The Hemocyanin from a Living Fossil, the Cephalopod Nautilus pompilius: Protein Structure, Gene Organization, and Evolution

By electron microscopic and immunobiochemical analyses we have confirmed earlier evidence that Nautilus pompilius hemocyanin (NpH) is a ring-like decamer (M_r = ∼3.5 million), assembled from 10 identical copies of an ∼350-kDa polypeptide. This subunit in turn is substructured into seven sequential covalently linked functional units of ∼50 kDa each (FUs a–g). We have cloned and sequenced the cDNA encoding the complete polypeptide; it comprises 9198 bp and is subdivided into a 5′ UTR of 58 bp, a 3′ UTR of 365 bp, and an open reading frame for a signal peptide of 21 amino acids plus a polypeptide of 2903 amino acids (M_r = 335,881). According to sequence alignments, the seven FUs of Nautilus hemocyanin directly correspond to the seven FU types of the previously sequenced hemocyanin “OdH” from the cephalopod Octopus dofleini. Thirteen potential N-glycosylation sites are distributed among the seven Nautilus hemocyanin FUs; the structural consequences of putatively attached glycans are discussed on the basis of the published X-ray structure for an Octopus dofleini and a Rapana thomasiana FU. Moreover, the complete gene structure of Nautilus hemocyanin was analyzed; it resembles that of Octopus hemocyanin with respect to linker introns but shows two internal introns that differ in position from the three internal introns of the Octopus hemocyanin gene. Multiple sequence alignments allowed calculation of a rather robust phylogenetic tree and a statistically firm molecular clock. This reveals that the last common ancestor of Nautilus and Octopus lived 415 ± 24 million years ago, in close agreement with fossil records from the early Devonian. [Reviewing Editor: Dr. Axel Meyer] The sequence reported in this paper has been deposited in the EMBL/GenBank database under accession number AJ619741.     

Topology of the 10 subunits within the Decamer of KLH, the hemocyanin of the marine gastropod Megathura crenulata

Immunoelectron microscopy has been performed using negatively stained immune complexes of keyhole limpet hemocyanin isoform 1 (KLH1) decamers and a functional unit-specific monoclonal antibody anti-KLH1-c1. The antibody links hemocyanin molecules at both the collar and the collarless edge of the decamer, indicating a peripheral localization of functional units c. In isoform 2 (KLH2) the positions of functional units c have been identified with the peanut agglutinin (PNA), which has previously been shown to exclusively bind to KLH2-c. Ferritin linked to PNA was used to visualize labeled molecules electron microscopically. The pattern of labeling also indicates a peripheral localization of the c functional units. The data presented in this paper support only one of two possible models for the subunit orientation within the hemocyanin decamer.     

Development of crystalline peroxisomes in methanol-grown cells of the yeast Hansenula polymorpha and its relation to environmental conditions

The development of peroxisomes has been studied in cells of the yeast Hansenula polymorpha during growth on methanol in batch and chemostat cultures. During bud formation, new peroxisomes were generated by the separation of small peroxisomes from mature organelles in the mother cells. The number of peroxisomes migrating to the buds was dependent upon environmental conditions. Aging of cells was accompanied by an increase in size of the peroxisomes and a subsequent increase in their numbers per cell. Their ultimate shape and substructure as well as their number per cell was dependent upon the physiological state of the culture. The change in number and volume density of peroxisomes was related to the level of alcohol oxidase in the cells. Development of peroxisomes in cells of batch cultures was accompanied by an increase in size of the crystalline inclusions in the organelles; they had become completely crystalline when the cells were in the stationary phase. Peroxisomes in cells from methanol-limited chemostat cultures were completely crystalline, irrespective of growth rate. Results of biochemical and cytochemical experiments suggested that alcohol oxidase is a major component of the crystalline inclusions in the peroxisomes of methanol-grown Hansenula polymorpha. Possible mechanisms involved in the ultrastructural changes in peroxisomes during their development have been discussed.Abbreviations DAB 3,3-diaminobenzidine - OD optical density (663 nm)     

Keyhole Limpet Hemocyanin Type 2 (KLH2): Detection and Immunolocalization of a Labile Functional Unit h

Keyhole limpet hemocyanin (KLH) is a mixture of two hemocyanin isoforms, termed KLH1 and KLH2. Within KLH1 eight oxygen-binding functional units (FUs), 1-a to 1-h, have been identified, in contrast to KLH2, which was previously thought to be organized in seven FUs (2-a to 2-g). By limited proteolysis of KLH2 subunits, isolation of the polypeptide fragments, and N-terminal sequencing, we have now identified an eighth FU of type h, with a molecular mass of 43 kDa. This is unusually small for a FU h from a gastropodan hemocyanin. It is also shown that KLH2 didecamers can be split into a stable and homogeneous population of decamers by dialysis against 50 mM Tris/HCl, pH 7.5, in the absence of divalent cations. Electron microscopic immunolocalization using a specific monoclonal antibody reveals that FU KLH2-h is located at the collar of the decamer.     

The First Complete cDNA Sequence of the Hemocyanin from a Bivalve,the Protobranch <Emphasis Type="Italic">Nucula nucleus</Emphasis>

By cDNA sequencing we have achieved the first, and complete, hemocyanin sequence of a bivalve (Nucula nucleus). This extracellular oxygen-binding protein consists of two immunologically distinguishable isoforms, here termed NnH1 and NnH2. They share a mean sequence identity of 61%, both contain a linear arrangement of eight paralogous, ca.50-kDa functional units (FUs a-h), and in both isoforms the C-terminal FU-h possesses an extension of ca. 100 amino acids. The cDNA of NnH1 comprises 11,090 bp, subdivided into a 5′utr of 75 bp, a 3′utr of 791 bp, and an open reading frame for a signal peptide of 19 amino acids plus a polypeptide of 3389 amino acids (M _r = 385 kDa). The cDNA of NnH2 comprises 10,849 bp, subdivided into a 5′utr of 47 bp, a 3′utr of 647 bp, and an open reading frame for a signal peptide of 16 amino acids plus a polypeptide of 3369 amino acids (M _r = 387 kDa). In contrast to other molluscan hemocyanins, which are highly glycosylated, the bivalve hemocyanin sequence exhibits only four potential N-glycosylation sites, and within both isoforms a peculiar indel is present, surrounding the highly conserved copper-binding site CuA. Phylogenetic analyses of NnH1 and NnH2, compared to the known hemocyanin sequences of gastropods and cephalopods, reveal a statistically sound closer relationship between gastropod and protobranch hemocyanin than to cephalopod hemocyanin. Assuming a molecular clock, the last common ancestor of protobranch and gastropods lived 494 million ± 50 million years ago, in conformity with fossil records from the late Cambrian. [Reviewing Editor: Dr. Rüdiger Cerff] The sequence reported in this paper has been deposited in the EMBL/GenBank database under accession number AJ786639 for NnH1 and AJ786640 for NnH2.     

Subunit-specific monoclonal antibodies to tarantula hemocyanin,and a common epitope shared with calliphorin

Summary Three murine hybridoma cell lines secreting IgG₁ antibodies to 4×6 tarantula (Eurypelma californicum) hemocyanin were isolated, and the monoclonal antibodies Ec-7, Ec-8 and Ec-24 characterized by immunoblotting, immunoelectrophoresis and ELISA. WholeEurypelma hemocyanin, and the isolated subunitsa tog served as probes. For the subunits a novel, quick purification scheme on FPLC combined with immuno-affinity chromatography was established.Additionally, two cell lines secreting IgM antibodies were isolated. These antibodies showed irrelevant cross reactivities.Ec-7 strongly reacts with subunitd and weakly withb. Ec-8 and Ec-24 are specifically directed againstEurypelma subunitsa ande, respectively. The epitopes of Ec-7 and Ec-8 are sequence-dependent, whereas the Ec-24 epitope is conformation-dependent. Ec-8 and Ec-24 are specific forEurypelma hemocyanin. Ec-7 is not reactive to crustacean, centipede or gastropod hemocyanins, but binds to scorpion hemocyanin and to the immunological correlates of subunitsd andf in the hemocyanins of the spiderCupiennius salei and the xiphosuranLimulus polyphemus.In immunoblots with different polyclonal antisera,Eurypelma andAstacus hemocyanin cross-reacted with calliphorin, a larval serum protein from the blowflyCalliphora vicina. Calliphorin and chelicerate hemocyanins share the Ec-7 epitope. Sedimentation coefficients, pH stability regions, subunit size, and electron microscopical appearance of calliphorin are indiscernable from a typical 1×6 arthropod hemocyanin. This relationship is discussed in the context of hemocyanin evolution.Abbreviations FPLC fast performance liquid chromatography - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulphate A preliminary account of this work was presented in June 1987 at the annual meeting of the Deutsche Zoologische Gesellschaft at Ulm (Markl 1987a)     

Lactobacillusacidophilus S-layer protein-mediated inhibition of Salmonella-induced apoptosis in Caco-2 cells

Surface layer (S-layer) proteins are crystalline arrays of proteinaceous subunits present as the outermost component of the cell wall in several Lactobacillus species. The underlying mechanism for how S-layer proteins inhibit pathogen infections remains unclear. To gain insights into the mechanism of the antimicrobial activity of Lactobacillus S-layer proteins, we examined how Lactobacillus S-layer proteins impact Salmonella Typhimurium-induced apoptosis in vitro in Caco-2 human colon epithelial cells. When Caco-2 cells infected with Salmonella Typhimurium SL1344, we found that apoptosis was mediated by activation of caspase-3, but not caspase-1. When Salmonella Typhimurium SL1344 and S-layer proteins were coincubated simultaneously, Caco-2 cell apoptosis was markedly decreased and the cell damage was modified, as evaluated by flow cytometry and microscopy. Detailed analyses showed that the S-layer proteins inhibited the caspase-3 activity and activated the extracellular signal-regulated kinases 1 and 2 (ERK1/2) signaling pathway. Taken together, these findings suggest that Lactobacillus S-layer proteins protected against Salmonella-induced apoptosis through reduced caspase-3 activation. In addition, Salmonella-induced apoptotic cell damage was modified by S-layer proteins through the ERK1/2 signaling pathway. This mechanism may represent a novel approach for antagonizing Salmonella infection.     

The oxygen-binding modulation of hemocyanin from the Southern spiny lobster <Emphasis Type="Italic">Palinurus gilchristi</Emphasis>

Arthropod hemocyanins transport and store oxygen and are composed of six subunits, or multiples thereof depending on the species. Palinurus gilchristi hemocyanin is found only as 1 × 6-mers, as normally occurs in spiny lobsters. An alkaline pH and removal of calcium ions induce a wholly reversible dissociation into monomers. The oxygen-binding properties of 1 × 6-meric hemocyanin from P. gilchristi were investigated with respect to pH and modulating effect exerted by calcium, lactate and urate. The oxygen affinity was highly affected by pH in the presence of calcium ions, while in its absence the Bohr coefficient became 60% lower. The protein is insensitive to lactate, but affected by urate which markedly increased hemocyanin–oxygen affinity, acting as the physiological major positive effector. Calcium ions decrease oxygen affinity at low concentration range (0–1 mM), while as concentration becomes higher than 100 mM, the oxygen affinity increases, indicating the presence of two independent types of calcium-binding sites with high and low affinity, respectively. The previous hypothesis, that the presence of high-affinity binding sites in addition to low affinity ones could be a characteristic feature of Palinuran hemocyanins, has been tested by analyzing, with respect to calcium–hemocyanin interaction, three other species belonging to Palinura.     

Dodecamer is Required for Agglutination of <Emphasis Type="Italic">Litopenaeus vannamei</Emphasis> Hemocyanin with Bacterial Cells and Red Blood Cells

Hemocyanins are multi-functional proteins, although they are well known to be respiratory proteins of invertebrate to date. In the present study, the agglutination ability of two oligomers of hemocyanin, hexamer and dodecamer, with pathogenic bacteria and red blood cells (RBCs) is investigated in pacific white shrimp, Litopenaeus vannamei. Hexameric hemocyanin exhibits an extremely high stability even in the absence of Ca²⁺ and in alkaline pH. Dodecamer (di-hexamer) is easily dissociated into hexamers in unphysiological conditions. Hexamer and dodecamer are interchanged reciprocally with environmental conditions. Both oligomers can bind to bacteria and RBCs, but agglutination is observed only using dodecamer but not using hexamer in agglutination assay. However, the agglutination is detected when hexamer is utilized in the presence of antiserum against hemocyanin. These results indicate that dodecamer of hemocyanin is required for agglutination with bacteria and RBCs. It can be logically inferred that there is only one carbohydrate-binding site to bacterial cells and RBCs in the hexamer, while at least two sites in the dodecamer. Our finding has provided new insights into structural–functional relationship of hemocyanin.     

Cytomorphology and copper content of the basal cells in the midgut gland of Nautilus (Cephalopoda,Tetrabranchiata)

Summary By means of light and electron microscopical studies on Nautilus pompilius and Nautilus macromphalus, special basal cells within the alveolary enlarged terminal parts of the tubules of the midgut gland were revealed. Their abundant rough endoplasmic reticulum (RER) with enlarged cisterns synthesizes ring-shaped macromolecules that resemble the hemocyanin molecules within the bloods-paces in size and form and seem to be secreted throughout the lamina basalis, locally discharged into the adjacent blood sinus. The hypothesis that this cell type represents a site of hemocyanin synthesis was confirmed by Zeeman AAS and ASTEM analyses of the content and distribution of copper within the glandular tissue, especially the different compartments of this cell type.     

Presence of a class of chromophores as monitor of oxygen-linked conformational changes in hemocyanins

Summary Oxygenation of native hemocyanins fromHelix pomatia andPanulirus interruptus under conditions of cooperative binding, causes a change in the dynamic behaviour of the internal structure, leading to increased rotational mobility of a class of tryptophan residues emitting above 450 nm. This is associated with the complete depolarization of the emission on a time scale where the large hemocyanin is practically immobile. This class is thought to be very near the active site since it is strongly affected by the copper atoms. Moreover, fluorescence changes of the class of chromophores emitting above 450 nm is more marked in the molluscanHelix hemocyanin than in the arthropodanPanulirus hemocyanin, suggesting a possible difference in the structure of the active site or in the extent of the allosteric transition between the two species. This class of chromophores may by useful probes to monitor ligand-linked conformational change in hemocyanins.     

The Hemocyanin of the Squid Sepioteuthis lessoniana: Structural Comparison with Other Cephalopod Hemocyanins

The subunit structure of the hemocyanin from the squid Sepioteuthis lessoniana has been characterized by analytical sedimentation. The protein exists free in the hemolymph as a 60S, multisubunit structure with a molecular mass of approximately 4.0 × 10⁶ gm/mol. At extremes of pH this can be dissociated into 10 monomers, of mass 3.8 × 10⁵ gm/mol each.At neutral pH, if 5 mM Mg²⁺ or less is present, the monomers associate to form a dimer of molecular mass 7.7 × 10⁵ gm/mol. In the pH range from 10.5 to 7.5, formation of the dimer is facilitated by the binding of one proton per monomer. If the magnesium concentration is raised to 25 mM or more, the dimers reversibly and completely associate into decamers. This process is shown to require the binding of 10 magnesium ions.In its size, subunit structure, and behavior with respect to association–dissociation processes, Sepioteuthis hemocyanin resembles the corresponding proteins of other squid much more than it does those of Octopus or Nautilus.     

Structure-based calculation of multi-donor multi-acceptor fluorescence resonance energy transfer in the 4×6-mer tarantula hemocyanin

Hemocyanins are oxygen carriers of arthropods and molluscs. The oxygen is bound between two copper ions, forming a Cu(II)-O₂ ^2–-Cu(II) complex. The oxygenated active sites create two spectroscopic signals indicating the oxygen load of the hemocyanins: first, an absorption band at 340 nm which is due to a ligand-to-metal charge transfer complex, and second, a strong quenching of the intrinsic tryptophan fluorescence, the cause of which has not been definitively identified. We showed for the 4×6-mer hemocyanin of the tarantula Eurypelma californicum that the fluorescence quenching of oxygenated hemocyanin is caused exclusively by fluorescence resonance energy transfer (FRET). The tarantula hemocyanin consists of 24 subunits containing 148 tryptophans acting as donors and 24 active sites as acceptors. The donor–acceptor distances are determined on the basis of a closely related crystal structure of the horseshoe crab Limulus polyphemus hemocyanin subunit II (68–79% homology). Calculation of the expected fluorescence quenching and the measured transfer efficiency coincided extraordinary well, so that the fluorescence quenching of oxygenated tarantula hemocyanin can be completely explained by Förster transfer. This results explain for the first time, on a molecular basis, why fluorescence quantum yield can be used as an intrinsic signal for oxygen load of at least one arthropod hemocyanin, in particular that from the tarantula.     

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.     

Biochemical and molecular characterisation of hemocyanin from the amphipod <Emphasis Type="Italic">Gammarus roeseli</Emphasis>: complex pattern of hemocyanin subunit evolution in Crustacea

Hemocyanin is a copper-containing respiratory protein that is widespread within the arthropod phylum. Among the Crustacea, hemocyanins are apparently restricted to the Malacostraca. While well-studied in Decapoda, no hemocyanin sequence has been known from the ’lower’ Malacostraca. The hemocyanin of the amphipod Gammarus roeseli is a hexamer that consists of at least five distinct subunits. The complete cDNA sequence of one subunit and a tentative partial sequence of another subunit have been determined. The complete G. roeseli hemocyanin subunit comprises 2,150 bp, which translates in a protein of 672 amino acids with a molecular mass of 76.3 kDa. Phylogenetic analyses show that, in contrast to previous assumptions, the amphipod hemocyanins do not belong to the α-type of crustacean hemocyanin subunits. Rather, amphipod hemocyanins split from the clade leading to α and γ-subunits most likely at the time of separation of peracarid and eucarid Crustacea about 300 million years ago. Molecular clock analyses further suggest that the divergence of β-type subunits and other crustacean hemocyanins occurred around 315 million years ago (MYA) in the malacostracan stemline, while α- and γ-type subunits separated 258 MYA, and pseudohemocyanins and γ-subunits 210 million years ago.     

Cloning and expression of theClostridium thermocellum celS gene inEscherichia coli

Clostridium thermocellum ATCC 27405 produces an extremely complicated multi-component cellulase aggregate (cellulosome) highly active on crystalline cellulose. From the cellulosome, two subunits, CelS (or S _s ;M _r = 82 000) and CelL (or S _l , CipA;M _r = 250 000), have been identified as essential for crystalline cellulose degradation [Wu et al. (1988) Biochemistry 27:1703]. We have determined the DNA sequence of thecelS gene from four cloned DNA fragments encompassing this gene [Wang et al. (1993) J Bacteriol 175:1293]. To express the entirecelS gene inEscherichia coli, thecelS structural gene was amplified by the polymerase chain reaction (PCR) employing the PCR primers corresponding to sequences flanking the desired gene. This PCR product (2.1 x 10³ bases; 2.1 kb) was cloned into anE. coli expression vector pRSET B. Subsequent expression of the cloned gene resulted in a fusion protein (rCelS;M _r = 86 000) as inclusion bodies. The rCelS protein was recognized specifically by an anti-CelS antiserum in a Western blot analysis. The inclusion bodies were purified and solubilized in 5m urea. The refolded rCelS produced very little reducing sugar from carboxymethylcellulose. However, it showed a higher activity on the crystalline cellulose (Avicel) and an even higher activity on phosphoricacid-swollen Avicel. These results indicate that the CelS is an exoglucanase.     

Detection in situ and characterization of lignin in the<Emphasis Type="Italic"> G</Emphasis>-layer of tension wood fibres of<Emphasis Type="Italic"> Populus deltoides</Emphasis>

The occurrence of lignin in the additional gelatinous (G-) layer that differentiates in the secondary wall of hardwoods during tension wood formation has long been debated. In the present work, the ultrastructural distribution of lignin in the cell walls of normal and tension wood fibres from poplar (Populus deltoides Bartr. ex Marshall) was investigated by transmission electron microscopy using cryo-fixation–freeze-substitution in association with immunogold probes directed against typical structural motifs of lignin. The specificity of the immunological probes for condensed and non-condensed guaiacyl and syringyl interunit linkages of lignin, and their high sensitivity, allowed detection of lignin epitopes of definite chemical structures in the G-layer of tension wood fibres. Semi-quantitative distribution of the corresponding epitopes revealed the abundance of syringyl units in the G-layer. Predominating non-condensed lignin sub-structures appeared to be embedded in the crystalline cellulose matrix prevailing in the G-layer. The endwise mode of polymerization that is known to lead to these types of lignin structures appears consistent with such an organized cellulose environment. Immunochemical labelling provides the first visualization in planta of lignin structures within the G-layer of tension wood. The patterns of distribution of syringyl epitopes indicate that syringyl lignin is deposited more intensely in the later phase of fibre secondary wall assembly. The data also illustrate that syringyl lignin synthesis in tension wood fibres is under specific spatial and temporal regulation targeted differentially throughout cell wall layers.Abbreviations G-layer Gelatinous layer - G Guaiacyl monomeric unit - PATAg Periodic acid–thiocarbohydrazide–silver proteinate - S Syringyl monomeric unit     

Vergleichende elektronenmikroskopische Untersuchungen an den zentralen Herzorganen von Cephalopoden (Sepia officinalis)

Zusammenfassung Die vergleichenden licht- und elektronenmikroskopischen Untersuchungen am Kiemenherzen von Sepia officinalis und Loligo vulgaris verschiedener Altersstufen zeigen eine Doppelfunktion dieses Organs als Herz- und Drüsenorgan auf. — Die quantitativ wenig hervortretende quer- resp. schräggestreifte Muskulatur ist nicht geschichtet und bildet ein lockeres Maschenwerk, in dem in großer Zahl ovoide Zellformen mit größeren Einschlußkörpern eingelagert sind. — Mit dem Auftreten von A-, I- und Z-Banden und der Ausbildung eines SR- und T-Systems entspricht die Organisation der Muskelfasern der des Zentralherzens (Schipp und Schäfer, 1969 b). Im Gegensatz zum Zentralherzen wird jedoch in der Kiemenherzmuskulatur nur ein Endigungstyp der wahrscheinlich monoaminergen Nervenfasern nachgewiesen.Die Zellformen zwischen den Muskelzellen treten in 2 Typen auf, die wahrscheinlich als Ausdruckverschiedener Funktionszustände zu werten sind. Ihre Organisation (Gehalt an Einschlußkörpern, Ergastoplasma und Dictyosomen sowie Exocytosevorgänge) deutet auf eine innersekretorische Funktion hin. Die intrazellulären Vorstufen des Sekretes besitzen ein ähnlich ausgebildetes kristallines Grundmuster wie das extrazelluläre Hämocyanin. Es ist daher nicht auszuschließen, daß diesen Zellen eine blutbildende Funktion zukommt.

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Comparative electron microscopic studies of the central cardiac organs of cephalopods (Sepia officinalis)Ultrastructure and function of the branchial heart

Summary Comparative light and electron microscopic studies of the branchial heart of Sepia officinalis and Loligo vulgaris at different ages showed that the organ functions both as a heart and a glandular structure. A small number of cross- or obliquely-striated muscle cells form a loose network that contains numerous ovoid cells with large inclusion bodies. The organization of A-, I-, and Z-bands, and the formation of SR- and T-systems in the branchial heart muscle resembles those in the central heart muscle (Schipp and Schäfer, 1969 b). On the other hand, only one type of monoaminergic axon terminals is observed in the branchial heart.The cells among the branchial heart muscle fibers are of two types, that may be a representation of different functional states. The organization of the cells (in reference to cell inclusions, ergastoplasm, dictyosomes) suggests endocrine function. The cell inclusions have a crystalline inner pattern like that of extracellular hemocyanin, suggesting that the ovoid cells may have a hemopoietic function.

Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Vaccine potential of hemocyanin from Oncomelania hupensis against Schistosoma japonicum

Hemocyanin, a giant oxygen transport protein which is usually found in many arthropods and mollusks was isolated and purified from Oncomelania hupensis. In this study, we showed that Oncomelania hupensis hemocyanin (OhH) shared carbohydrate epitopes with different developmental stages of Schistosoma japonicum (Cercaria, Schistosomulum, Adult worm and Egg) and exhibited serological cross-reaction with these stages of S. japonicum immune sera, which had a potential for use in diagnostic and therapeutic studies of schistosomasis. OhH was used as a vaccine in combination with Freund's adjuvant to evaluate the induction of immune responses and protection against S. japonicum infection in mice. Mice immunized with OhH induced a Th1 type of immune responses. Strong protection against S. japonicum were observed in adult worm and egg burdens after 42 days post-challenge, which showed a significant worm reduction of 52.5% and egg reduction of 69.2% compared to the control groups, respectively. These results indicated that OhH was a potential candidate to compose an anti-schistosome vaccine.