Dramatic secretion of recombinant protein expressed in tobacco cells with a designer glycopeptide tag is highly impacted by medium composition

Key message

Cell growth medium composition has profound impacts on the O -glycosylation of a “designer” arabinogalactan protein-based module; full glycosylation is essential in directing efficient extracellular secretion of the tagged recombinant protein.

Abstract

Expression of recombinant proteins in plant cells as fusion with a de novo designed hydroxyproline (Hyp)-O-glycosylated peptide (HypGP) tag, termed HypGP engineering technology, resulted in dramatically increased secreted protein yields. This is due to the function of the HypGP tag as a molecular carrier in promoting efficient transport of conjoined proteins into culture media. To optimize the cell culture to achieve the best secreted protein yields, the medium effects on the cell growth and protein secretion were investigated using as a model system the tobacco BY-2 cell expressing enhanced green fluorescence protein (EGFP) fused with a (SP)₃₂ tag (32 tandem repeats of “Ser-Pro” motif). The (SP)₃₂ tag was found to undergo two-stage Hyp-O-glycosylation in plant cells with the dramatic secretion of the conjoined EGFP correlating with the triggering of the second-stage glycosylation. The BY-2 cell culture in SH medium generated a high secreted protein yield (125 mg/L) with a low cell biomass accumulation (~7.5 gDW/L). In contrast, very low secreted protein yields (~1.5 mg/L) with a high cell biomass accumulation (13.5 gDW/L) were obtained in MS medium. The macronutrients, specifically, the nitrogen supply greatly impacted the glycosylation of the (SP)₃₂ tag and subsequent protein secretion. Modified MS medium with reduced nitrogen levels boosted the secreted EGFP yields to 168 mg/L. This study demonstrates the profound impacts of medium composition on the secreted yields of a HypGP-tagged protein, and provides a basis for medium design to achieve the highest productivity of the HypGP engineering technology.

     

Secretion of active β-lactamase to the medium mediated by the Escherichia coli haemolysin transport pathway

An in frame gene fusion containing the coding region for mature β-lactamase and the 3′-end of hylA encoding the haemolysin secretion signal, was constructed under the control of a lac promoter. The resulting 53 kDa hybrid protein was specifically secreted to the external medium in the presence of the haemolysin translocator proteins, HlyB and HlyD. The specific activity of the β-lactamase portion of the secreted protein (measured by the hydrolysis of penicillin G), approximately 1 U/μg protein, was close to that of authentic, purified TEM-β-lactamase. This is an important example of a hybrid protein that is enzymatically active, and secreted via the haemolysin pathway. Previous studies have indicated that haemolysin is secreted directly into the medium, bypassing the periplasm, to which β-lactamase is normally targeted. This study indicated, therefore, that normal folding of an active β-lactamase, can occur, at least when fused to the HlyA C-terminus, without the necessity of entering the periplasm. Despite the secretion of approximately 5 μg/ml levels of the active β-lactamase fusion into the medium, there was maximally only a 50% detectable increase in the LD₅₀ for resistance to ampicillin at the individual cell level. This result suggests that, normally, resistance to ampicillin requires a high concentration of the enzyme close to killing targets, i.e. in the periplasm, in order to achieve significant levels of protection.     

Studies on the Production of Fungal Peroxidases in Aspergillus niger

To get insight into the limiting factors existing for the efficient production of fungal peroxidase in filamentous fungi, the expression of the Phanerochaete chrysosporium lignin peroxidase H8 (lipA) and manganese peroxidase (MnP) H4 (mnp1) genes in Aspergillus niger has been studied. For this purpose, a protease-deficient A. niger strain and different expression cassettes have been used. Northern blotting experiments indicated high steady-state mRNA levels for the recombinant genes. Manganese peroxidase was secreted into the culture medium as an active protein. The recombinant protein showed specific activity and a spectrum profile similar to those of the native enzyme, was correctly processed at its N terminus, and had a slightly lower mobility on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Recombinant MnP production could be increased up to 100 mg/liter upon hemoglobin supplementation of the culture medium. Lignin peroxidase was also secreted into the extracellular medium, although the protein was not active, presumably due to incorrect processing of the secreted enzyme. Expression of the lipA and mnp1 genes fused to the A. niger glucoamylase gene did not result in improved production yields.     

Control of secretory production of human lysozyme from Saccharomyces cerevisiae by incubation temperature and phosphate concentration

A system for the controlled expression of a foreign gene in Saccharomyces cerevisiae by temperature and/or inorganic phosphate (P_i) concentration in the medium was constructed. A DNA fragment bearing the promoter of the PHO84 gene, which encodes a P_i transporter of S. cerevisiae and is derepressed by P_i starvation, was used as promoter. When a cDNA fragment encoding the human lysozyme (h-lysozyme) gene connected with the PHO84 promoter was ligated into a YEp vector, a maximum of 4.5 mg/l of the enzyme was secreted from the host cells in low-P_i medium. When a temperature-sensitive pho81 mutant was used as the host with this vector, 2.6 mg/l of h-lysozyme was secreted in low-P_i medium at 25°C and its production was turned off at 37°C.     

Production of Active Chimeric Pediocin AcH in Escherichia coli in the Absence of Processing and Secretion Genes from the Pediococcus pap Operon

Minimum requirements have been determined for synthesis and secretion of the Pediococcus antimicrobial peptide, pediocin AcH, in Escherichia coli. The functional mature domain of pediocin AcH (Lys⁺¹ to Cys⁺⁴⁴) is targeted into the E. coli sec machinery and secreted to the periplasm in active form when fused in frame to the COOH terminus of the secretory protein maltose-binding protein (MBP). The PapC-PapD specialized secretion machinery is not required for secretion of the MBP-pediocin AcH chimeric protein, indicating that in Pediococcus, PapC and PapD probably are required for recognition and processing of the leader peptide rather than for translocation of the mature pediocin AcH domain across the cytoplasmic membrane. The chimeric protein displays bactericidal activity, suggesting that the NH₂ terminus of pediocin AcH does not span the phospholipid bilayer in the membrane-interactive form of the molecule. However, the conserved Lys⁺¹-Tyr-Tyr-Gly-Asn-Gly-Val⁺⁷-sequence at the NH₂ terminus is important because deletion of this sequence abolishes activity. The secreted chimeric protein is released into the culture medium when expressed in a periplasmic leaky E. coli host. The MBP fusion-periplasmic leaky expression system should be generally advantageous for production and screening of the activity of bioactive peptides.     

Expression of recombinant Atlantic salmon serum C-type lectin in Drosophila melanogaster Schneider 2 cells

The Atlantic salmon (Salmo salar) serum lectin (SSL) is a soluble C-type lectin that binds bacteria, including salmon pathogens. This lectin is a cysteine-rich oligomeric protein. Consequently, a Drosophila melanogaster expression system was evaluated for use in expressing SSL. A cDNA encoding SSL was cloned into a vector designed to express it as a fusion protein with a hexahistidine tag, under the control of the Drosophila methallothionein promoter. The resulting construct was stably transfected into Drosophila S2 cells. After CdCl₂ induction, transfected S2 cells secreted recombinant SSL into the cell culture medium. A cell line derived from stably transformed polyclonal cell populations expressing SSL was used for large-scale expression of SSL. Recombinant SSL was purified from the culture medium using a two-step purification scheme involving affinity binding to yeast cells and metal-affinity chromatography. Although yields of SSL were very low, correct folding and functionality of the recombinant SSL purified in this manner was demonstrated by its ability to bind to Aeromonas salmonicida. Therefore, Drosophila S2 cells may be an ideal system for the production of SSL if yields can be increased.     

High affinity binding of the transcobalamin II–cobalamin complex and mRNA expression of haptocorrin by human mammary epithelial cells

Little is known about the acquisition of cobalamin by the mammary gland and its secretion into milk. Human milk and plasma contain at least two types of cobalamin binding proteins: transcobalamin II (TC) and haptocorrin (HC). In plasma, TC is responsible for the transport of cobalamin to tissues and cells; however, cobalamin in milk is present exclusively bound to HC. We show that human mammary epithelial cells (HMEC) exhibit high affinity for TC; Scatchard analysis revealed a single class of binding sites for the TC–[⁵⁷Co]cyanocobalamin complex with a dissociation constant (K_d) of 4.9×10⁻¹¹ M. Uptake of the TC–[⁵⁷Co]cyanocobalamin complex at 37°C was saturable by 24 h. Binding of free [⁵⁷Co]cyanocobalamin to HMEC was not saturable and very limited binding of the HC–[⁵⁷Co]cyanocobalamin complex was observed. Expression of the haptocorrin gene by HMEC was confirmed by Northern blot and PCR analysis. Thus, a specific cell surface receptor for the TC–cobalamin complex exists in the mammary gland and once cobalamin is internalized, it may be transferred to HC and subsequently secreted into milk as a HC–cobalamin complex.     

In vitro conditions affect photosynthetic performance and crassulacean acid metabolism in Mammillaria gracilis Pfeiff. tissues

Mammillaria gracilis Pfeiff. plants cultivated in the pot (pot plants, PP), as well as in vitro-grown normal shoots (NS), habituated callus (HC), hyperhydric shoots (HS), and tumour tissue (TT) were investigated in order to reveal the influence of in vitro culture on functionality of the photosynthetic apparatus and CAM photosynthesis in cactus M. gracilis Pfeiff. Photosynthetic pigments content as well as maximum (F _v/F _m) and effective (??_PSII) quantum yield of photosystem II (PSII) decreased in all in vitro-grown tissues in comparison to PP. The decrease observed in hyperhydric HC, HS and TT correlated with a low expression of Rubisco large subunit (RbcL) and ?? subunit of ATP synthase (?? ATP synt) and almost undetectable levels of protein D1, light-harvesting chlorophyll a/b-binding protein (LHCII) and cytochrome f protein of thylakoid Cyt b ₆ /f-complex (Cyt f) found in these tissues. As for crassulacean acid metabolism (CAM) pattern, PP and NS expressed diurnal acid fluctuation, while HC, HS and TT failed to show it. Nevertheless, all M. gracilis tissues exhibited diurnal changes of phosphoenolpyruvate carboxylase (PEPC) activity indicating the typical CAM physiology. In conclusion, the photosynthesis was down-regulated in all in vitro-grown tissues. NS maintained typical CAM photosynthesis, while HC, HS and TT withheld PEPC activity, but not acid accumulation specific for CAM. Minor changes observed in NS in comparison to PP could be attributed to the sugar supplementation while the more prominent deviations found in HC, HS and TT could be correlated with hyperhydricity and the loss of characteristic tissue organisation pattern.     

The complete amino acids sequence of human complex-forming glycoprotein heterogeneous in charge (protein HC)

The complete amino acid sequence of human protein HC isolated from the urine of a single individual (JL) was determined. The polypeptide chain contained 181 residues, had a calculated molecular weight of 20,435 and contained 3 cysteine residues at positions 34, 70 and 167. An intrachain disulfide bridge was formed by residues 70 and 167. No variation of the amino acid sequence of protein HC was found and can therefore not explain the charge heterogeneity of protein HC in a given individual. The amino acid sequence of protein HC was almost identical to the one reported for human α₁-microglobulin but contained 14 additional residues.     

Increasing phosphorus concentration in the extraradical hyphae of <Emphasis Type="Italic">Rhizophagus irregularis</Emphasis> DAOM 197198 leads to a concomitant increase in metal minerals

Plants associated with arbuscular mycorrhizal fungi (AMF) acquire phosphorus via roots and extraradical hyphae. How soil P level affects P accumulation within hyphae and how P in hyphae influences the accumulation of metal minerals remains little explored. A bi-compartmented in vitro cultivation system separating a root compartment (RC), containing a Ri T-DNA transformed carrot root associated to the AMF Rhizophagus irregularis DAOM 197198, from a hyphal compartment (HC), containing only the extraradical hyphae, was used. The HC contained a liquid growth medium (i.e., the modified Strullu-Romand medium containing P in the form of KH₂PO₄) without (0 μM) or adjusted to 35, 100, and 700 μM of KH₂PO₄. The accumulation of P and metal minerals (Ca, Mg, K, Na, Fe, Cu, Mn) within extraradical hyphae and AMF-colonized roots, and the expression of the phosphate transporter gene GintPT were assessed. The expression of GintPT in the extraradical hyphae did not differ in absence of KH₂PO₄ or in presence of 35 and 100 μM KH₂PO₄ in the HC but was markedly reduced in presence of 700 μM KH₂PO₄. Hyphal P concentration was significantly lowest in absence of KH₂PO₄, intermediate at 35 and 100 μM KH₂PO₄ and significantly highest in presence of 700 μM KH₂PO₄ in the HC. The concentrations of K, Mg, and Na were positively associated with the concentration of P in the extraradical hyphae developing in the HC. Similarly, P concentration in extraradical hyphae in the HC was related to P concentration in the growth medium and influenced the concentration of K, Mg, and Na. The accumulation of the metal mineral K, Mg, and Na in the extraradical hyphae developing in the HC was possibly related to their function in neutralizing the negative charges of PolyP accumulated in the hyphae.     

Structural and functional characterization of recombinant medaka fish alpha-amylase expressed in yeast Pichia pastoris

The medaka fish α-amylase was expressed and purified. The expression systems were constructed using methylotrophic yeast Pichia pastoris, and the recombinant proteins were secreted into the culture medium. Purified recombinant α-amylase exhibited starch hydrolysis activity. The optimal pH, denaturation temperature, and K_M and V_max values were determined; chloride ions were essential for enzyme activity. The purified protein was also crystallized and examined by X-ray crystallography. The structure has the (α/β)₈ barrel fold, as do other known α-amylases, and the overall structure is very similar to the structure of vertebrate (human and pig) α-amylases. A novel expression plasmid was developed. Using this plasmid, high-throughput construction of an expression system by homologous recombination in P. pastoris cells, previously reported for membrane proteins, was successfully applied to the secretory protein.     

Enhancing activity of N-glycosylation for constitutive proteins secretions in non-polarized cells

Several fusion proteins of mouse Interleukins (mILs) and the enhanced green fluorescent protein (EGFP) were expressed in fibroblast and epithelial cells. Among these proteins, the mIL-31 derivative was the most efficiently secreted into the medium in a N-glycosylation-dependent manner. From the analysis of deletion mutants, the minimal structure for constitutive secretions consisted of a signal peptide and N-glycosylation. Introduction of the signal sequence from mIL-31 to human p53 protein failed to secrete the products, but further addition of the N-glycosylation site resulted in constitutive secretion of biologically active p53 protein into the medium in the N-glycosylated form. In this report, we showed the importance of N-glycosylation for constitutive protein secretions, especially using non-polarized cells.     

A Convenient and General Expression Platform for the Production of Secreted Proteins from Human Cells

Recombinant protein expression in bacteria, typically E. coli, has been the most successful strategy for milligram quantity expression of proteins. However, prokaryotic hosts are often not as appropriate for expression of human, viral or eukaryotic proteins due to toxicity of the foreign macromolecule, differences in the protein folding machinery, or due to the lack of particular co- or post-translational modifications in bacteria. Expression systems based on yeast (P. pastoris or S. cerevisiae) ^1,2, baculovirus-infected insect (S. frugiperda or T. ni) cells ³, and cell-free in vitro translation systems ^2,4 have been successfully used to produce mammalian proteins. Intuitively, the best match is to use a mammalian host to ensure the production of recombinant proteins that contain the proper post-translational modifications. A number of mammalian cell lines (Human Embryonic Kidney (HEK) 293, CV-1 cells in Origin carrying the SV40 larget T-antigen (COS), Chinese Hamster Ovary (CHO), and others) have been successfully utilized to overexpress milligram quantities of a number of human proteins ^5-9. However, the advantages of using mammalian cells are often countered by higher costs, requirement of specialized laboratory equipment, lower protein yields, and lengthy times to develop stable expression cell lines. Increasing yield and producing proteins faster, while keeping costs low, are major factors for many academic and commercial laboratories.Here, we describe a time- and cost-efficient, two-part procedure for the expression of secreted human proteins from adherent HEK 293T cells. This system is capable of producing microgram to milligram quantities of functional protein for structural, biophysical and biochemical studies. The first part, multiple constructs of the gene of interest are produced in parallel and transiently transfected into adherent HEK 293T cells in small scale. The detection and analysis of recombinant protein secreted into the cell culture medium is performed by western blot analysis using commercially available antibodies directed against a vector-encoded protein purification tag. Subsequently, suitable constructs for large-scale protein production are transiently transfected using polyethyleneimine (PEI) in 10-layer cell factories. Proteins secreted into litre-volumes of conditioned medium are concentrated into manageable amounts using tangential flow filtration, followed by purification by anti-HA affinity chromatography. The utility of this platform is proven by its ability to express milligram quantities of cytokines, cytokine receptors, cell surface receptors, intrinsic restriction factors, and viral glycoproteins. This method was also successfully used in the structural determination of the trimeric ebolavirus glycoprotein ^5,10.In conclusion, this platform offers ease of use, speed and scalability while maximizing protein quality and functionality. Moreover, no additional equipment, other than a standard humidified CO₂ incubator, is required. This procedure may be rapidly expanded to systems of greater complexity, such as co-expression of protein complexes, antigens and antibodies, production of virus-like particles for vaccines, or production of adenoviruses or lentiviruses for transduction of difficult cell lines.     

Biophysical characterization of the catalytic domain of guanine nucleotide exchange factor BopE from Burkholderia pseudomallei

BopE is a type III secreted protein from Burkholderia pseudomallei, the aetiological agent of melioidosis. Like its Salmonella homologues SopE and SopE2, BopE is a guanine nucleotide exchange factor for Rho GTPases. It is thought that, in order to be secreted by the type III system, proteins must be unfolded or only partially folded. As part of a study of B. pseudomallei virulence proteins, we have expressed, purified and characterized the catalytic domain of BopE (amino acids 78–261). Analytical ultracentrifugation experiments in conjunction with analytical size exclusion chromatography show that BopE_78–261 is monomeric in aqueous solution. CD spectroscopy indicates that the protein is predominantly α-helical, with predicted secondary structure composition of 59% α-helix and 7% β-strand. NMR spectroscopy confirms that BopE_78–261 adopts a single, stable conformation. In differential scanning calorimetry experiments, thermal denaturation of BopE_78–261 (T_m 52 °C) is reversible. Also, the secondary structure composition of BopE_78–261 changes little over a range of pH values from 3.5 to 10.5. BopE may therefore fold spontaneously to a functional form upon secretion into the host cell cytoplasm, and retains a native or native-like fold in varied environments. These properties are likely to be advantageous for a secreted bacterial effector protein.     

Expression of cDNA fragment encoding sperm membrane peptide inE. coli

A secretory high-level expression cloning vector designated as pSBC-20 was constructed by inserting a DNA fragment encoding the signal peptide of ompA protein into pBV 220 vector. Any foreign DNA fragment can be inserted into the polylinker cloning sites located after the secretion signal sequence. The cloned foreign gene is under the control of the P _R -P _L promoter while the expression of the gene is regulated by the cI-gene product. The products are secreted into the periplasmic space of bacteria or into the medium. A recombinant plasmid (pRSD-220) was constructed by inserting the 210 bp from RSD-2, a cDNA encoding a peptide fragment of human sperm protein, into the EcoRI site of pSBC-20. TheE. coli cells transformed with pRSD-220 were propagated at 30 °C, then incubated at 42 °C for several hrs. The cloned gene product was secreted into the culture medium at a high rate. The yield was about 60 mg of gene product per liter of cultured medium.     

Embryonic chick intestine in organ culture: hydrocortisone and vitamin D-mediated processes.

The effects of the glucocorticoid, hydrocortisone (HC), on vitamin D-mediated responses were examined in the organ-cultured, embryonic chick duodenum. In this system tissue responses to vitamin D-steroids in the culture medium include increased cAMP concentration, de novo synthesis of a specific calcium-binding protein (CaBP), enhanced uptake and transmucosal transport of calcium, and increased alkaline phosphatase activity. HC at levels ≥ 27.5 nm increased vitamin D-induced CaBP concentration: This apparently represents the first report of an interaction of HC with another steroid, vitamin D, in the regulation of the concentration of a specific protein. High levels of HC (≥27.5 μm) in the culture medium reduced duodenal calcium uptake and transmucosal transport regardless of the presence of vitamin D. However, at lower concentrations of HC (≤2.75 μm), only vitamin D-independent calcium uptake (basal calcium uptake) was reduced. Actinomycin D had no effect on HC reduction of basal calcium uptake suggesting that new protein synthesis is not involved in this action. In other experiments either HC or vitamin D stimulated phosphate and glucose uptake, and this uptake was potentiated by the presence of both steroids. HC also stimulated alanine uptake. Either HC or vitamin D increased both alkaline phosphatase activity (APA) and cAMP concentration, but together their activities were only additive. The data accumulated thus far indicate that HC directly influences calcium (and other nutrient) uptake by the duodenum and increases the concentration of the vitamin D-induced CaBP. Other vitamin D-mediated responses (APA and cAMP) were influenced by HC but there was no readily discernible relationship to nutrient uptake.     

Optimization of heterologous expression of the phytase (PPHY) of Pichia anomala in P. pastoris and its applicability in fractionating allergenic glycinin from soy protein

The phytase (PPHY) of Pichia anomala has the requisite properties of thermostability and acidstability, broad substrate spectrum, and protease insensitivity, which make it a suitable candidate as a feed and food additive. The 1,389-bp PPHY gene was amplified from P. anomala genomic DNA, cloned in pPICZαA, and expressed extracellularly in P. pastoris X33. Three copies of PPHY have been detected integrated into the chromosomal DNA of the recombinant P. pastoris. The size exclusion chromatography followed by electrophoresis of the pure rPPHY confirmed that this is a homohexameric glycoprotein of ~420 kDa with a 24.3 % portion as N-linked glycans. The temperature and pH optima of rPPHY are 60 °C and 4.0, similar to the endogenous enzyme. The kinetic characteristics K _m, V _max, K _cat, and K _cat/K _m of rPPHY are 0.2 ± 0.03 mM, 78.2 ± 1.43 nmol mg^?1 s^?1, 65,655 ± 10.92 s^?1, and 328.3 ± 3.12 μM^?1 s^?1, respectively. The optimization of medium components led to a 21.8-fold improvement in rPPHY production over the endogenous yeast. The rPPHY titer attained in shake flasks could also be sustained in the laboratory fermenter. The rPPHY accounts for 57.1 % of the total secreted protein into the medium. The enzyme has been found useful in fractionating allergenic protein glycinin from soya protein besides dephytinization.     

Mouse transcobalamin II: Biosynthesis and uptake by L-929 cells

Mouse fibroblast (L-929) cells, in culture, synthesized and secreted into the growth medium a vitamin B₁₂-binding substance which was identical to mouse transcobalamin II (TC II) as judged by the following criteria: (i) gel filtration on Sephadex G-200, (ii) ion-exchange chromatography on DEAE-cellulose and CM-cellulose, and (iii) the ability to facilitate cellular B₁₂ uptake by L-929 cells. The secretion of mouse fibroblast binder was blocked by cycloheximide and puromycin; and in both cases the cells' ability to secrete this binder was partially restored when the inhibitor was removed. Within 30 h after the cells were exposed to [⁵⁷Co]B₁₂ bound to mouse serum TC II (M_r ~ 38,000) the [⁵⁷Co]B₁₂ was bound to a large molecular weight intracellular binder (M_r ~ 120,000) which was not released into the culture medium. During this same incubation period, the cells released free [⁵⁷Co]B₁₂ and [⁵⁷Co]B₁₂ bound to a protein which had the same elution volume as mouse serum TC II on Sephadex G-200.     

Secretion of Cryparin, a Fungal Hydrophobin

Cryparin is a cell-surface-associated hydrophobin of the filamentous ascomycete Cryphonectria parasitica. This protein contains a signal peptide that directs it to the vesicle-mediated secretory pathway. We detected a glycosylated form of cryparin in a secretory vesicle fraction, but secreted forms of this protein are not glycosylated. This glycosylation occurred in the proprotein region, which is cleaved during maturation by a Kex2-like serine protease, leaving a mature form of cryparin that could be isolated from both the cell wall and culture medium. Pulse-chase labeling experiments showed that cryparin was secreted through the cell wall, without being bound, into the culture medium. The secreted protein then binds to the cell walls of C. parasitica, where it remains. Binding of cryparin to the cell wall occurred in submerged culture, presumably because of the lectin-like properties unique to this hydrophobin. Thus, the binding of this hydrophobin to the cell wall is different from that of other hydrophobins which are reported to require a hydrophobic-hydrophilic interface for assembly.     

Juvenile hormone-induced biosynthesis of vitellogenin in Leucophaea maderae

Isolated abdomens of virgin female Leucophaea maderae, a South American cockroach, could be induced by a single injection of juvenile hormone I to synthesize vitellogenin. Synthetic capacity was assayed by removal of the fat body at various times after induction and incubation in organ culture with radioactive leucine for 5 h. Under these conditions, active tissues secrete radioactive vitellogenin into the medium after a lag of 2 h and continue secretion at a fixed rate for up to 8 h. Vitellogenin in the tissue reaches a steady-state level after about 3 h. By 5 h, approximately 80% of the newly synthesized vitellogenin can be found in the medium and constitutes 75% of the secreted protein.Vitellogenin does not appear in the medium until 18 h after juvenile hormone induction, rises to a maximum between 72 and 96 h, and has declined to half by 120 h postinduction. At the maximum, about 75% of the total protein secreted is vitellogenin, a more than 50-fold stimulation over injected controls. Since virtually the same quantitative effect of juvenile hormone was found in abdomens with and without ovaries, secondary stimulation by ovarian hormones does not appear to be involved in vitellogenin synthesis in this insect.Oocyte vitellogenin exists as a 560,000 molecular weight monomer complex and a 1,590,000 molecular weight trimer. The smaller complex is only found in young oocytes. By sodium dodecyl sulfate-gel electrophoresis, we find that the 560,000 molecular weight 14S monomer consists of four discrete peptides in the ratio A₁B₁C₂D₂ with molecular weights 118,000, 87,000, 57,500, and 96,000, respectively. The 28S trimer contains only the three peptides A, B, and C in the ratio A₁B₃C₂. These stoichiometries satisfactorily account for the molecular weights of both complexes when corrected for the lipid content. Maturation of 14S to 28S probably involves specific proteolytic conversion of D to B^D, a different peptide of the same size as B, suggesting that the true composition of 28S is A₁B₁B₂^DC₂.The 14S vitellogenin synthesized and secreted by fat body in tissue culture consists mostly of larger polypeptides. There is a major fraction of 179,000 molecular weight, a minor fraction of >260,000 molecular weight, and other smaller polypeptides. Although the exact relationship between these polypeptides and the mature subunits of vitellogenin are not yet clear, it is evident that the multiple protein subunits of this complex protein are synthesized as one or more precursor proteins, followed by proteolytic processing to the mature size.