Some observations on the collagen fibrils of the egg capsule of the dogfish, Scyliorhinus canicula

The egg capsule of the dogfish Scyliorhinus canicula is a collagenous material with a laminated, plywood (orthogonal) construction. The collagen fibrils which constitute the bulk of the egg capsule wall have a unique, highly ordered structure (Knight and Hunt, 1974; 1976, 1986; Gathercole et al., 1993) which is thought to represent a smectic A liquid crystalline phase (Knight et al., 1993). The egg capsule is extremely strong and chemically inert (Hunt, 1985). It is stored, secreted and formed by the nidamental gland (Rusaou?n 1976, 1990 a, b; Knight and Feng, 1992). During intracellular storage, secretion and fibrillogenesis, the dogfish egg capsule collagen appears to pass through a remarkable series of textures within a lyotropic liquid crystalline phase diagram (Knight et al., 1993). In the present communication, further observations on the ultrastructure of the collagen fibrils and their arrangement within the laminae of the fully-formed egg capsule are reported. The effect of tilting ultrathin sections of fibrils in the goniometer stage of a transmission electron microscope are described, demonstrating that the crystalline lattice within the fibril appeared twisted more or less regularly into a long pitch helix. Other observations indicated that some of the fibrils were in turn twisted round one another to form fibres which therefore had a coiled-coil structure. The fibres are arranged parallel to one another in the laminae which are stacked to give an orthogonal plywood construction. The effects of staining fibrils with cuprolinic blue and with tannic acid are reported. Reduction in the water content of the fibrils before fixation appeared to move some of the fibrils through the part of the lyotropic phase transition diagram converting them from smectic A to smectic C. Finally, evidence is presented that the fibrils shrank, but remarkably, still retained a longitudinally-ordered but modified, molecular arrangement even after boiling in water for periods of up to 10 min. These observations are discussed in relation to other collagens.     

A radioautographic study of collagen secretion in the dogfish nidamental gland

Optical microscope and ultrastructural autoradiography have been used to localise the sites of collagen secretion in the gland zones, and track its cellular synthesis and mode of cellular secretion. Optical microscope observation has been done after (3)H proline injection into the gland. Untrastructural study has been achieved after applying the incubation method. Optical microscope study has demonstrated that all the gland zones were involved in the secretion of the collageneous protein, though some of them (the D zone and lamellae) secrete more collagen than the others. The ultrastructural study demonstrates that the forms of secretion are numerous: various-looking grains, whose elaboration follows the path of vertebrate collagen produced by fibroblasts, or grains whose only source is rER. The protein periodicity which is observed in the mature capsule (37 nm) is acquired only outside the cells, in the tubular or glandular lumen. It is possible that two types of collagen are secreted by the gland, the first forming the major part of the capsule wall, the other contributing to the plugs sealing the slits of dehiscence.     

Interaction of collagen with hydrophobic protein granules in the egg capsule of the dogfish scyliorhinus canicula

The egg capsule of the dogfish is a composite material containing collagenous fibrils and 2 mum spherical hydrophobic protein granules. The latter appear to owe much of their hydrophobicity to an exceptionally high tyrosine content (approximately 20% of total amino acid residues). The hydrophobic component appears to form as an emulsion in the secretory granules of the D and E zone gland cells of the nidamental gland. Droplets of the hydrophobic material appear to become coated with remarkably regular layers of radially-arranged collagen molecules which form a series of concentric, evenly spaced layers around each hydrophobic granule. Numerous disclinations were seen where the layers around adjacent granules interfered with one another. The layers are thought to represent a lamellar liquid crystalline phase previously described for this collagen (Knight et al., 1993). The fine structural appearance of the concentric layers and evidence for radial arrangement of collagen molecules within them is compatible with the suggestion that the layers are built from a dumbbell-shaped unit approximately 35 nm long with hydrophobic groups concentrated at the ends. This unit may represent a dumbbell-shaped molecule or an oligomer of two or more molecules lying parallel with one another in a head-to-tail arrangement. Such a unit can be readily incorporated into models for the micellar, hexagonal columnar and final fibrillar phases previously described for this collagen (Knight et al., 1993). Evidence from the TEM study of stretched egg capsule wall suggests that there is a mechanical interaction between the hydrophobic granules and the collagen fibrils in the fully formed material. We suggest that the radial, concentric layered arrangement of collagen molecules is established by hydrophobic interactions within the liquid crystalline material and locked into place by oxidative covalent cross-linking to give a 3-dimensional cross-linked meshwork of collagen fibrils and hydrophobic granules. The latter arrangement helps to account for the high tensilestrength and toughness of this material.     

A sensitive fluorometric assay for protein-bound DOPA and related products of radical-mediated protein oxidation

Oxidative attack on proteins results in the hydroxylation of tyrosyl residues to protein-bound DOPA (3,4-dihydroxyphenylalanine). Existing methods for assaying protein-bound DOPA have poor sensitivity and numerous possible interferences, such that accurate determination (especially of very low DOPA concentrations) has required time-consuming acid hydrolysis and HPLC analysis with fluorometric detection. This work presents a sensitive and selective assay for peptide or protein-bound o-benzoquinones derived from DOPA based on fluorometric detection of ethylenediamine derivatives. Detection limits for protein-bound DOPA are in tbe range 0.53–4.70 ng/mL for the assay mixture, corresponding to sample DOPA concentrations of 0.59–5.30 ng/mL (representing a minimum of 6–54 pmole detected), depending on the particular protein/peptide under study. The assay response increases linearly with DOPA concentration, and also with the extent of radical exposure of the protein. The assay is a simple and fast way to assess DOPA formation and thus oxidative damage in a protein.     

The development of the oviducal gland in the Rajid thornback ray, <Emphasis Type="Italic">Raja clavata</Emphasis>

The reproductive processes of chondrichthyans are complex. Knowledge of the development and maturation of the oviducal gland is vital for understanding the reproductive biology of a species. This study represents the first contribution of this subject for skates. In the oviparous thornback ray, Raja clavata, oviducal gland development begins early in the developing stage with the formation of gland tubules and the distinct lamellae of each zone: club, papillary, baffle and terminal. Oviducal development is complete by the end of the developing stage when the storage and secretion of products is evident within the gland tubules of each zone. Periodic acid-Schiff and alcian blue histological staining showed that the secretory mucous cells of the club and papillary zones produce neutral and sulfated acid mucins. The last row of gland tubules of the papillary zone stains intensely for sulfated acid mucins. The baffle zone, which is responsible for the production of the egg capsule, represented 60–80% of the glandular zone of the oviducal gland. Sperm bundles were observed in the deeper recesses of the baffle zone during the maturation process, and during capsule extrusion, sperm were detected near the lumen. The terminal zone was composed of two types of gland tubules: serous (producing protein fibres) and mucous glands (producing sulfated acid mucins).     

The effect of PH on fibrillogenesis of collagen in the egg capsule of the dogfish, Scyliorhinus canicula

The collagen of the egg capsule of the dogfish, Scyliorhinus canicula is stored and secreted by the secretory cells of the D-zone of the nidamental gland (Rusaou?n-Innocent, 1990b). The collagen appears to pass through several morphologically distinct textures during storage, secretion and fibril formation which may represent different lyotropic liquid crystalline phases (Knight et al., 1993). In the present communication we report evidence that a fall in hydrogen ion concentration induces fibrillogenesis during the secretion of the dogfish egg capsule. In an attempt to understand the factors involved in collagen assembly, we investigated the effects of subjecting isolated collagen storage granules in vitro to solutions ranging in pH from 2-11 and Na(+), K(+), Ca(++), Mg(++), Zn(++) and Cu(++) ions at concentrations varying from 0.01-0.5 M. From pH 2 to pH 4 most granules appeared completely amorphous; from pH 5 to pH 7 granules showed the following previously reported liquid crystalline textures: isotropic, lamellar, micellar, hexagonal columnar, transversely banded twisted nematic, and unbanded twisted nematic. At pH 8 granules showed both the hexagonal columnar phase (phase IV) and small quantities of the final fibrillar phase together with a previously undescribed texture. The latter texture, which we refer to as phase VII, had a D period (17.5 nm) half that of the lamellar texture (phase II) and the final egg capsule fibrils (phase VI). From pH 9 to pH 11, only the final fibrillar texture (phase VI) together with small quantities of the new texture (phase VII) were present. Na(+), K(+), Ca(++), Mg(++), Zn(++) and Cu(++) ions did not appear to have an observable effect on the phases found in isolated granules at pH 7.0. The role of pH in collagen storage and fibrillogenesis was confirmed by direct estimation of the pH in vivo using vital staining with neutral red, a range of pH indicators applied to unfixed cryostat sections and direct measurements of the pH of the jelly within the egg capsule. The implications of these findings for the mechanism of collagen storage and fibrillogenesis in the dogfish egg capsule and other collagenous systems are discussed.     

Effect of phenols on the oxidation of estradiol by uterine peroxidase.

The effect of various phenols on the conversion of [4 -14C]estradiol to water-soluble products by estrogen-induced uterine peroxidase (EC 1.11.1.7) has been investigated. Evidence was provided that those phenols which enhanced the oxidation of estradiol exerted their effect by activating peroxidase or protecting the enzyme from inactivation by the products of the reaction rather than by inhibiting the breakdown of hydrogen peroxide by catalase (EC 1.11.1.6). It has also been shown that tyrosine acted both as an activator of uterine peroxidase and as a water-soluble acceptor for the metabolites of estradiol. The ability of tyrosyl peptides to form conjugates with estradiol was influenced by the other amino acids and decreased with the number of adjacent tyrosyl residues.     

Neutrophil-Catalysed Dimerisation of Tyrosyl Peptides

Evidence is given that tyrosyl-peptides are dimerised by polymorphonuclear leukocytes leading to a new family of compounds. The products formed are homo- and hetero-dimeric peptides with linkage between the tyrosyl residues. This corresponds to a dityrosine structure as determined by analytic and spectroscopic data.     

Structure of the female genital glands of the oviduct in the opisthobranch mollusc, Runcina

Runcina is a small hermaphroditic opisthobranch which possesses a monaulic reproductive system. In previous studies the male copulatory apparatus, the structure of the spermatophore and also the process of oogenesis have been described. The present paper gives an account of the ultrastructure of the female genital glands of the oviduct. In Runcina the oviduct comprises three primary regions, the albumen gland, the egg capsule gland and the mucous gland. Eggs enter the fertilization chamber and as they pass the opening of the albumen gland they become surrounded by albumen or perivitelline fluid. The eggs appear to become encapsulated as they traverse the egg-capsule gland and are eventually stuck together by mucus to form an egg mass. The epithelial lining of the three glands consists of alternating ciliated and secretory cells. The characteristics in secretory products of the glandular cells are described, and are discussed with reference to the way they contribute to egg vestment.     

Comparative investigation of the genital systems in the Opisthobranchia (Mollusca, Gastropoda) with special emphasis on the nidamental glandular system

The reproductive systems and especially the nidamental glands of 20 species of Opisthobranchia belonging to the ”Cephalaspidea s. l.”, Anaspidea, Sacoglossa, Tylodinoidea and Pleurobranchoidea, have been investigated histologically and ultrastructurally. The nidamental glandular system is responsible for the formation of the egg masses. In all investigated species it is divided into three distinct parts. The most proximal part can be an albumen gland (some ”Cephalaspidea s. l.”, Anaspidea and Sacoglossa) or can exhibit a capsule gland (some ”Cephalaspidea s. l.”, Tylodinoidea and Pleurobranchoidea). All species additionally possess a membrane gland and a distally lying mucous gland. In some species the most distal part of the oviduct was also found to be glandular. The structure of the nidamental glands is described and compared within the Opisthobranchia. Albumen and capsule glands are found to be homologous glandular parts of the system. It can be concluded that the albumen gland has undergone a structural and functional change within the evolution of the Opisthobranchia. Accepted: 26 December 2000     

The self-association of protein SV-IV and its possible functional implications.

The protein SV-IV, a major protein secreted from the rat seminal vesicle epithelium, is a basic protein with immunomodulatory, anti-inflammatory, and procoagulant activity. Predictions suggested that this protein is very flexible, with its three tyrosyl residues presumably located in water-exposed segments of the primary structure. The solution behaviour of the protein was investigated by two types of spectroscopic techniques. Modifications of the spectral characteristics of tyrosyl residues induced by changes of protein concentration were demonstrated by absorption and fluorescence experiments. In addition, secondary structure rearrangements associated with a possible self-association equilibrium were highlighted by far-UV CD spectra. The equilibrium, confirmed by chromatographic techniques, appears to control some biological properties of the protein.     

Hardening of the sea urchin fertilization envelope by peroxidase-catalyzed phenolic coupling of tyrosines

Within minutes after its elevation from the egg surface, the sea urchin fertilization envelope (FE) becomes "hardened" by a reaction that renders it resistant to agents that solubilize, denature or degrade most proteins. Peroxidase activity is released into the surrounding seawater from Stronglyocentrotus purpuratus eggs during fertilization. Evidence from several sources indicate that the catalytic action of the peroxidase is responsible for hardening the FE through the phenolic coupling of tyrosyl residues of the FE proteins. First, the peroxidase is localized within the hardened FE and within the crystalline FE precursor material released from egg cortical granules during the fertilization reaction. Second, a direct correlation is established between the effectiveness of compounds in inhibiting the cortical granule peroxidase (CGP) and their effectiveness in inhibiting hardening of the FE. Third, the CGP catalyzes the cross-linking of tyrosines in solution, a reaction known to be catalyzed by horseradish peroxidase (HRP). Fourth, acid hydrolysates of hardened FEs contain cross-linked tyrosines that are identified by comparing their chromatographic ultraviolet absorption and fluorescent characteristics to those known for cross-linked tyrosines formed by HRP. Finally, when eggs are fertilized in the presence of 125I, the CGP heavily labels proteins of the FE and of the crystalline FE precursor material released with the enzyme from the cortical granules. The iodide label reflects the localization of the CGP and may reflect the sites of peroxidase-generated tyrosyl phenyl radicals involved in the tyrosine coupling reaction. Maximal iodide labeling occurs during the first 5 min period following fertilization, corresponding to the period of FE hardening.     

Resolution of independently titrating spectral components in the ultraviolet circular dichroism of subtilisin enzymes by matrix rank analysis.

The ultraviolet circular dichroism of di-isopropylphophoryl-subtilisins Carlsberg and Novo (EC 3.4.21.14) has been examined as a function of pH. The CD of these enzymes below 260 nm is invariant over the pH interval 4 to 12, below or above which spectral changes occur suggesting a transition to a random coil form. Above pH 8 contributions due to the ionization of tyrosyl residues appear in the CD above 260 nm as bands shifted to longer wavelengths. Three independently titratable components, obtained by matrix rank analysis, account for the observed CD spectral changes above 260 nm of Dip-subtilisin Carlsberg in the pH interval 8 to 12. By contrast, two components were derived for the Novo enzyme. The identities of the matrix rank components were surmised from their apparent pKa values. One component of both subtilisin enzymes corresponds to the CD of the "buried" or irreversibly titratable tyrosyl residues of the enzyme. The other matrix rank components correspond to the CD of the "exposed" or freely ionizable tyrosyl residues. These residues are optically active only in the ionized state. Two types of "exposed" tyrosyl residues, arising because of differing sensitivity to the ionization of the "partially buried" or abnormally titrating tyrosyl residues, are evident in Dip-subtilisin Carlsberg. A pH-induced local conformational change in this enzyme is proposed to account for this behavior. The "partially buried" tyrosyl residues of both subtilisins appear to be devoid of optical activity in either the tyrosyl or tyrosylate form.     

Functional morphology of embryonic development in the Port Jackson shark Heterodontus portusjacksoni (Meyer)

The oviparous Port Jackson shark Heterodontus portusjacksoni embryo has a long incubation of 10–11 months during which it undergoes major morphological changes. Initially the egg capsule is sealed from the external environment by mucous plugs in either end of the capsule. Four months into incubation, the egg capsule opens to the surrounding sea water. Fifteen stages of development are defined for this species, the first 10 occur within the sealed capsule, the remaining five after capsule opening to hatching. The functional significance of major definitive characters such as circulation within the yolk membrane and embryo, rhythmic lateral movement of the embryo, external gill filaments, heart activity, internal yolk supplies, egg jelly and the significance of the opening of the egg capsule are described. The egg jelly in the sealed capsule functions to mechanically protect the embryo during early development, however, it eventually creates a hypoxic environment to the embryo as the available oxygen is used up. This generates several physiological challenges to the developing embryo. It is able to overcome these problems by morphological changes such as increasing the effective surface area for gaseous exchange with the development of external gill filaments, fins and extensive circulation in both the embryo and attached external yolk sac. These adaptations become limiting as the embryo grows and respiratory needs outweigh the available oxygen. At this time, the mucous plugs dissolve and the capsule becomes open to the external environment.     

Peptide products of the atrial gland are not water-borne reproductive pheromones during egg laying in Aplysia

Mate attraction in Aplysia involves long-distance water-borne signaling via the secretion of the peptide pheromone attractin from the exocrine albumen gland during egg laying. Previous studies have shown that a second exocrine organ, the atrial gland, produces abundant egg-laying hormone (ELH) precursor-related peptides and mollusk-derived growth factor (MDGF), and crude extracts of the atrial gland are attractive in T-maze attraction assays. However, it is not known whether these peptides and proteins are secreted during egg laying. In this report, seawater eluates of freshly laid egg cordons were concentrated and fractionated by C18 RP-HPLC, and the resulting major peaks were examined by amino acid compositional analysis, microsequence analysis, and electrospray mass spectrometry. Concentrated egg cordon eluates were also examined by immunoblot analysis using anti-MDGF antisera as probe. The combined data demonstrated that the atrial gland of Aplysia californica does not secrete detectable levels of either ELH precursor-related peptides or MDGF during egg laying. Although the atrial gland is the last major exocrine organ to make contact with eggs before they are laid, the gland does not appear to secrete water-borne peptide pheromones during egg laying.     

Transmission of nephridial bacteria of the earthworm Eisenia fetida

The lumbricid earthworms (annelid family Lumbricidae) harbor gram-negative bacteria in their excretory organs, the nephridia. Comparative 16S rRNA gene sequencing of bacteria associated with the nephridia of several earthworm species has shown that each species of worm harbors a distinct bacterial species and that the bacteria from different species form a monophyletic cluster within the genus Acidovorax, suggesting that there is a specific association resulting from radiation from a common bacterial ancestor. Previous microscopy and culture studies revealed the presence of bacteria within the egg capsules and on the surface of embryos but did not demonstrate that the bacteria within the egg capsule were the same bacteria that colonized the nephridia. We present evidence, based on curing experiments, in situ hybridizations with Acidovorax-specific probes, and 16S rRNA gene sequence analysis, that the egg capsules contain high numbers of the bacterial symbiont and that juveniles are colonized during development within the egg capsule. Studies exposing aposymbiotic hatchlings to colonized adults and their bedding material suggested that juvenile earthworms do not readily acquire bacteria from the soil after hatching but must be colonized during development by bacteria deposited in the egg capsule. Whether this is due to the developmental stage of the host or the physiological state of the symbiont remains to be investigated.     

Studies on the alkali light chains of vertebrate skeletal muscle myosin. Effect of tyrosyl modification on the ability to reassociate to heavy chains

The structures of the alkali light chain subunits A1 and A2 have been studied by examining the effect of the conformationally sensitive reagent tetranitromethane, which reacts specifically with tyrosyl residues. Whereas reaction in the presence of 6 M guanidine hydrochloride results in modification of the three tyrosyl residues of both these light chains, only two tyrosyl residues are exposed to the reagent in the native conformations of these proteins. By gel chromatography of the CNBr-cleaved chains it was demonstrated that the two reactive tyrosyls are those located in the CB-1 and CB-3 segments and that these tyrosyl residues are modified simultaneously and not sequentially. The unreactive tyrosyl residue is in the CB-6 segment and is separated by two residues from the single cysteinyl residue of these chains. It is found that the modified light chains cannot be made to reassociate with the heavy chains by the NH4Cl hybridization procedure of Wagner and Weeds [J. Mol. Biol. 109, 455-470 (1977)] or by the thermal hybridization procedure [Burke and Sivaramakrishnan (1981) Biochemistry 20, 5908-5913]. Furthermore, reduction of the nitrotyrosyl groups to aminotyrosyl residues by sodium dithionite does not restore this effect. The data suggest that regions of the light chains at CB-1 and CB-3 are involved in the association to the heavy chains.     

Stabilization and sclerotization ofRaja erinacea egg capsule proteins

Synopsis Sclerotization of skate egg capsule occurs after secretion of capsule precursors from the shell gland and involves a form of quinone tanning in which catechols are introduced in utero and subsequently oxidized to quinones by catechol oxidase. A latent form of enzyme is incorporated in the capsular matrix during secretion. Oxidase activity increases concomitantly with increasing catechol and quinone contents. Six major proteins ranging in size from 95kDa to 20kDa comprise the skate egg capsule, all of which contain elevated levels of glycine, serine, proline and tyrosine. Hydroxyproline occurs in all but one protein, however, none has an amino acid composition typical of collagen. Solubilization of two proteins from pre-tanned capsule requires reducing agents indicating that an early event leading to matrix stabilization is mediated by disulfide bonds. Stabilization of the other proteins along with the disulfide bonded proteins directly correlates with increasing catechol content, catechol oxidase activity and quinone formation.     

Ultrastructure of secretion in the atrial gland of a mollusc (Aplysia)

Extracts of the atrial gland of the sea hare Aplysia californiea (Mollusca) induce egg laying when injected into mature individuals. Since egg laying is controlled endogenously by a peptide secreted by neuroendocrine cells in the central nervous system, the relationship between the atrial gland and these central neurons has become an issue of interest. With the particular objective of examining secretory structures we undertook an ultrastructural study of the atrial gland and adjacent tissues. This study revealed that the atrial gland epithelium is composed of two major cell types: ‘goblet-like’ exocrine cells containing large electron-dense granules, and ciliated ‘capping cells’. A non-secretory, and possibly post-secretory, cell containing electron-lucent granules was noted. A region of the large hermaphroditic duct contiguous to the atrial gland, known as the red hemiduct, also displayed capping cells and secretory cells with large granules. The content of these granules is organized into crista-like condensations. The cell also contains iron-rich pigment inclusions.