Scott Stavrou scite author profile

The bivalent anti-human anti-T cell immunotoxin A-dmDT390-bisFv(G(4)S) was developed for treatment of T cell leukemia, autoimmune diseases, and tolerance induction for transplantation. The multi-domain structure of the bivalent immunotoxin hinders efficient production in Escherichia coli and most eukaryotes are sensitive to the toxin. However, Pichia pastoris has a tolerance to levels of DT (diphtheria toxin) that were previously observed to intoxicate wild type eukaryotic cells, including Saccharomyces cerevisiae. This tolerance has permitted the optimization of the secreted expression of A-dmDT390-bisFv(G(4)S) in P. pastoris under the control of AOX1 (alcohol oxidase 1) promoter. The original DNA sequence of A-dmDT390-bisFv(G(4)S) was not expressed in P. pastoris because of several AT-rich regions, which induce an early termination of transcription. After DNA rebuilding for abolishing AT-rich regions and codon optimization, the immunotoxin could be expressed up to 10mg/L in the shake flask culture. No differences in the expression levels of immunotoxin were observed by using different secretional signal sequences, Mut(s) (methanol utilization slow phenotype) or Mut(+) (methanol utilization plus phenotype) phenotypes. Buffered complex medium (pH 7.0) having 1% casamino acids provided the highest expression in shake flask culture and PMSF (phenylmethylsulfonyl fluoride) in the range of 1 to 3mM further improved the expression level presumably by inhibiting protein degradation. The immunotoxin was purified by DEAE (diethylaminoethyl) Sepharose ion exchange chromatography and Protein L affinity chromatography. The immunotoxin purified from P. pastoris culture was as fully functional as that expressed in a toxin resistant mutant CHO (Chinese hamster ovary) cell line. Our results demonstrate that P. pastoris is an ideal system for expression of toxin-based fusion proteins.

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A new yeast display vector permitting free scFv amino termini can augment ligand binding affinities

Wang¹,

Mathias²,

Stavrou³

et al. 2005

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Yeast surface display and sorting by flow cytometry are now widely used to direct the evolution of protein binding such as single-chain antibodies or scFvs. The available commercial yeast display vector pYD1 (Invitrogen) displays the protein of interest flanked on the N-terminus by Aga2, the disulfide of which binds the myristylated surface membrane protein Aga1. We have noted that two anti-CD3epsilon scFvs expressed as fusion proteins suffer a 30- to 100-fold loss of affinity when placed NH(2) terminal to either truncated toxins or human serum albumin. In the course of affinity maturing one of these scFv (FN18) using pYD1 we noted that the affinity towards the ectodomain of monkey CD3epsilongamma was too low to measure. Consequently we rebuilt pYD1 tethering the scFv off the NH(2) terminus of Aga2. This display vector, pYD5, now gave a positive signal displaying FN18 scFv with its ligand, monkey CD3epsilongamma. The apparent equilibrium association constant of the higher affinity scFv directed at human CD3epsilongamma increased approximately 3-fold when displayed on pYD5 compared with pYD1. These data show that for certain yeast-displayed scFvs a carboxy-tethered scFv can result in increased ligand-scFv equilibrium association constants and thereby extend the low range of affinity maturation measurements.

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Successful Reversal of Streptozotocin-Induced Diabetes With Stable Allogeneic Islet Function in a Preclinical Model of Type 1 Diabetes

Thomas

Contreras

Smyth

et al. 2001

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The recent focus on islet transplantation as primary therapy for type 1 diabetes has heightened interest in the reversal of type 1 diabetes in preclinical models using minimal immunosuppression. Here, we demonstrated in a preclinical rhesus model a consistent reversal of all measured glycemic patterns of streptozotocin-induced type 1 diabetes. The model used single-donor islet transplantation with induction of operational tolerance. The term "operational tolerance" is used to indicate durable survival of single-donor major histocompatibility complex (MHC)-mismatched islet allografts without maintenance immunosuppressive therapy and without rejection or loss of functional islet mass or insulin secretory reserve. In this operational tolerance model, all immunosuppression was discontinued after day 14 posttransplant, and recipients recovered with excellent health. The operational tolerance induction protocol combined peritransplant anti-CD3 immunotoxin to deplete T-cells and 15-deoxyspergualin to arrest proinflammatory cytokine production and maturation of dendritic cells. T-cell deficiency was specific but temporary, in that T-celldependent responses in long-term survivors recovered to normal, and there was no evidence of increased susceptibility to infection. Anti-donor mixed lymphocyte reaction responses were positive in the long-term survivors, but all showed clear evidence of systemic T-helper 2 deviation, suggesting that an immunoregulatory rather than a deletional process underlies this operational tolerance model. This study provides the first evidence that operational tolerance can protect MHC nonhuman primate islets from rejection as well as loss of functional islet mass. Such an approach has potential to optimize individual recipient recovery from diabetes as well as permitting more widespread islet transplantation with the limited supply of donor islets.

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A fold-back single-chain diabody format enhances the bioactivity of an anti-monkey CD3 recombinant diphtheria toxin-based immunotoxin

Kim

Wang

Liu

et al. 2007

Protein Engineering Design and Selection

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T-cell depleting anti-CD3 immunotoxins have utility in non-human primate models of transplantation tolerance and autoimmune disease therapy. We recently reported that an affinity matured single-chain (scFv) anti-monkey CD3 antibody, C207, had increased binding to T-cells and increased bioactivity in a diphtheria toxin (DT)-based biscFv immunotoxin compared with the parental antibody, FN18. However, FN18 scFvs and their mutant derivatives such as C207 did not exhibit robust bivalent character in the biscFv format. We now report that C207 in a diabody format exhibits a 7-fold increase in binding to T-cells over scFv (C207) indicating considerable divalent character for the diabody. This construct was formed by reducing the V(L)/V(H) linker to five residues and was secreted from Pichia pastoris as the non-covalent dimer. An immunotoxin based on this diabody format was secreted as a non-covalent dimer but was devoid of bioactivity and failed to bind T-cells, suggesting steric hindrance from the two large closely positioned truncated DT moieties. We constructed a single-chain diabody immunotoxin by fusing to the truncated DT C-terminus L1-VL-L1-VH-L2-VL-L1-VH where L1 is a five-residue linker and L2 is the longer (G4S)3 linker permitting interactions between the distal and proximal VL/VH domains. This 'fold-back' immunotoxin was secreted predominantly as the monomer and exhibited a 5- to 7-fold increase in bioactivity over DT390biscFv(C207) and depleted monkey T-cells in vivo.

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Scott Stavrou

Gene optimization is necessary to express a bivalent anti-human anti-T cell immunotoxin in Pichia pastoris

A new yeast display vector permitting free scFv amino termini can augment ligand binding affinities

Successful Reversal of Streptozotocin-Induced Diabetes With Stable Allogeneic Islet Function in a Preclinical Model of Type 1 Diabetes

A fold-back single-chain diabody format enhances the bioactivity of an anti-monkey CD3 recombinant diphtheria toxin-based immunotoxin

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