Application of Microbial Toxins for Cancer Therapy
01 Jan 2012-pp 647-662
TL;DR: Continuous efforts are being made to improve the specificity and efficacy of immunotoxins, to reduce size effects of the drugs, reduce immunogenicity and to improve better pharmacokinetics for drugs delivery.
Abstract: The principle of selective targeting of immunotoxins lies on the basis that cancer cells usually have few or specific growth factors/receptors/antigens highly over expressed on their surface. Ligands corresponding to these molecules are conjugated to modified toxins (modified to loss its native function) isolated form variety of bacterial populations. Normal cells either do not express these molecules or express at relatively low number leading to no or minimal adverse effects. The basic mechanism of action of these immunotoxins depends on the toxins employed. In this regard continuous efforts are being made to (i) Identity molecules exclusively expressed in cancer cells, (ii) to improve the specificity and efficacy (iii) reduce size effects of the drugs, (iv) Reduce immunogenicity and (v) to improve better pharmacokinetics for drugs delivery.
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TL;DR: Assessment of the immunoreactivity of a SEB-coding DNA construct that serves as a DNA vaccine for breast cancer therapy revealed that apparently the construct could be efficiently expressed in mouse model, and could act as an amenable adjuvant in cancer immunotherapy.
Abstract: Immunotherapy has been suggested as a compelling alternative approach for conventional breast cancer treatment methods. Despite the paramount rolesof T cells in this approach, insufficient numbers of them in the combat against progressive tumor growth still remain to be dealt with. Super antigens are a class of antigens, capable of eliciting T cell proliferation response against desired antigens. Staphylococcal enterotoxin B (SEB) is categorized as a super antigen, its anti-tumor properties has been previously reported. However, to the best our knowledge, SEB has not been ever administered as a DNA construct. In the present study, we exploited bioinformatics tools to assess the immunoreactivity of a SEB-coding DNA construct that serves as a DNA vaccine for breast cancer therapy. Potential B and T (MHC class I and II binders) cell epitopes of the hypothetically expressed protein, along with its sub cellular localization were predicted. Moreover, probable glycosylation and phosphorylation sites within the protein sequence were determined. The gene sequence was optimized according to murine model codon bias and its mRNA stability was analyzed. Employing an integrative in silico approach, we revealed that apparently the construct could be efficiently expressed in mouse model. Moreover, the hypothetically expressed protein could act as an amenable adjuvant in cancer immunotherapy.
21 citations
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TL;DR: A biosynthetic antibody binding site, which incorporated the variable domains of anti-digoxin monoclonal antibody 26-10 in a single polypeptide chain, was produced in Escherichia coli by protein engineering.
Abstract: A biosynthetic antibody binding site, which incorporated the variable domains of anti-digoxin monoclonal antibody 26-10 in a single polypeptide chain (Mr = 26,354), was produced in Escherichia coli by protein engineering. This variable region fragment (Fv) analogue comprised the 26-10 heavy- and light-chain variable regions (VH and VL) connected by a 15-amino acid linker to form a single-chain Fv (sFv). The sFv was designed as a prolyl-VH-(linker)-VL sequence of 248 amino acids. A 744-base-pair DNA sequence corresponding to this sFv protein was derived by using an E. coli codon preference, and the sFv gene was assembled starting from synthetic oligonucleotides. The sFv polypeptide was expressed as a fusion protein in E. coli, using a leader derived from the trp LE sequence. The sFv protein was obtained by acid cleavage of the unique Asp-Pro peptide bond engineered at the junction of leader and sFv in the fusion protein [(leader)-Asp-Pro-VH-(linker)-VL]. After isolation and renaturation, folded sFv displayed specificity for digoxin and related cardiac glycosides similar to that of natural 26-10 Fab fragments. Binding between affinity-purified sFv and digoxin exhibited an association constant [Ka = (3.2 +/- 0.9) x 10(7) M-1] that was about a factor of 6 smaller than that found for 26-10 Fab fragments [Ka = (1.9 +/- 0.2) x 10(8) M-1] under the same buffer conditions, consisting of 0.01 M sodium acetate, pH 5.5/0.25 M urea.
2,638 citations
TL;DR: Three single-chain antigen-binding proteins are novel recombinant polypeptides, composed of an antibody variable light-chain amino acid sequence tethered to a variable heavy-chain sequence (VH) by a designed peptide that links the carboxyl terminus of the VL sequence to the amino terminusof the VH sequence.
Abstract: Single-chain antigen-binding proteins are novel recombinant polypeptides, composed of an antibody variable light-chain amino acid sequence (VL) tethered to a variable heavy-chain sequence (VH) by a designed peptide that links the carboxyl terminus of the VL sequence to the amino terminus of the VH sequence. These proteins have the same specificities and affinities for their antigens as the monoclonal antibodies whose VL and VH sequences were used to construct the recombinant genes that were expressed in Escherichia coli. Three of these proteins, one derived from the sequence for a monoclonal antibody to growth hormone and two derived from the sequences of two different monoclonal antibodies to fluorescein, were designed, constructed, synthesized, purified, and assayed. These proteins are expected to have significant advantages over monoclonal antibodies in a number of applications.
2,455 citations
TL;DR: A "humanized" antibody is constructed by combining the complementarity-determining regions (CDRs) of the anti-Tac antibody with human framework and constant regions and has an affinity for p55 of 3 x 10(9) M-1, about 1/3 that of murine anti- Tac.
Abstract: The anti-Tac monoclonal antibody is known to bind to the p55 chain of the human interleukin 2 receptor and to inhibit proliferation of T cells by blocking interleukin 2 binding. However, use of anti-Tac as an immunosuppressant drug would be impaired by the human immune response against this murine antibody. We have therefore constructed a "humanized" antibody by combining the complementarity-determining regions (CDRs) of the anti-Tac antibody with human framework and constant regions. The human framework regions were chosen to maximize homology with the anti-Tac antibody sequence. In addition, a computer model of murine anti-Tac was used to identify several amino acids which, while outside the CDRs, are likely to interact with the CDRs or antigen. These mouse amino acids were also retained in the humanized antibody. The humanized anti-Tac antibody has an affinity for p55 of 3 x 10(9) M-1, about 1/3 that of murine anti-Tac.
1,336 citations
TL;DR: Analysis of the effector phase of tumor rejection induced by vaccination with irradiated tumor cells transduced to secrete granulocyte/macrophage colony-stimulating factor indicates a far broader role for CD4+ T cells in orchestrating the host response to tumor.
Abstract: The induction of optimal systemic antitumor immunity involves the priming of both CD4+ and CD8+ T cells specific for tumor-associated antigens. The role of CD4+ T helper cells (Th) in this response has been largely attributed to providing regulatory signals required for the priming of major histocompatibility complex class I restricted CD8+ cytolytic T lymphocytes, which are thought to serve as the dominant effector cell mediating tumor killing. However, analysis of the effector phase of tumor rejection induced by vaccination with irradiated tumor cells transduced to secrete granulocyte/macrophage colony-stimulating factor indicates a far broader role for CD4+ T cells in orchestrating the host response to tumor. This form of immunization leads to the simultaneous induction of Th1 and Th2 responses, both of which are required for maximal systemic antitumor immunity. Cytokines produced by these CD4+ T cells activate eosinophils as well as macrophages that produce both superoxide and nitric oxide. Both of these cell types then collaborate within the site of tumor challenge to cause its destruction.
1,334 citations
TL;DR: To establish a screening system for the humoral response to autoimmunogenic tumor antigens, an enzyme-linked immunosorbent assay (ELISA) was developed using recombinant NY-ESO-1, MAGE-3, SSX2, Melan-A, and tyrosinase proteins.
Abstract: Evidence is growing for both humoral and cellular immune recognition of human tumor antigens. Antibodies with specificity for antigens initially recognized by cytotoxic T lymphocytes (CTLs), e.g., MAGE and tyrosinase, have been detected in melanoma patient sera, and CTLs with specificity for NY-ESO-1, a cancer-testis (CT) antigen initially identified by autologous antibody, have recently been identified. To establish a screening system for the humoral response to autoimmunogenic tumor antigens, an enzyme-linked immunosorbent assay (ELISA) was developed using recombinant NY-ESO-1, MAGE-1, MAGE-3, SSX2, Melan-A, and tyrosinase proteins. A survey of sera from 234 cancer patients showed antibodies to NY-ESO-1 in 19 patients, to MAGE-1 in 3, to MAGE-3 in 2, and to SSX2 in 1 patient. No reactivity to these antigens was found in sera from 70 normal individuals. The frequency of NY-ESO-1 antibody was 9.4% in melanoma patients and 12.5% in ovarian cancer patients. Comparison of tumor NY-ESO-1 phenotype and NY-ESO-1 antibody response in 62 stage IV melanoma patients showed that all patients with NY-ESO-1+ antibody had NY-ESO-1+ tumors, and no patients with NY-ESO-1− tumors had NY-ESO-1 antibody. As the proportion of melanomas expressing NY-ESO-1 is 20–40% and only patients with NY-ESO-1+ tumors have antibody, this would suggest that a high percentage of patients with NY-ESO-1+ tumors develop an antibody response to NY-ESO-1.
742 citations