Transgenic pea seeds as bioreactors for the production of a single-chain Fv fragment (scFV) antibody used in cancer diagnosis and therapy

Field pea (Pisum sativum L.) appears well suited for the production of high-value molecules such as recombinant antibodies, with well-established agricultural practices world-wide and seeds that are easily stored and distributed. In order to evaluate the suitability of this grain legume for the production of biologically active antibodies, we transformed peas with a cDNA encoding the single-chain Fv fragment scFvT84.66. This scFv is derived from the monoclonal antibody T84.66, which recognises the well-characterised tumour-associated carcinoembryonic antigen. The antibody is useful for in vitro immunodiagnosis and in vivo imaging of human cancers. We expressed scFvT84.66 cDNA under the control of the seed-specific legumin A promoter. We targeted the antibody to the endoplasmic reticulum for better stability and high accumulation. Transgenic plants produced up to 9 g per gram fresh weight of functional scFvT84.66 in their seeds. The transgene was stably inherited and expressed in the progeny, and the antibody remained active after storage in dried transgenic seeds for two months at room temperature. Our results demonstrate the suitability of grain legume seeds to produce biologically active recombinant antibodies, and the utility of field pea seeds as production vehicles for recombinant pharmaceutical macromolecules.     

Application of the NZ‐1 Fab as a crystallization chaperone for PA tag‐inserted target proteins

An antibody fragment that recognizes the tertiary structure of a target protein with high affinity can be utilized as a crystallization chaperone. Difficulties in establishing conformation‐specific antibodies, however, limit the applicability of antibody fragment‐assisted crystallization. Here, we attempted to establish an alternative method to promote the crystallization of target proteins using an already established anti‐tag antibody. The monoclonal antibody NZ‐1 recognizes the PA tag with an extremely high affinity. It was also established that the PA tag is accommodated in the antigen‐binding pocket in a bent conformation, compatible with an insertion into loop regions on the target. We, therefore, explored the application of NZ‐1 Fab as a crystallization chaperone that complexes with a target protein displaying a PA tag. Specifically, we inserted the PA tag into the β‐hairpins of the PDZ tandem fragment of a bacterial Site‐2 protease. We crystallized the PA‐inserted PDZ tandem mutants with the NZ‐1 Fab and solved the co‐crystal structure to analyze their interaction modes. Although the initial insertion designs produced only moderate‐resolution structures, eliminating the solvent‐accessible space between the NZ‐1 Fab and target PDZ tandem improved the diffraction qualities remarkably. Our results demonstrate that the NZ‐1‐PA system efficiently promotes crystallization of the target protein. The present work also suggests that β‐hairpins are suitable sites for the PA insertion because the PA tag contains a Pro‐Gly sequence with a propensity for a β‐turn conformation.     

The macro domain as fusion tag for carrier‐driven crystallization

Obtaining well‐ordered crystals remains a significant challenge in protein X‐ray crystallography. Carrier‐driven crystallization can facilitate crystal formation and structure solution of difficult target proteins. We obtained crystals of the small and highly flexible SPX domain from the yeast vacuolar transporter chaperone 4 (Vtc4) when fused to a C‐terminal, non‐cleavable macro tag derived from human histone macroH2A1.1. Initial crystals diffracted to 3.3 Å resolution. Reductive protein methylation of the fusion protein yielded a new crystal form diffracting to 2.1 Å. The structures were solved by molecular replacement, using isolated macro domain structures as search models. Our findings suggest that macro domain tags can be employed in recombinant protein expression in E. coli, and in carrier‐driven crystallization.     

Expression of recombinant anti‐breast cancer immunotherapeutic monoclonal antibody in baculovirus–insect cell system

The anti‐breast cancer monoclonal antibody (mAb) BR55 was expressed in the baculovirus–insect cell expression system, which is advantageous because of its high production capacity, cell culture flexibility and glycosylation capability. The baculovirus–insect cell expression system was successfully established for production of mAb BR55 and mAb BR55 fused with the KDEL (Lys–Asp–Glu–Leu) endoplasmic reticulum (ER) retention signal (mAb BR55K). The heavy chain (HC) and light chain (LC) genes of mAb BR55 were cloned under the control of the polyhedrin (P_PH) and P₁₀ promoters, respectively, in the pFastBacDual vector. The antibody gene‐expression cassettes carrying both the HC and LC genes were transferred into a bacmid in Escherichia coli (DH10Bac). The bacmid carrying the expression cassettes was transfected into Sf9 insect cells to generate baculovirus expressing mAb BR55 and BR55K. Western blot analysis confirmed the expression of mAb BR55 and BR55K in baculovirus‐infected insect cells. Cell direct enzyme linked immunosorbent assay (ELISA) showed that both mAbs from insect cell lysates or cell culture medium bound to MCF‐7 human breast cancer cells. Both mAb BR55 and BR55K were successfully purified using a Protein A affinity column. Collectively, these results suggest that the anti‐breast cancer mAb BR55 can be expressed, properly assembled and purified from the baculovirus expression system, which can serve as an alternative system for antibody production.     

The two‐phase partitioning system – a powerful technique to purify integral membrane proteins of Corynebacterium glutamicum for quantitative shotgun analysis

We established a single consecutive strategy which assigned the most comprehensive number of integral membrane proteins from Gram‐positive bacteria to date. For this purpose, we adapted a biphasic partitioning system for the biotechnologically intensively used Corynebacterium glutamicum and proved for the first time that such a system is well suited for quantitative comparison. 297 integral membrane proteins were identified by our integrated approach, which depletes stringently cytosolic proteins. In combination with our previously developed SIMPLE strategy, our data comprise 61% (374 integral membrane proteins) of the entire membrane proteome, which aims towards an almost comprehensive coverage. Wild type and a production strain of C. glutamicum were compared by ¹⁵N metabolic labelling and quantitation was obtained by spectral counting and peak areas. Both quantification strategies display a consistent trend in up or downregulation of proteins. Nevertheless, spectral counting often provides results indicating a much stronger regulation compared to ProRata values. Either spectral counting seems to exaggerate protein regulation or ProRata tends to attenuate the information about the regulation level. We highlight some of the biologically relevant candidates, which prove that our approach helps to give a deeper quantitative insight towards the understanding of transport and other membrane associated processes, important for strain development of C. glutamicum.     

The medium cycle bioreactor (MCB): Monoclonal antibody production in a new economic production system

The perfusion mode of a continuous cell culture bioreactor was modified to establish a closed loop system. Eighty percent of the spent medium was re-used twice. The medium cycle bioreactor unit was operated sterile and uncomplicated without a technical retention system for the high molecular weight substances. Therefore, only 20% of the actual medium was necessary to run the recycling process. During seven days culture time in a two liter scale 5 grams of IgG₁ type monoclonal antibody was produced. During that period the cell specific productivity was constant. Renewal of proteins was omitted because the protein content in the system persisted at a high level. Therefore, self-conditioning substances of the cells were retained in the system as well as the expensive medium components (proteins with catalytic or stimulating function). Seventy to 80% of medium costs and medium quantity were saved for each medium recycling step. Only cheap metabolites that are consumed by the cells had to be supplemented. Uptake rates of glucose and amino acids were calculated to establish a suitable supplementation mixture for the recirculated medium.     

Characterization of the AlkS/P(alkB)-expression system as an efficient tool for the production of recombinant proteins in Escherichia coli fed-batch fermentations

The availability of suitable, well-characterized, and robust expression systems remains an essential requirement for successful metabolic engineering and recombinant protein production. We investigated the suitability of the Pseudomonas putida GPo1-derived AlkS/P(alkB) expression system in strictly aqueous cultures. By applying the apolar inducer dicyclopropylketone (DCPK) to express green fluorescent protein (GFP) from this system in Escherichia coli and analyzing the resulting cultures on single-cell level by flow cytometry, we found that this expression system gives rise to a homogeneous population of cells, even though the overall system is expected to have a positive feed-back element in the expression of the regulatory gene alkS. Overexpressing E. coli's serine hydroxymethyltransferase gene glyA, we showed that the system was already fully turned on at inducer concentrations as low as 0.005% (v/v). This allows efficient mass production of recombinant enzymes even though DCPK concentrations decreased from 0.05% to 0.01% over the course of a fully aerated cultivation in aqueous medium. Therefore, we elaborated the optimum induction procedure for production of the biocatalytically promising serine hydroxymethyltransferase and found volumetric and specific productivity to increase with specific growth rate in glucose-limited fed-batch cultures. Acetate excretion as a result of recombinant protein production could be avoided in an optimized fermentation protocol by switching earlier to a linear feed. This protocol resulted in a production of a final cell dry weight (CDW) concentration of 52 g/L, producing recombinant GlyA with a maximum specific activity of 6.3 U/mg total protein.     

The protein interacting with C‐kinase (PICK1) interacts with and attenuates parkin‐associated endothelial‐like (PAEL) receptor‐mediated cell death

The parkin‐associated endothelial‐like receptor (PAELR, GPR37) is an orphan G protein‐coupled receptor that interacts with and is degraded by parkin‐mediated ubiquitination. Mutations in parkin are thought to result in PAELR accumulation and increase neuronal cell death in Parkinson's disease. In this study, we find that the protein interacting with C‐kinase (PICK1) interacts with PAELR. Specifically, the Postsynaptic density protein‐95/Discs large/ZO‐1 (PDZ) domain of PICK1 interacted with the last three residues of the c‐terminal (ct) located PDZ motif of PAELR. Pull‐down assays indicated that recombinant and native PICK1, obtained from heterologous cells and rat brain tissue, respectively, were retained by a glutathione S‐transferase fusion of ct‐PAELR. Furthermore, coimmunoprecipitation studies isolated a PAELR‐PICK1 complex from transiently transfected cells. PICK1 interacts with parkin and our data showed that PICK1 reduces PAELR expression levels in transiently transfected heterologous cells compared to a PICK1 mutant that does not interact with PAELR. Finally, PICK1 over‐expression in HEK293 cells reduced cell death induced by PAEALR over‐expression during rotenone treatment and these effects of PICK1 were attenuated during inhibition of the proteasome. These results suggest a role for PICK1 in preventing PAELR‐induced cell toxicity.

     

Genome‐scale analysis of library sorting (GALibSo): Isolation of secretion enhancing factors for recombinant protein production in Pichia pastoris

A method combining fluorescence activated cell sorting (FACS) and DNA microarray assisted clone identification was developed and termed Genome‐Scale Analysis of Library Sorting (GALibSo). Genes enhancing the production of secreted heterologous proteins in Pichia pastoris were identified out of a cDNA library by cell surface display and FACS. The trends of gene enrichment during consecutive FACS rounds were monitored by DNA microarrays. In a case study a P. pastoris cDNA library was co‐expressed in a strain secreting the Fab fragment of a monoclonal antibody against human immunodeficiency virus type 1 as a model protein. Three genes were identified, increasing the relative expression level of the surface‐displayed model protein up to 45%. While one of these genes had a positive effect on three out of four tested proteins, the product specific effect of the other two suggested that the effects of the co‐expressed secretion enhancing factors are partly dependent on the protein to be produced. The microarray based monitoring of the enrichment of genes causing enhanced protein secretory capacity led to novel insights into the limitation of protein secretion. Biotechnol. Bioeng. 2010; 105: 543–555. © 2009 Wiley Periodicals, Inc.     

The prion‐related protein (testis‐specific) gene (PRNT) is highly polymorphic in Portuguese sheep

The objective of this study was to search for polymorphisms in the ovine prion‐related protein (testis‐specific) gene (PRNT). Sampling included 567 sheep from eight Portuguese breeds. The PRNT gene‐coding region was analyzed by single‐strand conformation polymorphism and sequencing, allowing the identification of the first ovine PRNT polymorphisms, in codons 6, 38, 43 and 48: c.17C>T (p.Ser6Phe, which disrupts a consensus arginine‐X‐X‐serine/threonine motif); c.112G>C (p.Gly38>Arg); c.129T>C and c.144A>G (synonymous) respectively. Polymorphisms in codons 6, 38 and 48 occur simultaneously in 50.6% of the animals, 38.8% presenting as heterozygous. To study the distribution of the polymorphism in codon 43, a restriction fragment length polymorphism analysis was performed. Polymorphic variant c.129C, identified in 89.8% of the animals with 32.8% presented as heterozygous, was considered the wild genotype in Portuguese sheep. Eight different haplotypes which have comparable distribution in all breeds were identified for the PRNT gene. In conclusion, the PRNT coding region is highly polymorphic in sheep, unlike the prion protein 2 dublet gene (PRND), in which we previously found only one synonymous substitution (c.78G>A), in codon 26. The absence or reduced number of PRND heterozygotes (c.78G>A) was significantly associated with three PRNT haplotypes (17C‐112G‐129T‐144A,17CT‐112GC‐129CT‐144AG and 17T‐112C‐129C‐144G), and the only three animals found homozygous at c.78A had the 17C‐112G‐129C‐144A PRNT haplotype. These results constitute evidence of an association between polymorphic variation in PRND and PRNT genes, as has already been observed for PRND and prion protein gene (PRNP).     

Capacitation suppression by mouse seminal vesicle autoantigen involves a decrease in plasma membrane Ca2+‐ATPase (PMCA)‐mediated intracellular calcium

Successful fertilization is tightly regulated by capacitation and decapacitation processes. Without appropriate decapacitation regulation, sperm would undergo a spontaneous acrosome reaction which leads to loss of fertilization ability. Seminal plasma is known to negatively regulate sperm capacitation. However, the suppressive mechanisms still remain unclear. In this study, we demonstrate the decapacitation mechanism of mouse seminal vesicle autoantigen (SVA) might target membrane sphingomyelin (SPM) and regulate plasma membrane Ca²⁺‐ATPase (PMCA) activity. The SVA was shown to suppress sperm capacitation induced by a broad panel of capacitation factors (bovine serum albumin (BSA), PAF, and cyclodextrin (CD)). Furthermore, SVA significantly decreased [Ca²⁺]_i and NaHCO₃‐induced [cAMP]_i. Cyclic AMP agonists bypassed the SVA's suppressive ability. Importantly, the SVA may regulate PMCA activity which was evidenced by the fact that the SVA decreased the [Ca²⁺]_i and intracellular pH (pH_i) of sperm; meanwhile, a PMCA inhibitor (carboxyeosin) could reverse SVA's suppression of [Ca²⁺]_i. The potential target of the SVA on membrane SPM/lipid rafts was highlighted by the high binding affinity of SPM–SVA (with a K_d of ～3 µM) which was close to the IC₅₀ of SVA's suppressive activity. Additionally, treatment of mink lung epithelial cells with the SVA enhanced plasminogen activator inhibitor (PAI)‐1 expression stimulated by tumor growth factor (TGF)‐β and CD. These observations supported the membrane lipid‐raft targeting of SVA. In summary, in this paper, we demonstrate that the decapacitation mechanism of the SVA might target membrane sphingolipid SPM and regulate PMCA activity to lower [Ca²⁺]_i, thereby decreasing the [cAMP]_i level and preventing sperm pre‐capacitation. J. Cell. Biochem. 111: 1188–1198, 2010. © 2010 Wiley‐Liss, Inc.     

A conditional two‐hybrid (C2H) system for the detection of protein–protein interactions that are mediated by post‐translational modification

The original bacterial two‐hybrid system is widely used but does not permit the study of interactions regulated by PTMs. Here, we have built a conditional two‐hybrid (C2H) system, in which bait and prey proteins can be co‐expressed in the presence of a modifying enzyme such as a methyltransferase, acetyltransferase, or kinase. Any increase or decrease in interaction due to the modification of the proteins can be measured by an increased or decreased level of reporter gene expression. The C2H system is comprised of eight new vectors based on the Novagen Duet co‐expression plasmids. These vectors include two multiple cloning sites per vector as well as a hexahistidine tag or S‐tag to aid in purification, if desired. We demonstrate the use of the C2H system to study the dimerization of the yeast protein Npl3, which is increased when methylated by the methyltransferase Hmt1.