenetic significance of the CB cells are discussed.     

Dissociation and identification of intact seminiferous lobules from the testis of the dogfish (Scyliorhinus canicula)

Summary An enzymatic method was developed to obtain intact seminiferous lobules from the testis of the dogfish (Scyliorhinus canicula L.). The freshly isolated lobules were then identified by use of a transillumination technique. Testes from mature dogfish were collected and transverse sections incubated with a mixture of collagenase (0.025%) + pronase (0.08%) at 4° C overnight. Dissociation of the tissue was achieved by mechanical agitation in a calcium and magnesium-free buffer (pH 7.8; 870 mOsm) at room temperature, for 30 min. Based on differences in light absorption and size as well as on comparison with the corresponding histological and ultrastructural cell composition, the seminiferous lobules were identified and classified according to the stages of spermatogenesis of Mellinger (1965). The characteristic changes take place in the size and surface of the lobules and are mainly due to differences in the arrangement of the germ cells, in their number, and in the light absorption characteristics of their nuclei. The combination of the procedures of isolation and transillumination of the dogfish seminiferous lobules, in native condition, offers an original method for the study of germ cell-Sertoli cell interactions in the non-mammalian vertebrate.     

Immunohistochemical mapping of galanin-like immunoreactivity in the brain of the dogfish Scyliorhinus canicula.

The distribution of galanin-like immunoreactivity in the brain of the dogfish Scyliorhinus canicula was investigated using the indirect immunofluorescence technique. In the telencephalon, positive cells and fibers were located in the mid-caudal part of the area superficialis basalis, the n. septi caudoventralis and in the n. interstitialis commissurae anterioris. Most of the galanin-containing neurons observed in the hypothalamus were located in the magnocellular preoptic nucleus. Positive perikarya were also found in the n. lobi lateralis hypothalami and in the n. lateralis tuberis. A dense network of positive nerve processes was noted in the caudal part of the median eminence. In the dorso-caudal part of the diencephalon numerous immunoreactive neurons were seen in the recessus posterioris. A large bundle of galanin-containing fibers, which divided in two branches, was observed in the basal midbrain tegmentum. The widespread distribution of galanin-like material suggests that, in the dogfish, galanin may be involved in various brain functions including neuroendocrine regulations.     

Structural studies on the thymus of the dogfish, Scyliorhinus canicula L.

Histological and ultrastructural studies of the thymus of the dogfish, Scyliorhinus canicula L., revealed paired lobular masses above the first two gill arches of embryonic and newly hatched dogfish, involuting at approximately 3 weeks. It did not have defined cortex and medullary regions and ultrastructural investigations showed the tissue to be composed mainly of a range of different sized lymphocytes within a connective tissue capsule and reticular epithelial cell framework. Lymphoblasts often in mitosis were also present being more electron lucent and larger than lymphocytes. Macrophages contained cellular debris and frequently whole small lymphocytes. A cell with cytoplasmic granules was occasionally observed.     

Proteomic analysis of the spermatogonial stem cell compartment in dogfish Scyliorhinus canicula L

In the dogfish (Scyliorhinus canicula L.) the testicular germinative zone (GZ), composed of large isolated spermatogonia surrounded by elongating pre-Sertoli cells, is located between the albuginea and the ventrolateral intratesticular vessel. During the spermatogenic wave, cysts radiate in maturational order forming distinct testicular zones. In this study, soluble proteins of the GZ and of the zone containing cysts with spermatocytes were separated by two-dimensional electrophoresis. Gel images were matched and then evaluated for GZ-specific proteins. From the1400 protein spots identified, 680 were found to be apparently specific to this zone. Using MALDI-TOF/TOF mass spectrometry, de novo sequences were obtained for 33 proteins out of the 169 selected for identification by mass spectrometry, but only 16 of these 169 proteins were identified. One of them, proteasome subunit alpha-6, was analyzed further by immunohistochemistry. This study demonstrates the utility of the dogfish as a model for proteome analysis of the spermatogonial stem cell niche, even if it remains restricted by the lack of genomic data available on Elasmobranchs.     

Preliminary studies on trypanospmes from the dogfish, Scyliorhinus canicula L.

In a sample of 83 dogfish, Scyliorhinus canicula , 30% were found to be infected with trypanosomes during the summer of 1981 at Plymouth. Infected fish were over 53.0 cm total length and slightly anaemic, reflected in a 4.6% reduction in circulating erythrocytes with a small (0.6%) increase in leucocytes. Individual differences in serum proteins did not correlate with infection, although spleens from infected fish showed lymphoid aggregations around blood vessels. Parasitaemias were consistently low, ranging between 1.5×l0³ and 6.O×10³ml⁻¹. No dividing forms were found in the peripheral blood or lymphomyeloid tissues, although two size forms were found in the peripheral blood. The trypanosome, Trypanosoma scyllii , is described from living and stained preparations and has been successfully maintained in laboratory culture.     

Identification of peripheral blood leucocytes of the dogfish (Scyliorhinus canicula L.) by electron microscopy

Dogfish peripheral blood leucocytes were examined by electron microscopy after the injection of colloidal carbon. The cells were classified as lymphocytes, plasma cells, monocytes, thrombocytes and granulocytes. The granulocytes were further classified into four types according to the structure of their granules. Monocytes, thrombocytes and two types of the granulocytic cells were phagocytic.     

Endocardial pores in the sinus venosus and atrium of the dogfish

A scanning electron microscopy study showed the presence of large pores in the endocardium of the sinus venosus of the dogfish Scyliorhinus canicula. The pores were always found on large bundles which protruded into the cardiac lumen. The bundles were mainly constituted of granule-containing nerve fibres. The average diameter of the pores was 3.2 μm (range=1.5-5.0μm), and their density, was about 822 pores mm⁻². Endocardial pores were absent in other areas of the sinus venosus, but they were observed on the little bundles of granulated nerve fibres which were scattered throughout the atrium. The existence of large endocardial pores associated with bundles of granulated nerve fibres supports the hypothesis for the neuroendocrine nature of the elasmobranch sinus venosus wall.