mRNA treatment produces sustained expression of enzymatically active human ADAMTS13 in mice.

Thrombotic thrombocytopenic purpura (TTP) is primarily caused by deficiency of ADAMTS13 within the blood stream due to either genetic defects or presence of inhibitory autoantibodies. Preclinical and clinical studies suggest that enzyme replacement therapy with recombinant human ADAMTS13 protein (rhADAMTS13) is effective and safe in treatment of TTP. However, frequent dosing would be required due to the relatively short half-life of rhADAMTS13 in circulation as well as the presence of inhibitory autoantibodies that collectively result in the poor pharmacological profile of rhADAMTS13.

Expression of TIP-1 confers radioresistance of malignant glioma cells.

Background: Malignant gliomas represent one group of tumors that poorly respond to ionizing radiation (IR) alone or combined with chemotherapeutic agents because of the intrinsic or acquired resistance. In this study, TIP-1 was identified as one novel protein that confers resistance of glioma cells to IR.

Methodology/principal Findings: Meta-analysis indicated that high TIP-1 expression levels correlate with the poor prognosis of human malignant gliomas after radiotherapy.

Expression of Tax-interacting protein 1 (TIP-1) facilitates angiogenesis and tumor formation of human glioblastoma cells in nude mice.

Glioblastoma is the most common and fatal type of primary brain tumors featured with hyperplastic blood vessels. Here, we performed meta-analyses of published data and established a correlation between high TIP-1 expression levels and the poor prognosis of glioblastoma patients. Next, we explored the biological relevance of TIP-1 expression in the pathogenesis of glioblastoma.

The PDZ protein TIP-1 facilitates cell migration and pulmonary metastasis of human invasive breast cancer cells in athymic mice.

Tax-interacting protein 1 (TIP-1, also known as Tax1bp3) inhibited proliferation of colon cancer cells through antagonizing the transcriptional activity of beta-catenin. However, in this study, elevated TIP-1 expression levels were detected in human invasive breast cancers. Studies with two human invasive breast cancer cell lines indicated that RNAi-mediated TIP-1 knockdown suppressed the cell adhesion, proliferation, migration and invasion in vitro, and inhibited tumor growth in mammary fat pads and pulmonary metastasis in athymic mice.

Assessment of tumor response to tyrosine kinase inhibitors.

This review briefly summarizes recent developments in the use of non-invasive imaging to assess tumor response to TKI therapy. Receptor tyrosine kinases play important roles in cancer development. A new class of drugs, tyrosine kinase inhibitors (TKI) can induce rapid and dramatic tumor suppression when administered to carefully selected patient groups.

Tumor-targeted delivery of liposome-encapsulated doxorubicin by use of a peptide that selectively binds to irradiated tumors.

Tumor-targeted drug delivery improves anti-tumor efficacy and reduces systemic toxicity by limiting bioavailability of cytotoxic drugs to within tumors. Targeting reagents, such as peptides or antibodies recognizing molecular targets over-expressed within tumors, have been used to improve liposome-encapsulated drug accumulation within tumors and resulted in enhanced tumor growth control. In this report, we expand the scope of targeting reagents by showing that one peptide, HVGGSSV which was isolated from an in vivo screening of phage-displayed peptide library due to its selective binding within irradiated tumors, enabled highly selective tumor-targeted delivery of liposome-encapsulated doxorubicin and resulted in enhanced cytotoxicity within tumors.

Radiation-guided drug delivery to mouse models of lung cancer.

Purpose: The purpose of this study was to achieve improved cancer-specific delivery and bioavailability of radiation-sensitizing chemotherapy using radiation-guided drug delivery.

Experimental Design: Phage display technology was used to isolate a recombinant peptide (HVGGSSV) that binds to a radiation-inducible receptor in irradiated tumors. This peptide was used to target nab-paclitaxel to irradiated tumors, achieving tumor-specificity and enhanced bioavailability of paclitaxel.

TIP-1 translocation onto the cell plasma membrane is a molecular biomarker of tumor response to ionizing radiation.

Background: Tumor response to treatment has been generally assessed with anatomic and functional imaging. Recent development of in vivo molecular and cellular imaging showed promise in time-efficient assessment of the therapeutic efficacy of a prescribed regimen. Currently, the in vivo molecular imaging is limited with shortage of biomarkers and probes with sound biological relevance.

Using in vivo biopanning for the development of radiation-guided drug delivery systems.

This chapter illustrates our protocol for in vivo biopanning using T7 bacteriophage libraries for the purpose of selecting recombinant peptides for the tumor-specific delivery of radiosensitizers to radiation-inducible antigens within tumor neovasculature. Our goal is to discover peptides binding within tumor vascular endothelium of irradiated tumors. We have previously demonstrated that tumor irradiation increases the spectrum of antigenic targets for drug delivery.

Noninvasive assessment of cancer response to therapy.

Rapid assessment of cancer response to a therapeutic regimen can determine efficacy early in the course of treatment. Although biopsies of cancer can be used to rapidly assess pharmacodynamic response, certain disease sites are less accessible to repeated biopsies. Here, we simultaneously assess response in all sites of disease within days of starting therapy by use of peptide ligands selected for their ability to discern responding from nonresponding cancers.

Radiation-guided gene therapy of cancer.

Gene therapy has been proposed as a means to combat cancer. However, systemic toxicity observed in preclinical trials suggested the importance of selectively targeted delivery and inducible gene expression in tumor tissues. Discovery of radiation-inducible promoter sequences provides one way to minimize inadvertent toxicity from gene therapy in normal tissues.

Molecular recognition properties of FN3 monobodies that bind the Src SH3 domain.

We have constructed a phage-displayed library based on the human fibronectin tenth type III domain (FN3) scaffold by randomizing residues in its FG and BC loops. Screening against the SH3 domain of human c-Src yielded six different clones. Five of these contained proline-rich sequences in their FG loop that resembled class I (i.

Identification and characterization of peptides that bind to cyanovirin-N, a potent human immunodeficiency virus-inactivating protein.

Cyanovirin-N (CV-N) exerts a potent human immunodeficiency virus (HIV)-inactivating activity against diverse strains of HIV by binding to the viral surface envelope glycoprotein gp120 and blocking its essential interactions with cellular receptors. Based on previous thermodynamic analyses, it has been speculated that discrete protein-protein interactions might play an important ancillary role in the CV-N/gp120 binding event, in addition to the interactions of CV-N with specific oligosaccharides present on gp120. Here, we report the identification and characterization of CV-N-binding peptides, which were isolated by screening of M13 phage-displayed peptide libraries.

Accelerated screening of phage-display output with alkaline phosphatase fusions.

When using multiple targets and libraries, selection of affinity reagents from phage-displayed libraries is a relatively time-consuming process. Herein, we describe an automation-amenable approach to accelerate the process by using alkaline phosphatase (AP) fusion proteins in place of the phage ELISA screening and subsequent confirmation steps with purified protein. After two or three rounds of affinity selection, the open reading frames that encode the affinity selected molecules (i.

Characterization of a gamma-adaptin ear-binding motif in enthoprotin.

Enthoprotin, a newly identified component of clathrin-coated vesicles, interacts with the trans-Golgi network (TGN) clathrin adapters AP-1 and GGA2. Here we perform a multi-faceted analysis of the site in enthoprotin that is responsible for the binding to the gamma-adaptin ear (gamma-ear) domain of AP-1. Alanine scan mutagenesis and nuclear magnetic resonance (NMR) studies reveal the full extent of the site as well as critical residues for this interaction.

Functional homologs of cyanovirin-N amenable to mass production in prokaryotic and eukaryotic hosts.

Cyanovirin-N (CV-N) is under development as a topical (vaginal or rectal) microbicide to prevent sexual transmission of human immunodeficiency virus (HIV), and an economically feasible means for very large-scale production of the protein is an urgent priority. We observed that N-glycosylation of CV-N in yeast eliminated the anti-HIV activity, and that dimeric forms and aggregates of CV-N occurred under certain conditions, potentially complicating the efficient, large-scale manufacture of pure monomeric CV-N. We therefore expressed and tested CV-N homologs in which the glycosylation-susceptible Asn residue at position 30 was replaced with Ala, Gln, or Val, and/or the Pro at position 51 was replaced by Gly to eliminate potential conformational heterogeneity.

Screening of Cellulose Binding Motif (CBM) from Phage Peptides Library.

Bacteriophages capable of binding cellulose matrix were screened from a 15-mer phage peptides library. In the deduced amino acid sequences of the screened phages, a characteristic region containing a conserved aromatic residue [tyrosine (Y) or phenylalanine (F)] was found, which is similar to the normal cellulose binding domains found in fungal and bacterial cellulose catalysase. Dot-ELISA showed that the phage containing sequence as SWYL has higher affinity to cellulose fibre than other phages, such as those containing sequences as CWYGNC, CWYGEC and XSWYDXXSWFSX.

Simultneous Expression of CS3 Colonization Factor Antigen and Cholera Toxin B Subunit in Salmonella typhi.

A host-plasmid balancing system was established based on asd gene in an avirulent strain of Salmonella typhi to express enterotoxigenic E.coli surface antigen CS3 and V.cholerae toxin subunit B(CTB).

The domain-swapped dimer of cyanovirin-N is in a metastable folded state: reconciliation of X-ray and NMR structures.

The structure of the potent HIV-inactivating protein cyanovirin-N was previously found by NMR to be a monomer in solution and a domain-swapped dimer by X-ray crystallography. Here we demonstrate that, in solution, CV-N can exist both in monomeric and in domain-swapped dimeric form. The dimer is a metastable, kinetically trapped structure at neutral pH and room temperature.

Discovery of a stable dimeric mutant of cyanovirin-N (CV-N) from a T7 phage-displayed CV-N mutant library.

Mutant proteins with altered properties can be useful probes for investigating structure, ligand binding sites, mechanisms of action, and physicochemical attributes of the corresponding wild-type proteins of interest. In this report, we illuminate properties of mutants of the potent HIV-inactivating protein, cyanovirin-N (CV-N), selected by construction of a mutant library by error-prone polymerase chain reaction and affinity-based screening using T7 phage display technology. After three rounds of biopanning, two phage-displayed, one-point mutants of CV-N, Ser52Pro and Ala77Thr, were isolated.