Expression of recombinant antibody (single chain antibody fragment) in transgenic plant Nicotiana tabacum cv. Xanthi

Plants offer an alternative inexpensive and convenient technology for large scale production of recombinant proteins especially recombinant antibodies (plantibodies). In this paper, we describe the expression of a model single chain antibody fragment (B6scFv) in transgenic tobacco. Four different gene constructs of B6scFv with different target signals for expression in different compartments of a tobacco plant cell with and without endoplasmic reticulum (ER) retention signal were used. Agrobacterium mediated plant transformation of B6scFv gene was performed with tobacco leaf explants and the gene in regenerated plants was detected using histochemical GUS assay and PCR. The expression of B6scFv gene was detected by western blotting and the recombinant protein was purified from putative transgenic tobacco plants using metal affinity chromatography. The expression level of recombinant protein was determined by indirect enzyme-linked immunosorbent assay. The highest accumulation of protein was found up to 3.28 % of the total soluble protein (TSP) in plants expressing B6scFv 1003 targeted to the ER, and subsequently expression of 2.9 % of TSP in plants expressing B6scFv 1004 (with target to apoplast with ER retention signal). In contrast, lower expression of 0.78 and 0.58 % of TSP was found in plants expressing antibody fragment in cytosol and apoplast, without ER retention signal. The described method/system could be used in the future for diverse applications including expression of other recombinant molecules in plants for immunomodulation, obtaining pathogen resistance against plant pathogens, altering metabolic pathways and also for the expression of different antibodies of therapeutic and diagnostic uses.     

Vicilin with carboxy-terminal KDEL is retained in the endoplasmic reticulum and accumulates to high levels in the leaves of transgenic plants

Gene constructs were designed to test the effect of the endoplasmic reticulum (ER)-targeting signal, KDEL, on the level of accumulation of a foreign protein in transgenic plants. The gene for the pea seed protein vicilin was modified by the addition of a sequence coding for this tetrapeptide at its carboxyl terminus. The altered gene was placed under the control of a CaMV 35S promoter and its expression in the leaves of both tobacco and lucerne (alfalfa) was compared with that of an equivalent vicilin construct lacking the KDEL-coding sequence. The presence of the ER-targeting signal led to a greatly enhanced accumulation of the heterologous protein. In lucerne and tobacco leaves, the level of vicilin-KDEL protein was 20 and 100 times greater than that of the unmodified vicilin, respectively. These differences in expression level could not be explained by corresponding differences in the steady-state levels or the translatability of the mRNAs. However, when the stability of vicilin and vicilin-KDEL proteins was compared in their respective transgenic hosts, unmodified vicilin was found to be degraded with a half-life of 4.5 h while vicilin-KDEL was much more stable with a half-life of more than 48 h. Immunogold labelling of leaf tissues from transgenic lucerne and tobacco showed the presence of vicilin associated with large aggregates within the ER lumen of vicilin-KDEL plants. No such aggregates were detected in transgenic plants expressing wild-type vicilin. It is concluded that the carboxy-terminal KDEL caused the retention of the modified vicilin in the ER, and that this retention led to the increased stability and higher level of accumulation of vicilin-KDEL in leaves of transgenic plants.     

Facile assessment of cDNA constructs for expression of functional antibodies in plants using the potato virus X vector

Antibodies have been expressed in plants to confer novel traits such as virus resistance or altered phenotype. However, not every antibody is suitable for plant expression, and successful intracellular expression of antibody fragments depends primarily on their amino acid sequence in a way that is as yet unpredictable. Therefore it is desirable to assess different constructs before embarking on the production of transgenic plants. We have used a transient expression system based on potato virus X to compare different cDNA constructs for expression and stability of antibody variable gene fragments in plants. Constructs contained an anti-plant enzyme (granule-bound starch synthase I) scFv sequence derived from a naive phage display library together with different combinations of sequences encoding the human IgG constant domain, a murine IgG secretory signal sequence, or the endoplasmic reticulum retention signal peptide KDEL. The results obtained with the potato virus X vector correlated with those from Agrobacterium-mediated stable transformation of potato. The best expression levels were obtained by incorporating sequences that target scFv to the lumen of the endoplasmic reticulum and the secretory pathway. The anti-enzyme scFv retained activity during storage of potato tubers for more than five months. The results demonstrate the utility of the potato virus X vector for the analysis and comparison of many scFv with different epitope specificities or sequence modifications. Evaluation of scFv by transient expression from the PVX vector should aid progress in selection of functional scFv for applications in plant biotechnology.     

Combined use of regulatory elements within the cDNA to increase the production of a soluble mouse single-chain antibody, scFv, from tobacco cell suspension cultures

In order to facilitate production and secretion of a soluble form of a small, single-chain antibody ScFv (32 kDa) in tobacco cell suspension culture, several modifications were made simultaneously to the antibody cDNA that included elements that have been shown to regulate the expression of proteins in plants. The scFv cDNA was initially ligated into a binary vector under the control of the CaMV 35S promoter and the T7 terminator for expression in tobacco suspension culture. Subsequently, modifications were engineered into the cDNA for enhancement of scFv production. These included the following: (i) the signal peptide (SP) of the tobacco pathogenesis-related protein PR1a which was added in-frame to the N-terminal end of scFv cDNA; (ii) a 5'-nontranslated region from the tobacco etch virus (TEV leader sequence), which was fused to the N-terminal end of the SP; and (iii) the endoplasmic reticulum retention signal peptide KDEL, which was added to the C-terminal end of the scFv protein. Using a modified disruption method involving pectinase, the highest expression of total scFv (344 ng scFv/g cell) occurred when the plant leader sequence, the TEV sequence, and the KDEL peptide were all present in the expression construct. Although the addition of the KDEL sequence significantly increased the total yield of protein 5.4-fold, it did not increase the overall amount of protein secreted. These studies indicate that while the SP is very important in promoting secretion of the scFv, it had little influence on increasing scFv secretion levels even when both the TEV and the KDEL sequences significantly increased overall protein levels.     

Expression and characterization of bispecific single-chain Fv fragments produced in transgenic plants.

We describe the expression of the bispecific antibody biscFv2429 in transgenic suspension culture cells and tobacco plants. biscFv2429 consists of two single-chain antibodies, scFv24 and scFv29, connected by the Trichoderma reesi cellobiohydrolase I linker. biscFv2429 binds two epitopes of tobacco mosaic virus (TMV): the scFv24 domain recognizes neotopes of intact virions, and the scFv29 domain recognizes a cryptotope of the TMV coat protein monomer. biscFv2429 was functionally expressed either in the cytosol (biscFv2429-cyt) or targeted to the apoplast using a murine leader peptide sequence (biscFv2429-apoplast). A third construct contained the C-terminal KDEL sequence for retention in the ER (biscFv2429-KDEL). Levels of cytoplasmic biscFv2429 expression levels were low. The highest levels of antibody expression were for apoplast-targeted biscFv2429-apoplast and ER-retained biscFv2429-KDEL that reached a maximum expression level of 1.65% total soluble protein in transgenic plants. Plant-expressed biscFv2429 retained both epitope specificities, and bispecificity and bivalency were confirmed by ELISA and surface plasmon resonance analysis. This study establishes plant cells as an expression system for bispecific single-chain antibodies for use in medical and biological applications.     

Plant-derived mouse IgG monoclonal antibody fused to KDEL endoplasmic reticulum-retention signal is N-glycosylated homogeneously throughout the plant with mostly high-mannose-type N-glycans

Plants are potential hosts for the expression of recombinant glycoproteins intended for therapeutic purposes. However, N-glycans of mammalian glycoproteins produced in transgenic plants differ from their natural counterparts. The use of the endoplasmic reticulum (ER)-retention signal has been proposed to restrict glycosylation of plantibodies to only high-mannose-type N-glycans. Furthermore, little is known about the influence of plant development and growth conditions on N-linked glycosylation. Here, we report a detailed N-glycosylation profiling study of CB.Hep1, a mouse IgG2b monoclonal antibody (mAb) against hepatitis B surface antigen (HBsAg) currently expressed in tobacco plants (Nicotiana tabacum L.). The KDEL ER-retention signal was fused to the C-terminal of both light and heavy chains. The structures of the N-linked glycans of this mAb produced in transgenic tobacco plants at various growth stages were analysed by high-performance liquid chromatography (HPLC) profiling techniques and matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) and compared with those of murine origin. The high-mannose-type oligosaccharides accounted for more than 80% of the total N-glycans, with Man7GlcNAc2 being the most abundant species. Some complex N-glycans bearing xylose and small amounts of oligosaccharides with both xylose and fucose were identified. No appreciable differences were detected when comparing glycosylation at different leaf ages, e.g. from seedling leaves up to 8 weeks old and top or basal leaves of mature plants, or between leaves, stems and whole plants. A strict retention of glycoproteins to ER by the use of the tetrapeptide KDEL was not sufficient, even though the majority of the resulting N-glycosylation was of the high-mannose type. It is highly likely to be dependent on other factors, which are most probably protein specific.     

Accumulation of maize γ-zein and γ-zein: KDEL to high levels in tobacco leaves and differential increase of BiP synthesis in transformants

Two gene constructs (pROK.TG1L and pROK.TG1LK) were utilized to achieve accumulation of maize γ-zein to high levels in tobacco (Nicotiana tabacum L.) leaves. Both the chimaeric genes contained the γ-zein-coding region preceded by the 5′untranslated leader from the coat protein mRNA of TMV, but one of them (pROK.TG1LK) was modified in its protein-coding region by the addition of the ER retention signal KDEL. The accumulation of γ-zein and γ-zein:KDEL in leaves was compared with heterologous protein accumulation in tobacco plants previously transformed with a γ-zein cDNA harbouring a native 5′UTR. Replacement of γ-zein 5′UTR with the TMV leader dramatically increased γ-zein production. Furthermore, γ-zein:KDEL-expressing plants, on average, accumulated twice as much foreign protein in their leaves as pROK.TG1L plants. The two-fold increase in the level of γ-zein:KDEL can probably be attributed to an improvement in the mechanism for ER retention of zeins in the transgenic cells. Transformants also showed increased production of BiP, though to a lesser extent in γ-zein:KDEL-expressing plants compared with pROK.TG1L plants. It is therefore likely that γ-zein:KDEL retention is made less dependent on the chaperone assistance of BiP by the presence of the KDEL signal on the γ-zein mutant. Received: 15 October 1999 / Accepted: 28 February 2000     

Expression and long-term stability of a recombinant single-chain Fv antibody fragment in transgenic Nicotiana tabacum seeds

A functionally active anti-hepatitis B surface antigen single-chain Fv antibody fragment (scFv) was expressed in seeds of transgenic tobacco plants using genetic constructs for expression in the vacuole or the apoplastic fluid. Antibody levels close to 0.2% of the total soluble protein were found. After storage of the transgenic tobacco seeds for one year and a half a year at room temperature, the scFv maintained its antigen-binding activity in full.     

Expression of maize γ-zein and β-zein genes in transgenic Nicotiana tabacum and Lotus corniculatus

Accumulation of zeins, the endosperm storage proteins of maize, in a heterologous plant expression system was attempted. Plants of Nicotiana tabacum and Lotus corniculatus were transformed by Agrobacterium with binary vectors harbouring genes that code for γ-zein and β-zein, two zeins rich in sulphur amino acids. Adding the ER retention signal KDEL to the C-terminal domain modified the zein polypeptides. Significant levels of γ-zein:KDEL and β-zein:KDEL were detected in primary transformants of tobacco. Moreover, the two zeins colocalized in leaf protein bodies of γ-/β-zein:KDEL plants derived from a cross between two primary transformants. Coexpression of γ-zein:KDEL and β-zein:KDEL could be a useful strategy to obtain genotypes of forage legumes which are able to accumulate sulphur amino acids to high levels. As a first step, L. corniculatus plants expressing γ-zein:KDEL in the leaves were obtained. This revised version was published online in June 2006 with corrections to the Cover Date.     

Spider dragline silk proteins in transgenic tobacco leaves: accumulation and field production

Spider dragline silk is a unique biomaterial and represents nature's strongest known fibre. As it is almost as strong as many commercial synthetic fibres, it is suitable for use in many industrial and medical applications. The prerequisite for such a widespread use is the cost-effective production in sufficient quantities for commercial fibre manufacturing. Agricultural biotechnology and the production of recombinant dragline silk proteins in transgenic plants offer the potential for low-cost, large-scale production. The purpose of this work was to examine the feasibility of producing the two protein components of dragline silk (MaSp1 and MaSp2) from Nephila clavipes in transgenic tobacco. Two different promoters, the enhanced CaMV 35S promoter (Kay et al., 1987) and a new tobacco cryptic constitutive promoter, tCUP (Foster et al., 1999) were used, in conjunction with a plant secretory signal (PR1b), a translational enhancer (alfalfa mosaic virus, AMV) and an endoplasmic reticulum (ER) retention signal (KDEL), to express the MaSp1 and MaSp2 genes in the leaves of transgenic plants. Both genes expressed successfully and recombinant protein accumulated in transgenic plants grown in both greenhouse and field trials.     

Intracellular expression of TMV-specific single-chain Fv fragments leads to improved virus resistance in shape Nicotiana tabacum

We evaluated the concept for protection of plants against virus infection based on the expression of single-chain Fv (scFv) fragments in the apoplasm or cytosol of transgenic plants. Cloned cDNA of a tobacco mosaic virus (TMV)-specific scFv antibody, which binds to intact virions, was integrated into the plant expression vector pSS and used for Agrobacterium-mediated transformation of Nicotiana tabacum cv. Xanthi-nc. Regenerated transgenic tobacco plants were analysed by northern blot, western blot and ELISA to assess expression and functionality of recombinant antibody (rAb) fragments. A significant increase of scFv levels in T₁ progeny was obtained for plants secreting apoplastic scFv antibodies but not for scFvs expressed in the cytosol. Bioassays revealed that T₁ progeny producing scFvs in different plant cell compartments showed different levels of resistance upon inoculation with TMV. The most dramatic reduction of necrotic local lesion numbers upon virus infection was observed in T₁ plants expressing scFv fragments in the cytosol. Infectivity could be reduced by more than 90%, despite the observation that protein expression levels for functional scFv antibodies were very low. Furthermore, upon inactivation of the N-resistance gene at elevated temperature, a significant portion of the T₁ progenies inhibited systemic virus spread, indicating that expression of TMV-specific cytosolic scFvs confers virus resistance in these transgenic plants. Moreover, inoculation of protoplasts isolated from transgenic and non-transgenic tobacco plants with TMV-RNA demonstrated that accumulation of virus particles is affected by cytosolic scFv expression.     

Targeting dsRNA-specific single-chain Fv antibody fragments to different cellular locations in Nicotiana tabacum L

Expression of antibodies or antibody fragments in plants is a useful tool for producing active antibody derivatives for diagnostic or pharmaceutical purposes as well as for immunomodulation. We investigated the effect of cellular expression site on the stability and yield of double-stranded RNA (dsRNA)-specific single-chain Fv-fragments (scFv) in transgenic tobacco. Two antibodies (J2 and P6) belonging to the V23(J558) heavy chain variable gene family but differing in the light chain variable domain were used. scFvs were targeted to the cytoplasm - with or without anchoring them in the plasma membrane -, into the endoplasmic reticulum (ER) and to the apoplast. Although high mRNA concentrations were detected in all cases, scFv proteins accumulated only when scFvs were made ER-resident by appropriate signal sequences. When the ER retention signal was removed to allow scFv-secretion to the apoplast, no scFv-proteins were detected. Despite the strong homology of the VH-sequences of J2 and P6 antibodies, only P6 provided a stable scFv scaffold for intracytoplasmic expression. J2-scFv could not be stabilised either by adding a C-terminal stabilisation signal or by anchoring the protein on the cytoplasmic side of the plasma membrane (PM). It was found that dsRNA-specific J2-scFvs are active in vivo and enhance Potato Virus Y induced symptoms in infected tobacco. This is the first report describing the expression and biological effect of RNA-specific antibodies in plants.     

Expression of single-chain antibody fragments (scFv) specific for beet necrotic yellow vein virus coat protein or 25 kDa protein in Escherichia coli and Nicotiana benthamiana

The coding sequences for the variable regions of heavy and light chains of monoclonal antibodies (mAbs) to beet necrotic yellow vein virus (BNYVV) coat protein (cp) or the 25 kDa nonstructural protein (P25) were cloned into the pCOCK vector and expressed as single-chain antibody fragments (scFv) in Escherichia coli. For expression in higher plants the scFv were targeted either to the secretory pathway by including the sequences encoding the pectate lyase B (PelB) or the phytohemagglutinin (PHA) signal peptides in the vector constructs or they were targeted to the cytoplasm by omitting a signal peptide-encoding sequence from the constructs. The scFv were detected mainly in plants in which the PHA signal peptide had been used for targeting demonstrating for the first time the usefulness of this peptide for enabling scFv expression in plants. The scFv were not secreted into the culture fluids of suspension cultures, but were retained in the cells. The amount of expression of scFv in the best expressing plants was at least as high as in bacterial culture supernatants. In a dot blot immunoassay, 0.4 ng BNYVV cp or 0.8 ng P25 were detected by the respective scFv either from E. coli or from plants. The majority of the 21 plants expressing cp-specific scFv had near-normal growth whereas the three plants expressing P25-specific scFv grew poorly and did not form roots.     

Trapping prion protein in the endoplasmic reticulum impairs PrPC maturation and prevents PrPSc accumulation

The conversion of the normal cellular prion protein (PrP(C)) into the abnormal scrapie isoform (PrP(Sc)) is a key feature of prion diseases. The pathogenic mechanisms and the subcellular sites of the conversion are complex and not completely understood. In particular, little is known on the role of the early compartment of the secretory pathway in the processing of PrP(C) and in the pathogenesis of prion diseases. In order to interfere with the intracellular traffic of endogenous PrP(C) we have generated two anti-prion single chain antibody fragments (scFv) directed against different epitopes, each fragment tagged either with a secretory leader or with the ER retention signal KDEL. The stable expression of these constructs in PC12 cells allowed us to study their specific effects on the synthesis, maturation, and processing of endogenous PrP(C) and on PrP(Sc) formation. We found that ER-targeted anti-prion scFvs retain PrP(C) in the ER and inhibit its translocation to the cell surface. Retention in the ER strongly affects the maturation and glycosylation state of PrP(C), with the appearance of a new aberrant endo-H sensitive glycosylated species. Interestingly, ER-trapped PrP(C) acquires detergent insolubility and proteinase K resistance. Furthermore, we show that ER-targeted anti-prion antibodies prevent PrP(Sc) accumulation in nerve growth factor-differentiated PC12 cells, providing a new tool to study the molecular pathology of prion diseases.     

Protein disulfide-isomerase in rat exocrine pancreatic cells is exported from the endoplasmic reticulum despite possessing the retention signal

Recently we found by immunogold electron microscopy that protein disulfide-isomerase (PDI), a major resident protein in the lumen of the endoplasmic reticulum (ER) of many cells, is exceptionally localized in rat exocrine pancreatic cells not only in the ER but also in plasma membranes and other organelles along secretory pathway (Akagi, S., Yamamoto, A., Yoshimori, T., Masaki, R., Ogawa, R., and Tashiro, Y. (1988) J. Histochem. Cytochem. 36, 1069-1074). These observations suggest that another type of PDI, e.g. one with a defective ER retention signal, might exist and be transported in the exocrine pancreatic cells. We therefore compared biochemical and immunochemical properties of the transported PDI with the authentic ER resident PDI. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis, peptide mapping, urea-polyacrylamide gel electrophoresis, and isoelectric focusing showed that the former was indistinguishable from the latter. We prepared a polyclonal antibody against the synthetic hexapeptide, which corresponds to the carboxyl terminus of PDI containing the putative ER retention signal "KDEL." The epitopes of this antibody (anti-KDEL antibody) were located within the KDEL sequence. Anti-KDEL antibody reacted with PDI in both the plasma membranes and the ER of rat pancreatic cells in immunoblot analysis as well as in immunogold electron microscopy. These results suggest that PDI exported from the ER to the plasma membranes in rat exocrine pancreatic cells possesses the KDEL sequence.     

Gene fusions of signal sequences with a modified beta-glucuronidase gene results in retention of the beta-glucuronidase protein in the secretory pathway/plasma membrane.

Signal sequences and endoplasmic reticulum (ER) retention signals are known to play central roles in targeting and translocation in the secretory pathway, but molecular aspects about their involvement are poorly understood. We tested the effectiveness of deduced signal sequences from various genes (hydroxyproline-rich glycoprotein [HRGP] from Phaseolus vulgaris; Serpin from Manduca sexta) to direct a modified beta-glucuronidase (GUS) protein into the secretory pathway in transgenic tobacco (Nicotiana tabacum L.). The reporter protein was not secreted to the cell wall/extracellular space as monitored using extracellular fluid analysis (low- or high-ionic-strength conditions) but occurred in membranes with a density of 1.16 to 1.20 g/mL. Membrane-bound GUS equilibrated with the plasma membrane (PM) and the ER on linear sucrose gradients with or without ethylenediaminetetraacetic acid, suggesting that GUS associates with the ER and the PM. Confocal microscopy of fixed cultured cells prepared from GUS control and HRGP signal peptide (SP)-GUS-expressing plants suggested only cytosolic localization in GUS-expressing plants but substantial peripheral localization in HRGP SP-GUS plants, which is consistent with GUS being associated with the PM. Aqueous two-phase partitioning of microsomal membranes from HRGP SP-GUS and Serpin SP-GUS transgenic leaves also indicated that GUS activity was enriched in the ER and the PM. These observations, together with hydrophobic moment plot analysis, suggest that properties of the SP-GUS protein result in its retention in the secretory pathway and PM.     

The C-terminal HDEL sequence is sufficient for retention of secretory proteins in the endoplasmic reticulum (ER) but promotes vacuolar targeting of proteins that escape the ER

Proteins are co-translationally transferred into the endo-plasmic reticulum (ER) and then either retained or transported to different intracellular compartments or to the extracellular space. Various molecular signals necessary for retention in the ER or targeting to different compartments have been identified. In particular, the HDEL and KDEL signals used for retention of proteins in yeast and animal ER have also been described at the C-terminal end of soluble ER processing enzymes in plants. The fusion of a KDEL extension to vacuolar proteins is sufficient for their retention in the ER of transgenic plant cells. However, recent results obtained using the same strategy indicate that HDEL does not contain sufficient information for full retention of phaseolin expressed in tobacco. In the present study, an HDEL C-terminal extension was fused to the vacuolar or extracellular (Δpro) forms of sporamin. The resulting SpoHDEL or ΔproHDEL, as well as Spo and Δpro, were expressed at high levels in transgenic tobacco cells ( Nicotiana tabacum cv BY2). The intracellular location of these different forms of recombinant sporamin was studied by subcellular fractionation. The results clearly indicate that addition of an HDEL extension to either Spo or Δpro induces accumulation of these sporamin forms in a compartment that co-purifies with the ER markers NADH cytochrome C reductase, binding protein (BiP) and calnexin. In addition, a significant SpoHDEL or ΔproHDEL fraction that escapes the ER retention machinery is transported to the vacuole. From these results, it may be proposed that, in addition to its function as an ER retention signal, HDEL could also act in quality control by targeting chaperones or chaperone-bound proteins that escape the ER to the plant lysosomal compartment for degradation.     

Expression of recombinant trichosanthin,a ribosome-inactivating protein,in transgenic tobacco

Trichosanthin (TCS) is an antiviral plant defense protein, classified as a type-I ribosome-inactivating protein, found in the root tuber and leaves of the medicinal plant Trichosanthes kirilowii. It is processed from a larger precursor protein, containing a 23 amino acid amino (N)-terminal sequence (pre sequence) and a 19 amino acid carboxy (C)-terminal extension (pro sequence). Various constructs of the TCS gene were expressed in transgenic tobacco plants to determine the effects of the amino- and carboxy-coding gene sequences on TCS expression and host toxicity in plants. The maximum TCS expression levels of 2.7% of total soluble protein (0.05% of total dry weight) were obtained in transgenic tobacco plants carrying the complete prepro-TCS gene sequence under the Cauliflower mosaic virus 35S RNA promoter. The N-terminal sequence matched the native TCS sequence indicating that the T. kirilowii signal sequence was properly processed in tobacco and the protein translation inhibitory activity of purified rTCS was similar to native TCS. One hundred-fold lower expression levels and phenotypic aberrations were evident in plants expressing the gene constructs without the C-terminal coding sequence. Transgenic tobacco plants expressing recombinant TCS exhibited delayed symptoms of systemic infection following exposure to Cucumber mosaic virus and Tobacco mosaic virus (TMV). Local lesion assays using extracts from the infected transgenic plants indicated reduced levels of TMV compared with nontransgenic controls.     

Ligand-induced redistribution of a human KDEL receptor from the Golgi complex to the endoplasmic reticulum.

Resident luminal endoplasmic reticulum (ER) proteins carry a targeting signal (usually KDEL in animal cells) that allows their retrieval from later stages of the secretory pathway. In yeast, the receptor that promotes this selective retrograde transport has been identified as the product of the ERD2 gene. We describe here the properties of a human homolog of this protein (hERD2). Overproduction of hERD2 improves retention of a protein with a weakly recognized variant signal (DDEL). Moreover, overexpression of KDEL or DDEL ligands causes a redistribution of hERD2 from the Golgi apparatus to the ER. Mutation of hERD2 alters the ligand specificity of this effect, implying that it interacts directly with the retained proteins. Ligand control of receptor movement may limit retrograde flow and thus minimize fruitless recycling of secretory proteins.