Thomas H. Turpen scite author profile

Using malaria as a model disease, we engineered the surface of tobacco mosaic tobamovirus (TMV) for presentation of selected epitopes to the mammalian immune system. The TMV coat protein is a well-characterized and abundant self-assembling polymer previously shown to be a highly immunogenic carrier. Selected B-cell epitopes were either inserted into the surface loop region of the TMV coat protein or fused to the C terminus using the leaky stop signal derived from the replicase protein reading frame. Tobacco plants systemically infected with each of these constructs contained high titers of genetically stable recombinant virus, enabling purification of the chimeric particles in high yield. Symptoms induced in tobacco ranged from a normal mosaic pattern similar to that induced by the parental U1 strain to a unique bright yellow mosaic. As measured by quantitative ELISA against synthetic peptide standards, wild type TMV coat protein and fusion protein synthesized by the leaky stop mechanism coassembled into virus particles at the predicted ratio of approximately 20:1. Recombinant plant viruses have the potential to meet the need for scalable and cost effective production of subunit vaccines that can be easily stored and administered.

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Rapid production of specific vaccines for lymphoma by expression of the tumor-derived single-chain Fv epitopes in tobacco plants

McCormick

Kumagai

Hanley

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

249

112

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Rapid production of protein-based tumorspecific vaccines for the treatment of malignancies is possible with the plant-based transient expression system described here. We created a modified tobamoviral vector that encodes the idiotype-specific single-chain Fv fragment (scFv) of the immunoglobulin from the 38C13 mouse B cell lymphoma. Infected Nicotiana benthamiana plants contain high levels of secreted scFv protein in the extracellular compartment. This material reacts with an anti-idiotype antibody by Western blotting, ELISA, and affinity chromatography, suggesting that the plant-produced 38C13 scFv protein is properly folded in solution. Mice vaccinated with the affinity-purified 38C13 scFv generate >10 g͞ml anti-idiotype immunoglobulins. These mice were protected from challenge by a lethal dose of the syngeneic 38C13 tumor, similar to mice immunized with the native 38C13 IgM-keyhole limpet hemocyanin conjugate vaccine. This rapid production system for generating tumorspecific protein vaccines may provide a viable strategy for the treatment of non-Hodgkin's lymphoma.Most B cell malignancies are incurable and are increasing in frequency in the populations of industrial nations (1, 2). Although B cell tumors are characterized by extreme variability in treatment and prognosis (3), they share a common feature that makes them ideal for the development of patientspecific cancer vaccines. Each clone of malignant B cells expresses a unique cell surface immunoglobulin (Ig)-a tumorspecific marker. The tumor's surface Ig, when made immunogenic by conjugation to keyhole limpet hemocyanin (KLH) and administered with an adjuvant, has been used to vaccinate patients in chemotherapy-induced remission (4, 5). When an immune response is triggered by such vaccination, patients have a superior clinical outcome (6, 7).Unfortunately, Igs are difficult proteins to produce. Currently, Igs for patient therapies are created by fusion of tumor cells to a transformed human͞mouse heteromyeloma cell (8, 9). Hybridomas are screened for secreted patient tumorspecific Ig and expanded for large-scale production of the protein. Besides the labor and expense involved, a drawback of hybridoma production systems is the unpredictable loss of chromosomes and of tumor-specific Ig protein expression over time. This phenomenon currently limits the application of the therapy, in terms of both the quantity of vaccine per patient and the total number of patients that can be treated. To expand the scope of individualized non-Hodgkin's lymphoma (NHL) therapies, a source of abundant, safe, easily purified vaccine needs to be generated in a time frame of weeks rather than months or years.An appealing alternative to multichain whole Ig vaccines is singe-chain variable region (scFv) vaccines. Consisting of just the hypervariable domains from the tumor-specific Ig, these proteins recreate the antigen-binding site of the native Ig (10-12), are a fraction of the size, and can be expressed in several expression systems (13-17), including transgenic plants (...

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Rapid, high-level expression of biologically active alpha-trichosanthin in transfected plants by an RNA viral vector.

Kumagai¹,

Turpen²,

Weinzettl³

et al. 1993

Proc. Natl. Acad. Sci. U.S.A.

139

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ABSTRACTa-Trichosanthin, a eukaryotic ribosomeinactivating protein from Trichosanthes kirilowii, inhibits the replication of the human immunodeficiency virus (HIV) in vitro. The a-trichosanthin gene was placed under the transcriptional control of a tobamovirus subgenomic promoter in a plant RNA viral vector. Two weeks after inoculation, transfected Nicotiana benthamiana plants accumulated a-trichosanthin to levels of at least 2% of total soluble protein. The recombinant a-trichosanthin was purified and its structural and biological properties were analyzed. The 23-amino acid signal peptide was recognized by N. benthamiana and the processed enzyme caused a concentration-dependent inhibition of protein synthesis in vitro. The high level of heterologous gene expression observed in these studies is due to the unique features of the RNA viral-based transfection system.

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Melanin Production in Escherichia coli from a Cloned Tyrosinase Gene

della-Cioppa¹,

Garger²,

Sverlow³

et al. 1990

Nat Biotechnol

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We have cloned and functionally expressed a tyrosinase gene from Streptomyces antibioticus in Escherichia coli under the control of an inducible bacteriophage T7 promoter. Recombinant E. coli cells containing the induced tyrosinase gene produced melanin pigments on agar plates and in liquid culture when supplemented with copper and tyrosine. The expression of an additional open reading frame from the mel gene locus of S. antibioticus was required for high-level melanin production in E. coli. Our results also show that it is possible to screen other classes of precursor compounds for incorporation into melanin pigments with unique colors and other biochemical features. In addition, it may be possible to screen for enhanced melanin production in the absence of added precursors to identify overproducing mutants in the amino acid biosynthetic pathways of E. coli. The ability to screen for a melanin phenotype in recombinant E. coli provides new opportunities for production of novel melanins and for protein engineering of tyrosinases with altered catalytic properties.

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Tobamovirus Transient Expression Vectors: Tools for Plant Biology and High-Level Expression of Foreign Proteins in Plants

Pogue¹,

Lindbo²,

Dawson

et al. 1998

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Thomas H. Turpen

Malaria Epitopes Expressed on the surface of Recombinant Tobacco Mosaic Virus

Rapid production of specific vaccines for lymphoma by expression of the tumor-derived single-chain Fv epitopes in tobacco plants

Rapid, high-level expression of biologically active alpha-trichosanthin in transfected plants by an RNA viral vector.

Melanin Production in Escherichia coli from a Cloned Tyrosinase Gene

Tobamovirus Transient Expression Vectors: Tools for Plant Biology and High-Level Expression of Foreign Proteins in Plants

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