Yolk formation in Locusta migratoria and Schistocerca gregaria: Related ligands and oocyte receptors

During vitellogenesis the transport of yolk precursor proteins, the vitellogenins (VTG), from the hemolymph into the oocyte is achieved by receptor-mediated endocytosis. Recently the receptor for the VTG of Locusta migratoria has been isolated. Now a new protocol has been developed for the purification of the VTG receptor of this locust from ovarian membranes. By CHAPS solubilization of the membranes followed by ion exchange and immunoaffinity chromatography, a 100-fold purification of the VTG receptor was achieved. The amino acid composition of the receptor protein has been determined. However, first attempts to sequence the receptor failed due to the N-terminal blocking of the molecule. With the same methods the VTG receptor of another locust, Schistocerca gregaria, has been isolated, purified, and characterized. This receptor has an apparent M_r of 186 kDa under nonreducing conditions. It recognizes L. migratoria VTG and vice versa. However, in cross-competition experiments in which the Schistocerca VTG competed with Locusta VTG for binding to the Locusta VTG receptor, the Schistocerca VTG was less efficient. Furthermore, the VTG receptor proteins of S. gregaria and L. migratoria are immunologically related as revealed by Western blotting with anti-Locusta VTG receptor antibodies. It appears that important structural elements required for efficient and specific endocytosis of VTG have been conserved. © 1994 Wiley-Liss, Inc.     

The specificity of yolk protein uptake in cyclorrhaphan diptera is conserved through evolution

Summary Yolk proteins are transported from the hemolymph into the oocytes of insects during vitellogenesis by receptor-mediated endocytosis. Since other hemolymph proteins, both native and foreign, are not accumulated in the oocyte, the process of uptake is selective for yolk proteins. Peptide domains within the yolk proteins must therefore be involved in receptor recognition. With the longterm aim of identifying these domains and to open the possibility of understanding the molecular basis of receptor-mediated endocytosis of yolk proteins, we began investigating how well this mechanism has been conserved in evolution. We studied the uptake of yolk proteins from 13 different Drosophila species and five other dipteran species, namely, Calliphora erythrocephala, Sarcophaga argyrostoma, Musca domestica, Lucilia servicata, and Protophormia terrae-novae, into the ovaries of Drosophila melanogaster and Drosophila funebris. The results from these experiments showed that in all cases the foreign yolk proteins were taken up by the host ovaries, indicating that the mechanism and peptide domains of the yolk proteins involved in recognition of the receptor have been well conserved in dipteran evolution. Offprint requests to: M. Bownes     

An autoradiographic and cytophotometric study of oogenesis in a pulmonate snail,Planorbarius corneus

Summary The spatial and temporal patterns of macromolecular syntheses in oocytes and somatic auxiliary cells of the snail Planorbarius corneus have been investigated by autoradiography and cytophotometry. Oogenesis has been divided into three stages, comprising early meiosis up to diplotene (stage I), previtellogenetic growth phase (stage II), and vitellogenesis (stage III). No DNA synthesis was found in any oocyte stage. In stage-I oocytes, only nucleoli were found labelled with ³H-uridine. Oocyte nuclei of stage II and III actively synthesize RNA in nucleoli and chromosomes. The most intense incorporation of uridine in chromatin probably occurs during the previtellogenesis — vitellogenesis transition period during which cytological findings suggest well developed lampbrush chromosomes. RNA synthesis in amphinucleoli of stage-III oocytes is restricted to basophilic nucleolar parts, whereas acidophilic parts (protein bodies) neither synthesize nor store RNA. During vitellogenesis oocytes incorporate amino acids into yolk platelet proteins. Radioactive proteins are found in yolk platelet precursors 5 h after injection of the tracer and in yolk platelets 3 h thereafter. The labelling pattern suggests that oocytes synthesize certain hitherto unidentified yolk components. No evidence for the participation of follicle cells in synthesis and transport of vitellogenic proteins has been obtained from autoradiography. Cytological findings suggest an important role for these cells in oogenesis. They are highly active in RNA and protein synthesis. Cellular differentiation is accompanied by polyploidization of the nuclei which attain a highest DNA content of 256 c. Polyploidization probably occurs in incremental steps as indicated by complete endomitotic chromosomal cycles. Autoradiographs show that, during vitellogenesis, oocytes do not incorporate significant amounts of glucose, and only certain follicle cells were labelled with glucose, probably indicating the synthesis of glycogen.     

Identification and comparisons of the yolk polypeptides and the genes which code for them in D. melanogaster sibling species

Summary The yolk proteins stored in Drosophila, oocytes for utilisation during embryogenesis are an ideal system for studying the regulation of gene expression during development. The 3 major polypeptides found in yolk in D. melanogaster are synthesised in the fat body and ovarian follicle cells and selectively accumulated by the oocyte during vitellogenesis. In order to understand more about their regulation and the mechanism of uptake, studies on other species are necessary.Three yolk polypeptides have previously been identified in the D. melanogaster sibling species (D. melanogaster, D. simulans, D. mauritiana, D. erecta, D. teissieri, D. orena and D. yakuba). In D. melanogaster three genes located on the X chromosome are known to code for these yolk polypeptides. in this study genomic Southern transfers and in situ hybridisation experiments were carried out on the sibling species. Using the three cloned yolk protein genes from D. melanogaster, homologous sequences could be detected in the sibling species. It is suggested that three yolk protein genes occur in each of these species, all being located on the X chromosome, and that two of the genes are very closely linked in these same species. Yolk protein gene-homologous DNA sequences have also been identified in two more distantly related species D. funebris and D. virilis.     

Evolution of the concepts of vitellogenesis in Polychaete Annelids

Summary

In polychaete annelids, two types of vitellogenesis have been described: a heterosynthetic mechanism (in a number of different of worms) and an autosynthetic process (other including Nereis). Recent biochemical results suggest that the heterosynthetic mechanism is more general than previously thought. In Nereis, the vitellogenin (the precursor) is synthesized in coelomocytes and after transfer through coelomic fluid incorporated into oocytes. In germinal cells, a conversion process, involving proteolytic cleavages of vitellogenin, produces mature vitellins which are accumulated in yolk granules.

The neurohormones identified so far are not essential for vitellogenin synthesis. It is possible that these neurohormones regutate enzymatic activities in the oocytes.     

Cloning and characterization of vitellogenin cDNA from the common Japanese conger (Conger myriaster) and vitellogenin gene expression during ovarian development

The major yolk protein precursor, vitellogenin (VTG) was detected in plasma from vitellogenic females and estradiol-17β (E₂)-treated immature females, but not in males and immature females by Western blotting in common Japanese conger Conger myriaster. Its molecular mass was approximately 180 kDa under denaturing and reducing conditions. The common Japanese conger VTG cDNA was cloned from the liver of vitellogenic female. It contains 5110 nucleotides including an open reading frame that encodes 1663 amino acids. The deduced amino acid sequence of the common Japanese conger VTG shares 80% identity with that of eel Anguilla japonica VTG-1, and 45–55%, 32–34% and 27–29% identity with the deduced amino acid sequences of other fish, amphibian and avian VTG with polyserin domain, respectively. In female common Japanese conger, VTG gene was highly expressed in the liver of this species similar with other oviparous vertebrates. The expression levels of VTG gene in the liver increased from the oil droplet stage to the tertiary yolk globule stage and were maintained until the migratory nucleus stage.     

Preparation, Properties, and Composition of Nereis vitellin, the Yolk Protein of the Annelid, Nereis virens

In the literature, oogenesis in nereid annelids is considered to be a model system because, unlike other system studied, nereid oocytes are thought to synthesize the bulk of their yolk protein themselves. As the first step to test the validity of this hypothesis, nereid yolk protein was characterized biochemically. Vitellin, the main fraction of the soluble yolk proteins, was prepared from Nereis virens oocytes. Preparation, purification, and some physical characteristics of this green-colored protein Nereis vitellin are described. The molecular weight was determined by gel chromatography as 420,000 daltons. With regard to the amino acid composition, Nereis vitellin was found to resemble both insect vitellins and an average protein, as defined by other authors. Methionine and cysteine were found in traces only. By staining procedures, Nereis vitellin was characterized as lipoglycoprotein. Nereis vitellin was also prepared from the coelomic fluid of gravid females of Nereis virens .     

Mating receptor complex in the flagellar membrane of Chlamydomonas eugametos gametes

Summary The protein composition of the flagellar membrane of C. eugametos mt ^–gametes was analyzed using SDS-polyacrylamide gel electrophoresis. The association of the proteins with the membrane was assessed by differential extraction and an assay for glycosylation. Particular attention was paid to integral membrane proteins that could be associated with the mt ^– agglutinin, the membrane-bound sexual receptor by which the mt ^– gamete binds to its mt ⁺ partner. This agglutinin is a peripheral membrane glycoprotein and must be bound to the flagellar surface by an integral membrane anchor protein that connects the agglutinin with the cell's interior. Immunoaffinity chromatography was performed using Mab 66.3, a monoclonal antibody specific for the mt ^– agglutinin, in order to isolate protein complexes consisting of agglutinin molecules and associated components. Only one integral membrane glycoprotein (M_r = 125 kDa) was isolated that has an association with the agglutinin. It did not bind Mab 66.3, but did bind the lectin wheat germ agglutinin. This was an expected property of the membrane anchor protein because previous research (Kooijman et al. 1989) has shown that cross-linking a WGA-binding glycoprotein by this lectin induces sexual responses that are similar to those induced by agglutinin-agglutinin interactions during mating. We conclude that the 125-kDa glycoprotein is the membrane anchor for the agglutinin.Abbreviations BSA Bovine serum albumin - CBB Coomassie Brilliant Blue - CHAPS 3-[(3-Cholamidopropyl)-dimethylammonio]-1-propanesulfonate - GTC guanidine thiocyanate - mt ^–/mt ⁺ mating type minus/plus - PAS periodic acid Schiff - PBS phosphate buffered saline - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis - TBS TRIS-buffered saline - WGA wheat germ agglutinin     

Solubilization and characterization of the chicken oocyte vitellogenin receptor.

This paper describes the biochemical characterization of the chicken oocyte plasma-membrane receptor for one of the major lipid-carrying yolk proteins, vitellogenin (VTG). The receptor was extracted from oocyte membranes with the non-ionic detergent octyl-beta-D-glucoside and visualized by ligand blotting, with 125I-VTG as a protein with an apparent Mr of 96000, under non-reducing conditions. It exhibited high affinity for native chicken VTG (Kd 2 X 10(-7) M) but was unable to bind VTG with reductively methylated lysine residues or phosvitin (the phosphoserine-rich intracellular cleavage product of VTG). Polyclonal antibodies to the 96 kDa protein inhibited VTG binding to the receptor and were able to precipitate functional VTG-receptor activity from oocyte-membrane detergent extracts with a concomitant removal of the 96 kDa protein. Antibodies directed against the mammalian receptor for low-density lipoprotein showed cross-reactivity with the chicken oocyte VTG receptor, raising the possibility that lipoprotein receptors in birds are structurally related to those in mammalian species.     

Isolation and characterization of the receptor for vitellogenin from follicles of the rainbow trout,Oncorhynchus mykiss

The isolation and characterization of the receptor for vitellogenin from follicle membranes of the rainbow trout, Oncorhynchus mykiss, is described. Follicle membrane proteins subjected to SDS-polyacrylamide gel electrophoresis and subsequently to either protein staining or ligand blotting with radiolabelled vitellogenin (¹²⁵iodine-vitellogenin) demonstrated that the vitellogenin receptor has an apparent molecular mass of 200 kD (probably comprising of two 100-kD subunits) under non-reducing conditions. The vitellogenin binding sites were identified as specific receptors: binding was saturable and the binding sites were both tissue specific to follicle membranes and exhibited ligand specificity. Scatchard analyses of specific binding data revealed a single class of binding sites with a high affinity for rainbow trout vitellogenin (K _d=8.2·10^-9 mol·1^-1). Both brown trout, Salmo trutta, vitellogenin and carp, Cyprinus carpio, vitellogenin were able to displace the radiolabelled rainbow trout vitellogenin from its receptor, although they were less effective than rainbow trout vitellogenin.Abbreviations B _max maximum number of binding sites available - BSA bovine serum albumin - bt-VTG brown trout vitellogenin - c-VTG earp vitellogenin - HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid - K _d dissociatian constant - NCM nitrocellulose membranes - PMSF phenylmethylsulphonylfluoride - rt-VTG rainbow trout vitellogenin - VTG vitellogenin     

Characterization of a T-DNA insertion mutant for the protein import receptor atToc33 from chloroplasts

In Arabidopsis thaliana, the Toc34 receptor component of the chloroplast import machinery is encoded by two independent but highly homologous genes, atToc33 and atToc34. We have isolated a T-DNA insertion mutant of atToc33 which is characterized by a pale phenotype, due to reductions in the levels of photosynthetic pigments, and alterations in protein composition. The latter involve not only chloroplast proteins but also some cytosolic polypeptides, including 14-3-3 proteins which, among other functions, have been proposed to be cytosolic targeting factors for nucleus-encoded chloroplast proteins. Within the chloroplast, many, though not all, proteins of the photosynthetic apparatus, as well as proteins not directly involved in photosynthesis, are found in significantly reduced amounts in the mutant. However, the accumulation of other chloroplast proteins is unaffected. This suggests that the atToc33 receptor is responsible for the import of a specific subset of nucleus-encoded chloroplast proteins. Supporting evidence for this conclusion was obtained by antisense repression of the atToc34 gene in the atToc33 mutant, which results in an exacerbation of the phenotype.Communicated by R. Hagemann     

The receptor for yolk lipoprotein deposition in the chicken oocyte.

The final rapid growth phase of the chicken oocyte is characterized by massive uptake of hepatically synthesized yolk precursor proteins from the plasma. The two major yolk-forming components, very low density lipoprotein (VLDL) and vitellogenin (VTG), have been shown to interact with a 95-kDa protein present in detergent extracts of ovarian membranes; this protein is absent in hens of a mutant nonlaying chicken strain (Nimpf, J., Radosavljevic, M., and Schneider, W. J. (1989) J. Biol. Chem. 264, 1393-1398). Here, we have purified the 95-kDa protein by ligand and immunoaffinity chromatography and demonstrated its role in receptor-mediated endocytosis by ultrastructural immunolocalization, structural, and functional studies. The receptor was visualized exclusively in the oocyte proper and was absent from somatic cells, in agreement with the previously reported expression of two different lipoprotein receptors in somatic cells and oocytes, respectively, of laying hens (Hayashi, K., Nimpf, J., and Schneider, W. J. (1989) J. Biol. Chem. 264, 3131-3139). Amino acid sequences of tryptic fragments of the oocyte receptor were obtained, and its kinship to somatic low density lipoprotein receptors was confirmed through the demonstration of sequence conservation in three characteristic domains. In particular, the chicken receptor's internalization sequence, Phe-Asp-Asn-Pro-Val-Tyr, is identical with that in low density lipoprotein receptors from mammals as well as Xenopus laevis. The ligand-binding properties, specificity, and kinetic parameters of the oocyte receptor were characterized in filtration assays employing pure ligands and receptor. In conjunction with ligand-blotting experiments following limited protease digestion of the receptor, the binding assay data suggest that VTG recognizes a substructure of the VLDL-binding site. These studies establish that a cell-specific receptor mediates the endocytosis of VTG and VLDL into growing chicken oocytes and thus possibly plays a key role in control of oocyte growth.     

Bioturbation by Nereis sp. and its effects on the phosphate flux across the sediment-water interface in the Palmones River estuary

The effects of Nereis sp. on the flux of dissolved phosphate across the sediment-water interface has been studied in Palmones River estuary using benthic flux-chambers and intact cores. Diffusive fluxes of phosphate were calculated from pore water gradient concentration and compared with those obtained from benthic chambers experiments. The high abundance of Nereis in the upper sediment layers appears to play an important part in the dissolved oxygen profiles in the overlying water, but had no effect on the redox potential. A negative relationship was found between the Nereis abundance and the phosphate gradient; this gradient ranged between 40 µmol 1^–1 cm^–1 with 340 Nereis individuals m^–2 and 20 µmol 1^–1 cm^–1 with 900 Nereis individuals m^–2. The ratio of the in situ flux to the flux gradient concentration for dissolved phosphate increased with the abundance of Nereis (from 1.7 at low abundance to 5.8 at high abundance).     

Immunocytochemical location of vitellin in the egg of the silkworm,Bombyx mori,during early developmental stages

Summary Vitellin was purified from eggs of the silkworm,Bombyx mori, by a new method in which vitellin was extracted from isolated yolk granules. The purified vitellin had a molecular weight of 540,000. An antibody against purified vitellin was prepared in rabbits. It reacted with the hemolymph vitellogenin as well as with purified vitellin, but not with other proteins in the hemolymph or in the extract from yolk granules. The anti-vitellin IgG was used to immunocytochemically locate vitellin in theBombyx non-diapause egg during early developmental stages. In the egg, just after oviposition, vitellin was located in internal yolk granules and in small yolk granules of the periplasm. During the early developmental stages studied, vitellin was not metabolized uniformly throughout the egg. The vitellin of the internal yolk granules located at the posterior-dorsal part and of the small peripheral yolk granules was utilized in 16 h and 2 days, respectively, after oviposition. A thin, very vitellin-poor layer was located between the periplasm and the vitellin-rich interior in the newly laid egg. it was always in close contact with the periphery where blastoderm and germ-band cells developed.     

Identification of a female-sterile mutation affecting yolk protein 2 in Drosophila melanogaster

Summary The three yolk proteins (YP1, YP2 and YP3) of Drosophila melanogaster are synthesised in the fat body and ovarian follicle cells and selectively accumulated in the developing oocytes to provide a nutrient source for embryogenesis. We have described the phenotype of a temperaturesensitive female-sterile mutant, fs(1) K313, and characterised its yolk proteins. This mutation affects the secretion of YP2 and is the first mutation affecting YP2 to be described. Using genetic and molecular tests we argue that the female-sterile phenotype results, at least in part, from the abnormal secretion of YP2 perturbing the follicle cell secretory pathway in general and thus causing defects in chorion protein secretion. The gene coding for YP2 in fs (1) K313 has been cloned and sequenced. Two amino acid substitutions have been found which probably cause the abnormal secretion of YP2 and the resulting female-sterile phenotype.     

Identification of four ovarian receptor proteins that bind vitellogenin but not other homologous plasma lipoproteins in the rainbow trout,Oncorhynchus mykiss

Membrane proteins from ovarian follicles, testis and somatic tissues of rainbow trout, Oncorhynchus mykiss, were extracted by ultracentrifugation, separated on sodium dodecyl sulphate gels and isolated on polyvinyl difluoride membranes. Vitellogenin receptor proteins were visualised using protein staining and hybridisation with ¹²⁵I-vitellogenin Four follicle-membrane proteins, with molecular masses of 220, 210, 110 and 100 kDa, showed a strong affinity for vitellogenin and were specific to the ovary. Other homologous lipoproteins (very low density lipoprotein, low density lipoprotein and high density lipoprotein) had a very limited ability to displace ¹²⁵I-vitellogenin from its receptor, indicating that the ovarian receptor proteins were fairly specific for vitellogenin. Proteins with an affinity for very low density lipoprotein and low density lipoprotein were visualised in liver, spleen and muscle, eluting on sodium dodecyl sulphate gels with molecular masses of about 150 kDa. Peptides generated from trypsin digests of the receptor proteins with a high affinity for vitellogenin showed sequence homology with receptors in the lipoprotein family, including a sequence that is believed to act as the internalisation signal [Phe-Asp-Asn-Phe-Tyr-] and, a sequence identity with the recently characterised chicken vitellogenin/very low density lipoprotein receptor [Ser-Glu-Leu-Tyr-Glu-Pro-Ala-]. Together, the ligand blotting and peptide sequence data support the contention that the four ovarian membrane proteins isolated are receptor proteins specific for vitellogenin and they do not bind other plasma lipoproteins to any significant degree.Abbreviations BSA bovine serum albumin - HDL high density lipoprotein - LDL low-density lipoprotein - HPLC high performance liquid chromatograph - PVDF polyvinylidene difluoride - RIA radioimmunoassay - rt-VTG rainbow trout vitellogenin - SDS sodium dodecyl sulphate - VLDL very low density lipoprotein - VTG vitellogenin - VRP-1,-2,-3 or -4 vitellogenin receptor proteins     

Role of the lysine and arginine residues of vitellogenin in high affinity binding to vitellogenin receptors in locust oocyte membranes.

A specific cell surface receptor mediates the endocytosis of the yolk protein vitellogenin (VTG), a lipoglycoprotein, into growing oocytes of the insect Locusta migratoria. The ability of the VTG receptor to recognize VTG was analyzed in binding tests after modification by five lysine-specific and two other reagents. Progressive chemical modification of the lysyl and arginyl residues resulted in reduction or loss of the derivatized VTG to compete for binding to the VTG receptor with unmodified VTG. Although the precise role of the lysine residues in receptor binding remains to be defined we conclude that they are involved in expression of a recognition site interacting with the binding domain of the VTG receptor. Sulfhydryl groups are not involved in the conformation of the recognition site or binding ability of VTG.     

Yolk sphere formation is initiated in oocytes before development of patency in follicles of the moth,Plodia interpunctella

We describe a provitellogenic stage, a previously unrecognized stage of follicle development in moths, and show that oocytes begin yolk sphere formation prior to the development of patency by the follicular epithelium. The vitellogenic activities of follicles from pharate adult femalePlodia interpunctella (Hübner) were determined by visualizing the subunits of vitellin (YP1 and YP3) and the follicular epithelium yolk protein (YP2 and YP4) using monospecific antisera to each subunit to immunolabel whole-mounted ovaries or ultrathin sections. At 92 h after pupation, yolk spheres that contained only YP2 began to proliferate in the oocytes. The inter-follicular epithelial cell spaces were closed at 92 h making vitellogenin inaccessible to the oocyte, and consequently, the vitellin subunits were not observed in the yolk spheres. YP2 uptake most likely occurred across the brush border from the follicular epithelial cells to the oocyte at this time. At 105 h, the inter-follicular epithelial cell spaces appeared closed yet trace amounts of labeling for vitellin were observed in the spaces and also in the yolk spheres along with YP2. Equivalent labeling for all four YPs in yolk spheres was finally observed at 112 h after pupation when the follicular epithelium had become patent. These data indicate that the provitellogenic stage is an extended transition period between the previtellogenic and vitellogenic stages that lasts for approximately 13 h, and it is marked at the beginning by YP2 yolk sphere formation in the oocyte and at the end by patency in the follicular epithelium.