Hepatopancreas and ovary are sites of vitellogenin synthesis as determined from partial cDNA encoding of vitellogenin in the marine shrimp,Penaeus vannamei

Summary

The site of yolk protein synthesis in crustaceans has long been a subject of controversy. A portion of the vitellogenin gene structure was reported recently in a freshwater giant prawn (Macrobrachium rosenbergii) and black tiger shrimp (Penaeus monodori), in which the hepatopancreas was confirmed to be the extraovarian site of vitellogenin synthesis. The ovary is also frequently reported to be the site of yolk protein synthesis in penaeid shrimp. The same PCR product was obtained using cDNA from the hepatopancreas or the ovary as a template. The deduced amino acid sequence of Vg in P. vannamei showed high identities of 57% and 78% with those from M. rosenbergii and P. monodon, respectively. The same location of the intron in the sequenced region of genomic DNA was also found between these three species. We therefore concluded that the hepatopancreas and ovary are sites of vitellogenin synthesis in P. vannamei. The partial structure of the vitellogenin gene is further presented.     

Hepatopancreas is the extraovarian site of vitellogenin synthesis in black tiger shrimp, Penaeus monodon.

The site of yolk protein synthesis in crustaceans has long been a subject of controversy. The vitellogenin gene structure was partially reported only very recently in Macrobrachium rosenbergii, after which the hepatopancreas was confirmed as the extraovarian site of vitellogenin synthesis in that species. Ovaries are the most frequently reported as the site of yolk protein synthesis in penaeid shrimp. Using cDNA reversed-transcribed from mRNA isolated from the hepatopancreas of vitellogenic female shrimp, Penaeus monodon, we found that its deduced amino acid sequence had high identity of 48% with that from M. rosenbergii vitellogenin. A similar location of the intron in the sequenced region of genomic DNA was also found between these two species. We therefore concluded that the hepatopancreas the extraovarian site of vitellogenin synthesis in P. monodon in vivo. The partial structure of vitellogenin gene is presented in this study.     

Hepatopancreas is the extraovarian site of vitellogenin synthesis in black tiger shrimp, Penaeus monodon

The site of yolk protein synthesis in crustaceans has long been a subject of controversy. The vitellogenin gene structure was partially reported only very recently in Macrobrachium rosenbergii, after which the hepatopancreas was confirmed as the extraovarian site of vitellogenin synthesis in that species. Ovaries are the most frequently reported as the site of yolk protein synthesis in penaeid shrimp. Using cDNA reversed-transcribed from mRNA isolated from the hepatopancreas of vitellogenic female shrimp, Penaeus monodon, we found that its deduced amino acid sequence had high identity of 48% with that from M. rosenbergii vitellogenin. A similar location of the intron in the sequenced region of genomic DNA was also found between these two species. We therefore concluded that the hepatopancreas the extraovarian site of vitellogenin synthesis in P. monodon in vivo. The partial structure of vitellogenin gene is presented in this study.     

Ovarian follicle cells are the site of vitellogenin synthesis in the Pacific abalone Haliotis discus hannai

Only a few biochemical and molecular studies on yolk proteins (vitellins) have been carried out in mollusks, mainly in bivalves, while information on prosobranch vitellogenesis is still limited. In this study, we cloned a full-length cDNA encoding vitellogenin (Vg) in the Pacific abalone Haliotis discus hannai. The complete Vg cDNA consists of 7753 nucleotides with a long open reading frame encoding 2391 amino acid residues. The deduced primary structure contains the N-terminal amino acid sequences of the 95 kDa and 150 kDa subunits of vitellin of the abalone and shows similarities to Vgs of other mollusk, fish, nematode and coral species. In common with bivalve Vgs, the abalone Vg gene was expressed only in the ovary. In situ hybridization analysis further localized Vg mRNA to the follicle cells in the ovary. We conclude that the follicle cells are the site of Vg synthesis in H. discus hannai.     

Characterization of the solubilized mosquito vitellogenin receptor

In this study we solubilized and characterized the receptor for the major egg yolk protein precursor, vitellogenin (Vg), from the yellow fever mosquito, Aedes aegypti. The receptor was solubilized from vitellogenic ovary membranes using octyl-β- -glucoside (OG). Under equilibrium binding conditions, [³⁵S]Vg bound with high affinity (K_d = 2.8 × 10⁻⁸ M) to a single class of binding sites in solubilized ovary extracts. The solubilized receptor was present in ovarian extracts and bound selectively A. aegypti Vg and its storage form, vitellin (Vn). The receptor preparation was heat and trypsin sensitive. Binding of Vg to its receptor could be inhibited as well dissociated with suramin. The receptor was visualized by ligand-blotting as a 205 kDa protein under non-reducing conditions. It did not share immunological cross-reactivity with antibodies to chicken and locust Vg receptors. Vitellogenin, Vn and its purified subunits competed for binding to the receptor in the order, Vg ≈ Vn > Vn large subunit > Vn small subunit. Binding of dephosphorylated Vg was significantly reduced. Deglycosylated Vg, on the other hand, formed high molecular weight aggregates resulting in artifactually high binding which indicates importance of glycosylation for the stability of Vg molecule. During egg maturation, the number of receptor binding sites in ovaries correlated with the rate of Vg uptake and peaked between 24–30 h after which it reduced to no binding by 48 h post blood meal.     

半翅目昆虫卵黄原蛋白及其合成调控的研究进展

昆虫卵黄原蛋白（Vitellogenins, Vg）是一种多功能的生殖发育关键调控蛋白,在不同昆虫体内的结构、合成调控及功能不尽相同。随着基因编辑技术的成熟,运用分子手段调控Vg的合成,可减少卵黄发生,降低昆虫的繁殖力,成为有效防治害虫的优势方法之一。因此,Vg及其合成调控的研究受到广泛关注。半翅目害虫是农林业的重点防治对象之一,除直接刺吸为害寄主外,其常传播植物病原体,对农业生产造成了严重危害。半翅目昆虫Vg除在生殖发育中的关键作用外,还与病原菌的传播、寄主免疫等密切相关,可成为分子水平防治半翅目害虫及其继发病害的优势靶标。因此,本文总结了半翅目昆虫Vg的合成方式、合成场所,指明了其结构上蛋白亚基数目的差异,概述了其与昆虫免疫反应、植物防御、病毒传播等有关的研究进展,总结了其合成的保幼激素（包括保幼激素受体Methoprene-tolerant和转录因子Krüppel homolog 1等关键调控因子等）、蜕皮激素和胰岛素信号通路等主要的内分泌激素调控通路,以及以营养信号调控为主的非激素调控通路,为探索半翅目害虫的分子防控手段提供理论依据。     

Deduced primary structure of vitellogenin in the giant freshwater prawn, Macrobrachium rosenbergii, and yolk processing during ovarian maturation

A cDNA encoding vitellogenin (Vg) in the giant freshwater prawn, Macrobrachium rosenbergii, was cloned based on the cDNA sequence of vitellin (Vn) fragments A-N and B-42 determined previously, and its amino acid sequence deduced. The open reading frame (ORF) encoded 2,537 amino acid residues and its deduced amino acid sequence possessed three consensus cleavage sites, R-X-R-R, similar to those reported in Vgs of insects. The deduced primary structure of Vg in M. rosenbergii was seen to be similar to that of Penaeus japonicus, especially in the N-terminal region. It is therefore likely that Vgs in crustacean species including prawns and other related decapods exhibit a similar structural pattern. Based on the deduced primary structure of Vg and analysis of the various Vg and Vn subunits found in the hemolymph and ovary during ovarian maturation, we demonstrated the post-translational processing of Vg in M. rosenbergii. This is the first time that Vg processing has been clearly demonstrated in a crustacean species. Vg, after being synthesized in the hepatopancreas, is considered to be cleaved by a subtilisin-like endoprotease to form two subunits, A and proB, which are then released into the hemolymph. In the hemolymph, proB is possibly cleaved by a processing enzyme of unknown identity to give rise to subunits B and C/D. The three processed subunits A, B, and C/D are sequestered by the ovary to give rise to three yolk proteins, Macr-VnA, VnB, and VnC/D.     

Dynamics of vitellogenin mRNA expression during vitellogenesis in the banana shrimp Penaeus (Fenneropenaeus) merguiensis using real-time PCR

An open reading frame (ORF) of vitellogenin (Vg) cDNA was amplified from the ovaries of the banana shrimp, Penaeus merguiensis. An examination of Vg-deduced amino acid sequence revealed the presence of cleavage sites at a consensus motif for subtilisin-like endoproteases prior to the N-terminal sequences of purified vitellin (Vt) subunits. A comparison of the primary structures of Vg molecules in decapod crustacean species revealed the existence of a common characteristic structure, and phylogenetic analysis reflected the current taxonomic classifications of crustaceans. A PCR product of 1.1 kb encoding the 3'-end of Vg cDNA was cloned from the hepatopancreas. Although its sequence was almost identical to that of the same region of the ovarian Vg, with only 18 nucleotide differences, analysis suggests that they have been subjected to natural selection, indicating that there may be two different, tissue-specific Vg genes in P. merguiensis. This is consistent with the different expression patterns of Vg mRNA, as determined by real-time PCR. Vg mRNA levels were maintained at low levels during the previtellogenic stage and they increased as vitellogenesis progressed to reach a peak at the early vitellogenic stage in the ovary or at the vitellogenic stage in the hepatopancreas, and thereafter, levels decreased. Expression of Vg mRNA was much higher in the ovary compared to the hepatopancreas at all stages of ovarian development, implying that the ovary is mainly responsible for Vt synthesis. These indicate that penaeids constitute a unique model for vitellogenesis, showing intraovarian gene expression and synthesis of yolk protein.     

Full-length sequence, regulation and developmental studies of a second vitellogenin gene from the American dog tick, Dermacentor variabilis

Vitellogenin (Vg) is the precursor of vitellin (Vn) which is the major yolk protein in eggs. In a previous report, we isolated and characterized the first Vg message from the American dog tick Dermacentor variabilis. In the current study, we describe a second Vg gene from the same tick. The Vg2 cDNA is 5956 nucleotides with a 5775 nt open reading frame coding for 1925 amino acids. The conceptual amino acid translation contains a 16-residues putative signal peptide, N-terminal lipid binding domain and C-terminal von Willebrand factor type D domain present in all known Vgs. Moreover, the amino acid sequence shows a typical GLCG domain and several RXXR cleavage sites present in most isolated Vgs. Tryptic digest-mass fingerprinting of Vg and Vn recognized 11 fragments that exist in the amino acid translation of DvVg2 cDNA. Injection of virgin females with 20 hydroxyecdysone induced DvVg2 expression, vitellogenesis and oviposition. Using RT-PCR, DvVg2 expression was detected only in tick females after mating and feeding to repletion. Northern blot analysis showed that DvVg2 is expressed in fat body and gut cells of vitellogenic females but not in the ovary. DvVg2 expression was not detected in adult fed or unfed males. The characteristics that distinguish Vg from other similar tick storage proteins like the carrier protein, CP (another hemelipoglycoprotein) are discussed.     

Cloning of vitellogenin cDNA of the American cockroach, Periplaneta americana (Dictyoptera), and its structural and expression analyses

A cDNA expression library constructed from poly (A)(+) RNA prepared from vitellogenic female fat body cells of the American cockroach, Periplaneta americana (Dictyoptera) was screened using a polyclonal antiserum against the 100-kD polypeptide(s) from the egg extract. A partial Vg cDNA clone was obtained and sequenced. The 5' end portion of the cDNA was then obtained by the RACE method, cloned, and sequenced. The combined complete Vg cDNA was 5,854 bp long and contained a single ORF encoding 1,896 amino acids. The entire deduced amino acid sequence was aligned confidently with those of the known insect Vgs. A GL/ICG motif, a number of cysteines at conserved locations following this motif, and a DGXR motif upstream of the GL/ICG motif were present near the C-terminal. The chemically determined N-terminal amino acid sequence of the 170-kD polypeptide from the egg extract completely matched the deduced sequence starting from just after one of the consensus (RXXR) cleavage sites, indicating the occurrence of post-translational cleavage in the fat body cells. The Vg gene begins to be expressed in the 2-day-old adult female fat body cells but is never expressed in ovaries or in male fat body cells. Hemolymph Vg was first detected by immunoblotting in 4-day-old adult females, 2 days after the beginning of gene expression. Western blot analysis of major yolk polypeptides in nine cockroach species belonging to the two superfamilies, Blattoidea and Blaberoidea, using the antisera against P. americana major yolk polypeptides showed that the similarities in Vn antigenicity are basically limited to within a superfamily.     

Vitellogenin and vitellin of a millipede Spirostreptus asthenes: Occurrence,isolation and partial characterization

Vitellogenin (Vg), the yolk precursor protein and its product vitellin (Vn) have been identified in hemolymph and fat body of females and mature oocytes in the millipede Spirostreptus asthenes employing double immunodiffusion technique. These two proteins are absent in males indicating that they are female specific. Immunoelectrophoresis has shown that there is only one vitellogenic protein present in S. asthenes. Vg and Vn were isolated by gel filtration. Polyacrylamide gel electrophoresis (PAGE) analysis revealed that Vg and Vn are glycolipoproteins. Vg contains 48.8% protein, 2.2% carbohydrate and 48.9% lipid. Vn is comprised of 52% protein, 2.3% carbohydrate and 45.4% lipid. The lipid components of Vg and Vn include mainly phospholipids such as phosphatidic acid, sphingomyelin, phosphatidyl choline, phosphatidyl ethanolamine and cholesterol. On SDS-PAGE analysis both Vg and Vn yielded five sub units each. The molecular weight of the sub units of Vg was found to be 135, 115, 105, 73 and 56 kDa and those of Vn were 125, 110, 100, 68, and 53 kDa. The vitellogenic system of S. asthenes resembles that of insects. The phylogenetic relationship of the vitellogenic system of this millipede with other arthropod groups is discussed.     

Crustacean Vitellogenesis: Its Role in Oocyte Development

One of the major changes that occurs during the maturation ofoocytes is the accumulation of yolk protein, or vitellin (Vn).To better understand how this process is regulated, we characterizedthe Vn of the ridgeback shrimp, Sicyonia ingentis (Penaeoidea).This Vn is a 322 kDa molecule composed of three subunits. Usingpurified Vn, we developed an anti-Vn antiserum and used it tocharacterize vitellogenin by Western blot analysis. The antiserumwas also used in an ELISA to measure hemolymph levels of vitellogenin.Previous studies suggested the presence of vertebrate-type steroidsmight stimulate reproductive processes in decapod crustaceans.Treatment of sexually quiescent female shrimp with progesterone,hydroxyprogesterone, and estradiol did not increase hemolymphlevels of yolk protein precursor. The absence of a responseto these steroids may reflect the presence of other hormones(such as the gonad-inhibiting hormone) that prevent oocyte development.To examine the molecular basis for the regulation of vitellogenesis,ovarian and hepatopancreas expression cDNA libraries were screenedusing the anti-Vn antiserum. A 2.9 kilobase clone was isolatedfrom both cDNA libraries suggesting that both tissues are sitesof vitellogenin synthesis. These molecular tools should be usefulfor in vitro studies of vitellogenin synthesis.     

Synthesis and organization of vitellogenin and vitellin molecules from the land crab Potamon potamios

We have previously reported that vitellogenin (Vg) of some female animals contained four polypeptides with molecular mass of 181, 115, 105 and 85 kDa, whereas Vg of most animals contained three polypeptides with molecular mass of 115, 105 and 85 kDa. In the present investigation, we examined whether the 181 kDa polypeptide is the precursor of 115 and 105 kDa Vg and vitellin (Vn) polypeptides. Labeling studies, using [35S]methionine on normal vitellogenic animals, showed that the radioactivity was distributed first among the 181 and 85 kDa polypeptides. SDS-PAGE analysis of purified hemolymph Vg from eyestalk ablated female animals revealed in most animals two polypeptides with an apparent molecular mass of 181 and 85 kDa. These results from in vivo experiments corroborated the view that the 115 and 105 kDa Vg and Vn polypeptides are derived from heaviest 181 kDa polypeptide. In addition it was demonstrated that hepatopancreas and ovary of Potamon potamios incubated in vitro with [35S]methionine synthesized five polypeptides with apparent molecular mass of 224, 181, 115, 105, and 85 kDa while the hepatopancreas appeared to secrete the 181, 115, 105 and 85 kDa polypeptides. The major 115, 105 and 85 kDa polypeptides were found to be components of egg Vn, while the 224 kDa polypeptide was found to be minor component of Vg and Vn from hepatopancreas and ovary extracts, respectively. We conclude that the Vn polypeptides produced by ovary are similar to those produced by hepatopancreas.     

Molecular characterization of a cDNA encoding vitellogenin in the banana shrimp, Penaeus (Litopenaeus) merguiensis and sites of vitellogenin mRNA expression

In order to determine the primary structure of banana shrimp, Penaeus merguiensis, vitellogenin (Vg), we previously purified vitellin (Vt) from the ovaries of vitellogenic females, and chemically analyzed the N-terminal amino acid sequence of its 78 kDa subunit. In this study, a cDNA from this species encoding Vg was cloned based on the N-terminal amino acid sequence of the major 78 kDa subunit of Vt and conserved sequences of Vg/Vt from other crustacean species. The complete nucleotide sequence of Vg cDNA was achieved by RT-PCR and 5' and 3' rapid amplification of cDNA ends (RACE) approaches. The full-length Vg cDNA consisted of 7,961 nucleotides. The open reading frame of this cDNA encoding a precursor peptide was comprised of 2,586 amino acid residues, with a putative processing site, R-X-K/R-R, recognized by subtilisin-like endoproteases. The deduced amino acid sequence was obtained from the Vg cDNA and its amino acid composition showed a high similarity to that of purified Vt. The deduced primary structure, of P. merguiensis Vg was 91.4% identical to the Vg of Penaeus semisulcatus and was also related to the Vg sequences of six other crustacean species with identities that ranged from 86.9% to 36.6%. In addition, the amino acid sequences corresponding to the signal peptide, N-terminal region and C-terminal region of P. merguiensis Vg were almost identical to the same sequences of the seven other reported crustacean species. Results from RT-PCR analysis showed that Vg mRNA expression was present in both the ovary and hepatopancreas of vitellogenic females but was not detected in other tissues including muscle, heart, and intestine of females or in the hepatopancreas of mature males. These results indicate that the Vg gene may be expressed only by mature P. merguiensis females and that both the ovary and hepatopancreas are possible sites for Vg synthesis in this species of shrimp.     

Induction and partial characterization of California halibut (Paralichthys californicus) vitellogenin

The egg yolk precursor protein, vitellogenin (Vg), was isolated by size exclusion and ion exchange chromatography from plasma of California halibut (Paralichthys californicus) treated with estrogen. MALDI TOF mass spectrometry (MS) analysis resulted in a molecular mass of 188 kDa. MS/MS de novo sequencing identified the protein as Vg by matching sequences of tryptic peptides to the known sequences of several other species. Matches were also made to two different forms of Vg in haddock, medaka, and mummichog, providing evidence that California halibut has more than one form of Vg. Native PAGE and Western blot with an antibody to turbot (Scophthalmus maximus) Vg confirmed the identity of the protein. Protein resolved on the SDS PAGE as a double band of approximately the same mass as determined with MALDI TOF, and two lower mass bands that were also immunoreactive. MALDI TOF and MS/MS de novo sequencing were useful for determining the molecular mass, identification, and exploring the multiplicity of Vg. The potential of using other MS methods to understand the structure and function of Vg is discussed.     

Identification and characterization of the vitellogenin receptor in Macrobrachium rosenbergii and its expression during vitellogenesis

In oviparous organisms, oocyte maturation depends on massive production of the egg yolk-precursor protein, vitellogenin (Vg). Vg is taken up by the developing oocytes through receptor-mediated endocytosis (RME), a process essential to successful reproduction. The aims of this study were to identify and characterize the yet-unknown vitellogenin receptor (VgR) from the pleocyamate crustacean Macrobrachium rosenbergii, and to investigate its expression levels during vitellogenesis and its interaction with Vg. The VgR gene was cloned, and its translated protein was specifically located at the oocyte membrane. Moreover, for the first time, a VgR protein was identified and sequenced by mass spectrometry. The putative MrVgR displayed high sequence similarity to VgRs from crustaceans, insects, and vertebrates, and its structure includes typical elements, such as an extracellular, lipoprotein-binding domain (LBD), EGF-like, and O-glycosylation domains, a transmembrane domain, and a short, C-terminal, cytosolic tail. In this article, we identify the first crustacean VgR protein, and present data demonstrating its high affinity for a Vg column followed by elution with suramin and EDTA. Additionally we demonstrate that VgR expression in the oocyte is elevated during vitellogenesis. Our results contribute to the fundamental understanding of oocyte maturation in crustaceans, and particularly elucidate Vg uptake through RME via the VgR.     

Fat body is the site of vitellogenin synthesis in the soft tick,Ornithodoros moubata

Summary Vitellogenin (Vg) synthesis in cultured tissues was analysed biochemically in a soft tick,Ornithodoros moubata. Nine tissue fractions dissected from reproductive females were incubated in vitro in a specially designed Ringer containing³⁵S-methionine. The synthesis of total protein and Vg was assayed by the radioactivity incorporated into precipitates with trichloroacetic acid and antivitellin (Vn)-serum, respectively. Fat body was the most active tissue in Vg synthesis, which comprised 46% of the Vg synthesis by all tissues and 42% of total protein synthesis by fat body. Protein synthesized by the fat body and precipitated with anti-Vn-serum was shown by electrophoresis and fluorography, to consist of six radioactive polypeptides corresponding to the components of Vg. Vg synthesized in cultured fat body was first accumulated in the tissue and secreted into the medium during incubation. Some tissues other than fat body showed low Vg synthesis (in each, less than 12% of total protein synthesis) which, however, may be due to contamination by fat body cells as seen with the scanning electron microscope (SEM). SEM also showed that fat body cells in the active stage of Vg synthesis expanded about 10-fold in length. Immunohistochemical analysis showed a very strong reaction with anti-Vn-IgG in the cytoplasm of fat body from reproductive females. Fat body from unfed females and other tissues including midgut, did not show any specific fluorescence. A positive reaction was obtained with developing oocytes. These results indicate that the fat body is the only site of Vg synthesis in this tick.Abbreviations Vg vitellogenin - Vn vitellin - SDS sodium dodecyl sulfate - PAGE polyacrylamide gel electrophoresis - SEM scanning electron microscopy - TCA trichloroacetic acid     

Binding of vitellogenin to membranes isolated from mosquito ovaries

The presence of specific receptors for vitellogenin (Vg) in ovary membranes of the mosquito, Aedes aegypti, was demonstrated by an in vitro binding assay. The binding reaction, which is dependent on pH and Ca2+, uses 4 micrograms membrane protein, 35S-Vg labeled metabolically by fat body culture in vitro, and unlabeled vitellin (Vn) for competition. At pH 7.0 and in the presence of 5 mM Ca2+, the binding of Vg to its receptor reaches equilibrium within 60-90 min at both 4 and 25 degrees C. The binding is specific to membranes prepared only from ovaries. While mosquito Vg and Vn bind with equal affinity to Vg receptors on ovary membranes, neither locust Vg nor mouse IgG has any measurable affinity towards these sites. Nonlinear least square analysis of the saturation isotherms is consistent with the presence of a single class of Vg receptors on ovary membranes with a dissociation constant (Kd) of 0.18 microM.