Showing total 2 results

1. Proteasome inhibition in cancer is associated with enhanced tumor targeting by the adeno-associated virus/phage

Author

Eloho Umukoro, Nelofer Syed, Teerapong Yata, Charlotte A. Stoneham, Justyna Przystal, Amin Hajitou, Kevin O’Neill, and Medical Research Council (MRC)

Subjects

Cancer Research, Leupeptins, viruses, Fluorescent Antibody Technique, medicine.disease_cause, GENE DELIVERY, PATHWAY, Bacteriophage, Mice, 0302 clinical medicine, BINDING, Bacteriophages, Adeno-associated virus, 0303 health sciences, RGD, General Medicine, Dependovirus, 3. Good health, Oncology, 030220 oncology & carcinogenesis, Papers, Systemic administration, Molecular Medicine, Life Sciences & Biomedicine, Paper, Proteasome Endopeptidase Complex, VECTOR, Biology, Virus, Cell Line, 03 medical and health sciences, Cell Line, Tumor, Genetics, medicine, Animals, Humans, 1112 Oncology and Carcinogenesis, Oncology & Carcinogenesis, Combination therapy, 030304 developmental biology, Reporter gene, Science & Technology, ENDOSOME, Proteasome, Cancer, medicine.disease, biology.organism_classification, Virology, Tumor targeting, CELLS, Cancer cell, SYSTEM

Abstract

Bacteriophage (phage), which are viruses that infect bacteria only, have shown promise as vehicles for targeted cancer gene therapy, albeit with poor efficiency. Recently, we generated an improved version of phage vectors by incorporating cis genetic elements of adeno‐associated virus (AAV). This novel AAV/phage hybrid (AAVP) efficiently delivered systemically administered therapeutic genes to various tumor targets by displaying an integrin tumor‐targeting ligand on the phage capsid. However, inherent limitations in bacteriophage mean that these AAVP vectors still need to be improved. One of the limitations of AAVP in mammalian cells may be its susceptibility to proteasomal degradation. The proteasome is upregulated in cancer and it is known that it constitutes a barrier to gene delivery by certain eukaryotic viruses. We report here that inhibition of proteasome improved targeted reporter gene delivery by AAVP in cancer cells in vitro and in tumors in vivo after intravenous vector administration to tumor‐bearing mice. We also show enhanced targeted tumor cell killing by AAVP upon proteasome inhibition. The AAVP particles persisted significantly in cancer cells in vitro and in tumors in vivo after systemic administration, and accumulated polyubiquitinated coat proteins. Our results suggest that the proteasome is indeed a barrier to tumor targeting by AAVP and indicate that a combination of proteasome‐inhibiting drugs and AAVP should be considered for clinical anticancer therapy., Highlights ► Proteasome in cancer is a barrier to tumor targeting by RGD4C/AAVP.► Proteasome inhibiting drugs enhance targeted gene transfer by RGD4C/AAVP.► Proteasome inhibition increases targeted cancer gene therapy by RGD4C/AAVP.► RGD4C/AAVP persistence in cancer is improved by proteasome inhibition

Published

2012

2. Tissue proteomics of the human mammary gland: towards an abridged definition of the molecular phenotypes underlying epithelial normalcy

Author

José M.A. Moreira, Vera Timmermans-Wielenga, Fritz Rank, Antonio Llombart-Bosch, Irina Gromova, Teresa Cabezón, Pavel Gromov, Isidro Machado, Niels Kroman, and Julio E. Celis

Subjects

Proteomics, Paper, Cancer Research, Cell type, Mammary gland, Protein Array Analysis, Muscle Proteins, Breast Neoplasms, Biology, Bioinformatics, Mass Spectrometry, Immunophenotyping, Cytokeratin, Genetics, medicine, Humans, Protein Isoforms, Electrophoresis, Gel, Two-Dimensional, Biomarker discovery, Databases, Protein, Mammary Glands, Human, Keratin-19, Proteomic Profiling, Keratin-15, Epithelial Cells, General Medicine, Immunohistochemistry, medicine.anatomical_structure, Phenotype, Oncology, Molecular Medicine, Female, Stem cell, Biomarkers

Abstract

Our limited understanding of the biological impact of the whole spectrum of early breast lesions together with a lack of accurate molecular-based risk criteria for the diagnosis and assignment of prognostic significance to biopsy findings presents an important problem in the clinical management of patients harboring precancerous breast lesions. As a result, there is a need to identify biomarkers that can better determine the outcome of early breast lesions by identifying subpopulations of cells in breast premalignant disease that are at high-risk of progression to invasive disease. A first step towards achieving this goal will be to define the molecular phenotypes of the various cell types and precursors - generated by the stem cell hierarchy - that are present in normal and benign conditions of the breast. To date there have been very few systematic proteomic studies aimed at characterizing the phenotypes of the different cell subpopulations present in normal human mammary tissue, partly due to the formidable heterogeneity of mammary tissue, but also due to limitations of the current proteomic technologies. Work in our laboratories has attempted to address in a systematic fashion some of these limitations and here we present our efforts to search for biomarkers using normal fresh tissue from non-neoplastic breast samples. From the data generated by the 2D gel-based proteomic profiling we were able to compile a protein database of normal human breast epithelial tissue that was used to support the biomarker discovery program. We review and present new data on the putative cell-progenitor marker cytokeratin 15 (CK15), and describe a novel marker, dihydropyriminidase-related protein 3 (DRP3) that in combination with CK15 and other well known proteins were used to define molecular phenotypes of normal human breast epithelial cells and their progenitors in resting acini, lactating alveoli, and large collecting ducts of the nipple. Preliminary results are also presented concerning DRP3 positive usual ductal hyperplasias (UDHs) and on single cell layer columnar cells (CCCs). At least two bona fide biomarkers of undifferentiated ERα/PgR negative luminal cells emerged from these studies, CK15 and c-KIT, which in combination with transformation markers may lead to the establishment of a protein signature able to identify breast precancerous at risk of progressing to invasive disease.

Published

2010