Behaviour in vitro of separated fractions of haemocytes of the locust Schistocerca gregaria

Summary The haemocytes of locusts (Schistocerca gregaria) have been partially separated, by centrifugation on discontinuous Percoll gradients, into 3 subpopulations of plasmatocytes of which the most dense (band 5) displays more than 95% morphological homogeneity. The cells of band 5 are very granular, adhere and spread on glass, and contain nearly all the phenoloxidase activity of the total haemocyte population, as shown by 1,3-glucan (laminarin)-stimulation of both haemocyte lysate supernatant and monolayers of living cells. Cells from band 5 show negligible endocytosis of fluorescent latex beads, whereas those of band 4, which are less granular, plasmatocyte-like cells, are actively endocytic in vitro. The majority of the haemocytes are found in band 3, which is a mixture of coagulocytes and agranular plasmatocytes, with negligible phenoloxidase activity. The in vitro locomotory behaviour of adherent cells from bands 3 and 5 was compared, and addition of laminarin-activated haemocyte lysate supernatant, in which the prophenoloxidase activation sequence had been initiated, stimulated chemokinesis in cells of band 5 but not band 3. The separated fractions thus show marked behavioural and biochemical differences.     

Exocytosis and uptake of bacteria by isolated haemocyte populations of two crustaceans: evidence for cellular co-operation in the defence reactions of arthropods

Summary The role of exocytosis in the cellular defence reactions of arthropods was investigated using in vitro cultures of isolated haemocytes (blood cells) from the freshwater crayfish Pacifastacus leniusculus, and the shore crab Carcinus maenas. In both species, activated lysates of those cell types that contain the prophenoloxidase activating system (granular cells of crab and crayfish and semigranular cells of crayfish) were found to induce degranulation (exocytosis) of semigranular and granular cells. A cell lysate, in which the prophenoloxidase system was kept inactive, did not have this effect. Limited degranulation of granular cells of crab was also induced by lipopolysaccharides as has earlier been shown for crayfish semigranular cells. The phagocytic capability of semigranular cells from crayfish was lost after exocytosis induced by the Ca²⁺ ionophore A23187, and under no conditions were the granular cells of crabs or crayfish seen to ingest bacteria in vitro. An opsonic function for the attaching proteins of a 1,3-glucan-activated haemocyte lysate was demonstrated using the phagocytic hyaline cells from crabs. Phenoloxidase appeared to lack opsonic properties.We suggest that, in crustaceans, opsonization takes place through hierarchically stimulated exocytotic release, and biochemical activation of the prophenoloxidase activating system: first from lipopolysaccharide-sensitive cells (semigranular cells of crayfish or granular cells of crabs) and then from granular cells, triggered by the initially released and activated prophenoloxidase system. Finally, sticky proteins of the activated prophenoloxidase system coat the invader, rendering it susceptible to the phagocytes (hyaline cells in both crab and crayfish and, to a lesser extent, semigranular cells of crayfish). These processes would, together, constitute a cellular communication pathway not previously demonstrated for invertebrates.Abbreviations DMSO dimethyl sulfoxide - L-DOPA L-dihydroxy-phenylalanine - GLS granular cell lysate supernatant - HLS haemocyte lysate supernatant - HyLS hyaline cell lysate supernatant - LPS lipopolysaccharide - proPO prophenoloxidase - SGLS semigranular cell lysate supernatant - SITS 4-acetamido-4-isothiocyanatostilbene-2,2-disulfonic acid disodium salt     

Isolation and purification of a cell adhesion factor from crayfish blood cells

Isolated granular haemocytes (blood cells) from the crayfish Pacifastacus leniusculus attached and spread in vitro on coverslips coated with a lysate of crayfish haemocytes. No cell adhesion activity was detected in crayfish plasma. The cell adhesion activity was only present in haemocyte lysates in which the prophenoloxidase (proPO) activating system (Soderhall and Smith, 1986a, b) had been activated; either by lipopolysaccharide (LPS), the beta-1,3-glucan laminarin, or by preparing the lysate in 5 mM Ca2+. Both lysates of granular or of semigranular haemocytes could mediate adhesion. After A23187-induced exocytosis of the granular cells, cell adhesion activity could be generated in the secreted material if it was incubated with laminarin. The factor responsible for cell adhesion was isolated from an active haemocyte lysate and purified by ammonium sulfate precipitation, cation exchange chromatography and Con A-Sepharose; it had a molecular mass of approximately 76 kD on an SDS-polyacrylamide gel. An antibody to this 76-kD band inhibited cell adhesion. Ca2+ was necessary in the medium for the cells to adhere to the adhesion factor. With cyanide or azide, the cells attached but failed to spread. It is suggested that in vivo the cell adhesion factor is stored in the secretory granules of the semigranular and the granular cells in a putative inactive pro-form, which can be released during exocytosis and, in the presence of beta- 1,3-glucans or LPS, be activated outside the cells to mediate cell attachment and spreading, processes of essential importance in arthropod host defense.     

A Gq-type G protein couples muscarinic receptors to inositol phosphate and calcium signaling in exocrine cells from the avian salt gland

Summary Muscarinic acetylcholine receptor (mAChR) activation in isolated cells from the nasal salt gland of the domestic duck (Anas platyrhynchos) results in a rapid increase in the rate of phosphatidylinositol hydrolysis and pronounced intracellular calcium signals. Both responses can be elicited by treating these cells with fluoroaluminate (AlF ₄ ^– ) indicating the involvement of a heterotrimeric G protein in the transmembrane signaling process. To characterize this G protein, electrophoretically separated membrane proteins were blotted onto nitrocellulose filters and probed with peptide-antibodies raised against portions of different -subunits of mammalian G proteins. We could demonstrate the presence of at least four different G proteins in salt gland cell membranes. Two of these proteins (40 and 41 kD) were ADP-ribosylated by pertussis toxin and were recognized by an antiserum against a common sequence in all G protein -subunits. One protein (46 kD) was a cholera toxin-substrate and was recognized by a G_s-specific antiserum; the other (42 kD) was recognized by G_q-specific antisera and was resistant to ADP-ribosylation. Since the initial inositol phosphate production upon receptor activation with carbachol and the resulting calcium signals were not affected by pertussis toxin-pretreatment of salt gland cells, we conclude that muscarinic receptors are coupled to phospholipase C by a G_q-type G protein.This study was supported by National Institutes of Health Grant GM-40457 (to T.J.S.) and, in part, by a fellowship (Hi 448/1) from the Deutsche Forschungsgemeinschaft (to J.-P.H.). We are grateful to Drs. D.R. Manning and P.C. Sternweis for their kind gifts of antisera.     

Heterogeneity and differential expression of the γ-aminobutyric acidA (GABAA)/benzodiazepine receptor in the avian brain during development

Summary 1. The changes in the GABA_A/benzodiazepine receptor in chicken brain during development has been studied by using³H-flunitrazepam as the probe for the benzodiazepine modulator site and the antibodies recognizing the receptor protein. In the telencephalon and optic tectum, the proteins of 48, 50, and 51 kD were markedly labeled by³H-flunitrazepam from embryonic day 18 to postnatal days, as revealed by photoaffinity labeling and SDS-PAGE of the brain membranes; the 51-kD protein appeared to be the predominant one in labeling intensity except at embryonic day 18 and postnatal days 14 and 28, whereas the 47- and 50-kD proteins were dominant in the cerebellum. However, the 47- and 48-kD proteins were faintly seen after postnatal day 28 in the three regions examined.2. Immunoblotting using a monoclonal antibody against the 50- and 51-kD proteins showed that the straining pattern in the developing telecephalon or optic tectum was similar to the 50 kD/51 kD pattern obtained from fluorography. The antibody also stained the 50- and 51-kD proteins in the cerebellum despite the fact that the 51-kD protein was barely seen in the fluorogram. Moreover, the 50-kD protein was recognized by an antiserum raised against a partial sequence of the 1 subunit of the receptor expressed in bacteria. The staining levels for the 50-kd protein by the antiserum on immunoblots of the brain regions were low in embryonic animals but higher during postnatal stages, consistent with that seen in fluorograms.3. Receptor binding autoradiography using³H-flunitrazepam exhibited that varying degrees of labeling intensity occurred among various brain areas at different ages. High densities of binding were present in the olfactory bulb, paleostriatum, optic tectum, and midbrain. These results support the diversity of the GABA_A/benzodiazepine receptor in the vertebrate CNS.     

Immunocytochemical localization of phenylalanine ammonia-lyase in tissues of Populus kitakamiensis

The polypeptide encoded by the partial fragment of cDNA of phenylalanine ammonia-lyase (PAL; EC 4.3.1.5), PALcDNAl (Osakabe et al., 1995, Plant Sci. 105: 217–226), isolated from Populus kitakamiensis (P. sieboldii x P. grandidentata), was expressed in Escherichia coli cells. The polypeptide was purified and an antiserum raised against it. The antiserum recognized a protein of 77 kDa on nitrocellulose blots after sodium dodecyl sulfate-poly-acrylamide gel electrophoresis of total protein and the partially purified PAL protein from P. kitakamiensis. Moreover,the antiserum recognized a protein on the blot after non-denaturing polyacrylamide gel electrophoresis of P. kitakamiensis proteins and this protein had PAL activity. Furthermore, the antibody inhibited PAL activity of extracts from stem tissues. These results showed that the antiserum against the partial PAL peptide recognized only the PAL subunits in extracts of P. kitakamiensis. Immunolocalization studies of P. kitakamiensis tissues revealed that the PAL protein was specifically localized in the xylem and the phloem fibers and no immunogold signal was found in the epidermis, the cortex, the pith, or the cambium of either stems or leaves.Abbreviations IgG immunoglobulin G - IPTG isopropylthio--d-galactoside - PAL phenylalanine ammonia-lyase The authors thank Dr. Kunio Hata of Nippon Paper Industries Co., Ltd. (Japan) for supplying P. kitakamiensis. This work was supported in part by a grant-in-aid for Scientific Research from the Ministry of Education, Science and Culture of Japan (No. 07406008).     

The kinetics of photoinhibition and its recovery in the red alga Porphyridium cruentum

When Porphyridium cruentum cells were illuminated with high fluence rate between 1900 and 4800 mol photons m^-2s^-1, a decrease in the photosynthetic activity of the cells was observed. Within the time frame of 20 min, and under the fluence rates studied, the sum of photons to be absorbed by cells (mg of chlorophyll (Chl), sufficient to initiate photoinhibition was calculated to be 9235.8 mol. The minimal specific light absorption rate to initiate photoinhibition in P. cruentum ranges between 2.29 and 4.26 mol photons s^-1 mg^-1 chl.a. There was a linear relationship between the specific rate of photoinhibition and the specific light absorption rate. A photon number of 2.56×10⁴ mol mg^-1 chl.a photoinhibited photosynthesis instantaneously. At 15°C, no photoinhibitory effect was observed at 2300 mol photons m^-2 s^-1 even after 45 min of illumination. At the other extreme of 35°C, 84% inhibition of photosynthetic activity was observed within 10 min of exposure to 2300 mol photons m^-2 s^-1. Between 20 and 30°C, the photoinhibitory effect was comparable. Photoinhibited P. cruentum cells recovered readily when transferred to low light (90 mol photons m^-2 s^-1) and darkness, and the specific rate of recovery was independent of the light intensity to which the cells were exposed, during the photoinhibitory treatment.Abbreviations Chlorophyll QL, specific light absorption rate Publication No. 28 of the Microalgal Biotechnology Laboratory     

小鼠骨保护素配基胞外片段的表达、纯化及生物活性分析

骨保护素配基(OPGL)是调节破骨细胞分化和成熟的核心细胞因子。由小鼠骨组织提取总RNA,RTPCR扩增得到小鼠OPGL胞外片段(sOPGL)cDNA,以特定策略克隆人表达载体pET-42a( ),以便使未来表达产物的融合标签序列能够完全被因子Xa切除。重组载体在大肠杆菌中诱导表达可获得高水平的47kD产物,Western blotting证实它可被OPGL抗体识别。经Glutathione-sepharose 4B亲和层析,除融合蛋白外,还有一约30 kD蛋白与层析柱发生了特异性亲和。该30kD蛋白可被GST-IGF-I多克隆抗体识别,但不能被OPGL抗体识别,提示它的产生乃由于融合蛋白在融合位点附近发生裂解。融合蛋白经Xa因子裂解和进一步纯化,得到分子量约17．5kD的sOPGL。生物活性分析证明,重组sOPGL可以促进OLC的生成,并呈现剂量依赖关系。     

Detection of circulating tumor lysate–reactive CD4+ T cells in melanoma patients

Purpose: We wanted to study whether an allogeneic melanoma lysate would be a feasible stimulatory antigen source for detection of a peripheral CD4⁺ T-cell immune response in patients with medically untreated malignant melanoma. The lysate was produced from a melanoma cell line (FM3.29) which expresses high amounts of melanoma antigens. Methods: Fresh peripheral blood was incubated with and without lysate for 6 h in the presence of anti-CD28/anti-CD49d MoAb (for costimulation). After flow cytometric estimation of the frequency of CD69⁺/IFN-⁺ cells in the CD4⁺ population, the response to lysate was calculated as the difference between the number of activated IFN--producing CD4⁺ cells in the lysate-stimulated and the nonstimulated sample. Results: An immune response to lysate was observed in blood samples from 11 of 15 patients (73%) with metastatic melanoma. A weak response was found in 1 of 4 patients radically operated for localized disease, whereas no responders were seen among 7 healthy donors. The fraction of circulating lysate-activated T cells ranged from 0.0037% to 0.080% of the CD4⁺ population. A negative result of the assay was found occasionally, especially in donors with high background levels of spontaneous IFN- production, indicating an inhibitory effect of the lysate. Conclusions: This method for detection of a peripheral T-cell immune response in melanoma patients has several advantages for clinical use. The tumor lysate preparations may contain large numbers of stimulating antigens (known, as well as unknown) and are easily prepared and handled. Potentially, the assay might be useful as a diagnostic tool, a marker of residual or recurrent disease, a prognostic factor, or a predictor or monitor of the effect of antineoplastic therapy including immune-modulating therapy.     

An insulin epidermal growth factor-binding protein from Drosophila has insulin-degrading activity

We have recently described the purification and characterization of an insulin-degrading enzyme (IDE) from Drosophila melanogaster that can cleave porcine insulin, is highly conserved through evolution and is developmentally regulated. We now report that the IDE is, in fact, an insulin EGF-binding protein (dp100) that we had isolated previously from Drosophila using an antihuman EGF receptor antiserum. This conclusion is based upon the following evidence. (a) dp100, identified by its ability to cross-link to labeled insulin, EGF, and transforming growth factor-alpha (TGF-alpha), and to be immunoprecipitated by anti-EGF receptor antisera, copurifies with the IDE activity. Thus, the purified IDE can be affinity labeled with either 125I-insulin, 125I-EGF, or 125I-TGF-alpha, and this labeling is specifically inhibited with unlabeled insulin, EGF, and the insulin B chain. (b) The antiserum to the human EGF receptor, which recognizes dp100, is able to specifically immunoprecipitate the insulin-degrading activity. (c) The purified IDE preparation contains a single protein of 110 kD which is recognized by both the anti-EGF receptor antiserum and anti-Drosophila IDE antiserum. (d) Polyclonal antiserum to the purified IDE, which specifically recognized only the 110-kD band in Drosophila Kc cells, immunoprecipitates dp100 cross-linked to 125I-TGF-alpha and dp100 cross-linked to 125I-insulin from the purified IDE preparation. (e) EGF, which competes with insulin for binding to dp100, also inhibits the degradation of insulin by the purified IDE. These results raise the possibility that a functional interaction between the insulin and EGF growth factor families can occur which is mediated by the insulin-degrading enzyme.     

Thylakoid-protein phosphorylation during the life cycle of Scenedesmus obliquus in synchronous culture

The phosphorylation of thylakoid proteins, which comprise apoproteins of the light-harvesting chlorophyll a/b-protein complex (LHCP), was investigated in vivo and in vitro during the development of Scenedesmus obliquus in synchronous cultures. The in-vitro and in-vivo protein phosphorylation exhibited a maximum activity in cells with maximum photosynthetic capacity (8th hour) and miximum activity in cells with minimum photosynthetic capacity (16th hour). The major phosphorylated polypeptides in vivo were the 24/25-kDa and 28–30-kDa apoprotein of the LHCP, a protein of about 32 kDa, and some smaller polypeptides within the range 10 to 20 kDa. In vitro, the main phosphoproteins were the 28–30-kDa apoprotein and the protein characterized by an apparent molecular weight of 32 kDa. Pulse-chase experiments in vivo established that the latter had the fastest radioactivity turnover of the thylakoidal phosphoproteins.Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - LHCP light-harvesting chlorophyll a/b-protein complex - PSII photosystem II Dedicated to Prof. Erwin Bünning on the occasion of his 80^th birthday     

Covalent-display of an active chimeric-recombinant tissue plasminogen activator on polyhydroxybutyrate granules surface

Objective

To develop a deliberately engineered expression and purification system for an active chimeric-recombinant tissue plasminogen activator (crtPA) using co-expression with polyhydroxybutyrate (PHB) operon genes.

Results

Fusion of crtPA with PhaC-synthase simplified the purification steps through crtPA sedimentation with PHB particles. Moreover, the covalently immobilized crtPA was biologically active as shown in a chromogenic assay. Upon WELQut-protease activity, the released single-chain crtPA converted to the two-chain form which produced a pattern of bands with approx. MW of 32 and 11 kDa in addition to the full length crtPA.

Conclusion

Fusion of crtPA with PhaC-synthase not only simplifies purification from the bacterial host lysate, but also co-expression of PHB operon genes creates an oxidative environment, thereby reducing the inclusion body formation possibility. The isolated crtPA-PHB granules exhibited crtPA serine protease activity. Thus, fusion with the PhaC protein could be used as a scaffold for covalent displaying of functional disulfide-rich proteins.

     

Characterization and immunocytochemical localization of actin and fibronectin in haemocytes of the musselMytilus galloprovincialis

Summary Cell-extracellular matrix interactions are recognized to be important for human leucocyte functions, including chemotaxis and phagocytosis. These activities depend on a reorganization of the microfilament actin (F-actin) promoted by fibronectin, one of the major components of extracellular matrices. Although invertebrate haemocytes are, in many aspects, similar to the human granulocyte-monocyte-macrophage cell lineage, actin and fibronectin have not been well studied in these cells. Consequently, the characterization and structural organization of actin and fibronectin in mussel (Mytilus galloprovincialis) haemocytes was investigated using Western blotting analysis, indirect immunofluorescence and immunoelectron microscopy. Actin was immunocharacterized by an anti-total actin monoclonal antibody. Fibronectin was immunocharacterized by an autologous polyclonal antiserum directed against the protein of mussel haemolymph. Actin was mainly localized along the peripheral cytoplasm of the haemocyte. The distribution of the F-actin microfilaments was assayed with Rhodamine-labelled phalloidin. F-actin was associated mainly with stress-fibres of spreading haemocytes and with microspikes at the adhesion sites. The labelling by the anti-fibronectin antiserum of the haemocyte rough endoplasmic reticulum vesiles, revealed by immunoelectron microscopy, suggests that these cells are involved in fibronectin biosynthesis. Gold particles were also present along the outer surfaces of the cell plasma membrane and its protrusions. Mussel fibronectin was localized immunohistochemically at the adhesion sites and in the extracellular matrix fibrils. The relationships between fibronectin and the actin cystoskeleton inMytilus galloprovincialis haemocytes are discussed.     

A 43 kD light-regulated chloroplast RNA-binding protein interacts with the psbA 5′ non-translated leader RNA

Expression of the chloroplast psbA gene coding for the D1 protein of Photosystem II is subject to regulation at different levels in higher plants, including control of mRNA accumulation and translation. In dicots, the conserved 5 non-translated leader (5-UTR) of the psbA mRNA is sufficient to direct the light-dependent translation of the D1 protein. In this report we show that the psbA mRNA 5-UTR forms a stem-loop structure and binds a 43 kD chloroplast protein (43RNP). Binding of the 43RNP is sensitive to competition with poly(U), but insensitive to high concentrations of tRNA, the RNA homopolymers poly(A), poly(G), poly(C), or poly(A):poly(U) as a double-strand RNA. The 43RNP does not bind efficiently to the psbA mRNA 3 non-translated region, although the RNA sequence is U-rich and folds into a stem-loop. A deletion mutant of the psbA 5-UTR RNA in which 5 sequences of the stem-loop are removed does not affect 43RNP binding. Together, these properties suggest that the 43RNP binds most effectively to a specific single-strand U-rich sequence preceding the AUG start codon in the psbA mRNA. Binding of the 43RNP is not detectable in plastid protein extracts from 5-day-old dark-grown seedlings, but is detectable in light-grown seedlings as well as mature plants in the light and after shifted to the dark. The 43RNP is therefore a candidate for a regulatory RNA-binding protein that may control the accumulation and/or translation of the psbA mRNA during light-dependent seedling development.Abbreviations DMS dimethylsulfate - psb Photosystem II genes - RNP ribonucleoprotein - UTR non-translated leader - UV crosslinking ultra-violet light crosslinking     

Localization and orientation of the VirD4 protein of Agrobacterium tumefaciens in the cell membrane

Summary The virD4 gene of Agrobacterium tumefaciens is essential for the formation of crown galls. Analysis of the nucleotide sequence of virD4 has suggested that the N-terminal region of the encoded protein acts as a signal peptide for the transport of the VirD4 protein to the cell membrane of Agrobacterium. We have examined the localization and orientation of this protein in the cell membrane. When the nucleotides encoding the first 30 to 41 amino acids from the N-terminus of the VirD4 protein were fused to the gene for alkaline phosphatase from which the signal sequence had been removed, alkaline phosphatase activity was detectable under appropriate conditions. Immunoblotting with VirD4-specific antiserum indicated that the VirD4 protein could be recovered exclusively from the membrane fraction of Agrobacterium cells. Moreover, when the membrane fraction was separated into inner and outer membrane fractions by sucrose density-gradient centrifugation, VirD4 protein was detected in the inner-membrane fraction and in fractions that sedimented between the inner and outer membrane fractions. By contrast, the VirD4/alkaline phosphatase fusion protein with the N-terminal sequence from VirD4 was detected only in the inner membrane fraction. Treatment of spheroplasts of Agrobacterium cells with proteinase K resulted in digestion of the VirD4 protein. These results indicate that the VirD4 protein is transported to the bacterial membrane and anchored on the inner membrane by its N-terminal region. In addition, the C-terminal portion of the VirD4 protein probably protrudes into the periplasmic space, perhaps in association with some unidentified cellular factor(s).Deceased June 5, 1988     

Identification of the native NIT2 major nitrogen regulatory protein in nuclear extracts of Neurospora crassa

The nit-2 gene of Neurospora crassa encodes the major nitrogen regulatory protein which acts in a positive fashion to activate the expression of many different structural genes during conditions of nitrogen limitation. An E. coli-expressed NIT2/-Gal fusion protein binds specifically to DNA in vitro by recognizing GATA core elements. Nuclear extracts prepared from a wild-type N. crassa strain contain a protein factor which displays all of the properties expected for the native NIT2 protein. The native NIT2 protein in nuclear extracts binds with high affinity to DNA fragments which contain two GATA elements, weakly to fragments with a single GATA element, and fails to bind to DNAs which lack these sequences. The DNA binding ability of the protein factor in nuclear extracts is efficiently blocked by a polyclonal antibody developed against the zinc-finger region of NIT2 protein. Western blot analysis with the anti-NIT2 antiserum revealed a specific protein with a size of approximately 110,000 daltons, in excellent agreement with the predicted size of NIT2. Both the specific NIT2 DNA binding activity and the protein detected by Western blot are totally lacking in nuclear extracts of a nit-2 rip mutant strain. These results all support the conclusion that the native NIT2 protein in Neurospora cells has been identified. The NIT2 protein is localised in nuclei and could not be detected in the cytoplasmic fraction of cells subjected to nitrogen derepression or nitrogen repression, indicating that the nuclear import of NIT2 is not regulated.     

Cell-free synthesis of putative neurophysin precursors from rat and mouse hypothalamic poly (A)-RNA.

Poly(A)-containing RNA has been isolated from rat and mouse hypothalamic tissue and used to direct the synthesis of polypeptides in cell-free systems derived from wheat germ extract and rabbit reticulocyte lysate in the presence of [³⁵S]-L-cysteine and [³H]-L-proline. Translation products were subjected to immunoprecipitation using an antiserum to rat neurophysin proteins. Following purification of the immunoprecipitates by protein A-Sepharose chromatography, sodium dodecyl sulfate polyacrylamide gel electrophoresis revealed a single polypeptide species of molecular weight 17,500 derived from both cell-free systems.     

A biochemical characterization of the photophore lenses of the midshipman fish,Porichthys notatus Girard

The present study is a biochemical characterization of the photophore lenses of the midshipman fish, Porichthys notatus, a species that bears 800 photophores distributed over the body surface. The biochemical properties of the photophore lenses were compared with those of the eye lens with which they share a similar developmental origin and analogous function. To achieve a high refractive index, the vertebrate eye lens has a relatively high concentration of structural proteins (20–50%, depending on species) and a simple protein composition, that is, relatively few proteins are synthesized in comparison to other tissues. Similarly, the photophore lenses of P. notatus had a relatively high protein concentration (average = 29%, n = 5) and approximately 60% of the total soluble protein was represented by two subunit species of 33 kD and 35 kD on denaturing polyacrylamide gels. The structural proteins of the eye lens are of two principle types: 1) and polypeptides which belong to vertebrate lens-specific crystallin families, and, 2) enzymes recruited into the lens which take on the function of structural proteins. Here, we report that the two major photophore lens subunits of 33 kD and 35 kD are biochemically similar to each other, but are clearly distinct from any of the previously characterized crystallins. Therefore, we propose that photophore lenses appear to recruit a novel protein.     

Real-time analysis of Drosophila post-embryonic haemocyte behaviour

Background

The larval stage of the model organism Drosophila is frequently used to study host-pathogen interactions. During embryogenesis the cellular arm of the immune response, consisting of macrophage-like cells known as plasmatocytes, is extremely motile and functions to phagocytise pathogens and apoptotic bodies, as well as produce extracellular matrix. The cellular branch of the larval (post-embryonic) innate immune system consists of three cell types—plasmatocytes, crystal cells and lamellocytes—which are involved in the phagocytosis, encapsulation and melanisation of invading pathogens. Post-embryonic haemocyte motility is poorly understood thus further characterisation is required, for the purpose of standardisation.

Methodology

In order to examine post-embryonic haemocyte cytoskeletal dynamics or migration, the most commonly used system is in vitro cell lines. The current study employs an ex vivo system (an adaptation of in vitro cell incubation using primary cells), in which primary larval or pre-pupal haemocytes are isolated for short term analysis, in order to discover various aspects of their behaviour during events requiring cytoskeleton dynamics.

Significance

The ex vivo method allows for real-time analysis and manipulation of primary post-embryonic haemocytes. This technique was used to characterise, and potentially standardised, larval and pre-pupal haemocyte cytoskeleton dynamics, assayed on different extracellular matrices. Using this method it was determined that, while larval haemocytes are unable to migrate, haemocytes recovered from pre-pupae are capable of migration.     

Isolation and characterization of a protein with homology to angiotensin converting enzyme from the periacrosomal plasma membrane of equine spermatozoa

The periacrosomal plasma membrane of spermatozoa is involved in sperm binding to oviductal epithelial cells and to the zona pellucida. A protein of 68–70 kD molecular mass was purified biochemically from the isolated periacrosomal plasma membrane of equine spermatozoa as a possible receptor for adhesion of spermatozoa to oviductal epithelial cells. A polyclonal antibody raised in rabbits against the purified equine sperm membrane protein recognized the 70 kD and an antigenically related 32 kD protein in preparations of isolated periacrosomal sperm plasma membrane and in detergent extracted ejaculated and epididymal spermatozoa. A larger protein (∼110 kD) was detected in equine testis. Two antigenically related proteins (64 and 45 kD) were recognized on the plasma membrane of cynomolgus macaque spermatozoa. In vitro sperm-binding assays were performed in the presence of antigen-binding fragments or IgG purified from the polyclonal antiserum to investigate a possible function of the isolated protein in binding of equine spermatozoa to homologous oviductal epithelial cells or zona pellucida. Incubation with antigen-binding fragments or IgG purified from the antiserum did not inhibit binding of equine spermatozoa either to oviductal epithelial cells or to the zona pellucida. On ultrastructural examination, the antibody bound exclusively to the cytoplasmic side of the periacrosomal plasma membrane of equine and macaque spermatozoa. Microsequence analysis of 13 residues of sequence showed strong homology with a number of angiotensin converting enzymes: An 84% identity was identified with testis specific and somatic forms of human and mouse angiotensin-converting enzyme. Immunocytochemistry and immunoblot analysis established that the protein is specific for the periacrosomal membrane of ejaculated, epididymal, and testicular stallion spermatozoa. Mol. Reprod. Dev. 48:251–260, 1997. © 1997 Wiley-Liss, Inc.