Your search keyword '"Eylon Yavin"' showing total 4 results

1. Use of peptide nucleic acids to manipulate gene expression in the malaria parasite Plasmodium falciparum.

Author

Netanel Kolevzon, Abed Nasereddin, Shankar Naik, Eylon Yavin, and Ron Dzikowski

Subjects

Medicine, Science

Abstract

One of the major concerns in treating malaria by conventional small drug molecules is the rapid emergence of drug resistance. Specific silencing of essential genes by antisense oliogomers has been proposed as an alternative approach that may result in antimalarial activity which is not associated with drug resistance. In addition, such an approach could be an important biological tool for studying many genes' function by reverse genetics. Here we present a novel methodology of using peptide nucleic acids (PNAs) as a useful tool for gene silencing in Plasmodium falciparum. PNAs, designed as specific antisense molecules, were conjugated to a cell penetrating peptide (CPP); namely, octa-D-lysine via the C-terminus, to allow facile delivery through cell membranes. PNAs added to P. falciparum cultures were found exclusively in infected erythrocytes and were eventually localized in nuclei of the parasites at all stages of intra erythrocytic development. We show that these PNAs specifically down regulated both a stably expressed transgene as well as an endogenous essential gene, which significantly reduced parasites' viability. This study paves the way for a simple approach to silence a variety of P. falciparum genes as means of deciphering their function and potentially to develop highly specific and potent antimalarial agents.

Published

2014

2. Bio-imaging of colorectal cancer models using near infrared labeled epidermal growth factor.

Author

Gadi Cohen, Shimon Lecht, Hadar Arien-Zakay, Keren Ettinger, Orit Amsalem, Mor Oron-Herman, Eylon Yavin, Diana Prus, Simon Benita, Aviram Nissan, and Philip Lazarovici

Subjects

Medicine, Science

Abstract

Novel strategies that target the epidermal growth factor receptor (EGFR) have led to the clinical development of monoclonal antibodies, which treat metastatic colorectal cancer (mCRC) but only subgroups of patients with increased wild type KRAS and EGFR gene copy, respond to these agents. Furthermore, resistance to EGFR blockade inevitably occurred, making future therapy difficult. Novel bio-imaging (BOI) methods may assist in quantization of EGFR in mCRC tissue thus complementing the immunohistochemistry methodology, in guiding the future treatment of these patients. The aim of the present study was to explore the usefulness of near infrared-labeled EGF (EGF-NIR) for bio-imaging of CRC using in vitro and in vivo orthotopic tumor CRC models and ex vivo human CRC tissues. We describe the preparation and characterization of EGF-NIR and investigate binding, using BOI of a panel of CRC cell culture models resembling heterogeneity of human CRC tissues. EGF-NIR was specifically and selectively bound by EGFR expressing CRC cells, the intensity of EGF-NIR signal to background ratio (SBR) reflected EGFR levels, dose-response and time course imaging experiments provided optimal conditions for quantization of EGFR levels by BOI. EGF-NIR imaging of mice with HT-29 orthotopic CRC tumor indicated that EGF-NIR is more slowly cleared from the tumor and the highest SBR between tumor and normal adjacent tissue was achieved two days post-injection. Furthermore, images of dissected tissues demonstrated accumulation of EGF-NIR in the tumor and liver. EGF-NIR specifically and strongly labeled EGFR positive human CRC tissues while adjacent CRC tissue and EGFR negative tissues expressed weak NIR signals. This study emphasizes the use of EGF-NIR for preclinical studies. Combined with other methods, EGF-NIR could provide an additional bio-imaging specific tool in the standardization of measurements of EGFR expression in CRC tissues.

Published

2012

3. Use of Peptide Nucleic Acids to Manipulate Gene Expression in the Malaria Parasite Plasmodium falciparum

Author

Shankar Naik, Netanel Kolevzon, Ron Dzikowski, Eylon Yavin, and Abed Nasereddin

Subjects

Peptide Nucleic Acids, Blotting, Western, Plasmodium falciparum, Biophysics, lcsh:Medicine, Gene Expression, Pathogenesis, Cell-Penetrating Peptides, Biology, Protozoology, Real-Time Polymerase Chain Reaction, Microbiology, Synthetic Nucleic Acids, Cell Line, Drug Delivery Systems, Nucleic Acids, Gene expression, Genetics, Parasitic Diseases, Gene silencing, Gene Silencing, lcsh:Science, Luciferases, Gene, Multidisciplinary, Molecular Structure, Reverse Transcriptase Polymerase Chain Reaction, lcsh:R, Tropical Diseases (Non-Neglected), biology.organism_classification, Reverse genetics, Cell biology, Malaria, Infectious Diseases, Essential gene, Medical Microbiology, Cell-penetrating peptide, Nucleic acid, Parastic Protozoans, Medicine, lcsh:Q, Parasitology, Electrophoresis, Polyacrylamide Gel, Arabinonucleosides, Research Article

Abstract

One of the major concerns in treating malaria by conventional small drug molecules is the rapid emergence of drug resistance. Specific silencing of essential genes by antisense oliogomers has been proposed as an alternative approach that may result in antimalarial activity which is not associated with drug resistance. In addition, such an approach could be an important biological tool for studying many genes' function by reverse genetics. Here we present a novel methodology of using peptide nucleic acids (PNAs) as a useful tool for gene silencing in Plasmodium falciparum. PNAs, designed as specific antisense molecules, were conjugated to a cell penetrating peptide (CPP); namely, octa-D-lysine via the C-terminus, to allow facile delivery through cell membranes. PNAs added to P. falciparum cultures were found exclusively in infected erythrocytes and were eventually localized in nuclei of the parasites at all stages of intra erythrocytic development. We show that these PNAs specifically down regulated both a stably expressed transgene as well as an endogenous essential gene, which significantly reduced parasites' viability. This study paves the way for a simple approach to silence a variety of P. falciparum genes as means of deciphering their function and potentially to develop highly specific and potent antimalarial agents.

Published

2014

4. Bio-imaging of colorectal cancer models using near infrared labeled epidermal growth factor

Author

Hadar Arien-Zakay, Shimon Lecht, Aviram Nissan, Philip Lazarovici, Keren Ettinger, Eylon Yavin, Orit Amsalem, Gadi Cohen, Simon Benita, Diana Prus, and Mor Oron-Herman

Subjects

Pathology, Mouse, Colorectal cancer, lcsh:Medicine, Signal-To-Noise Ratio, medicine.disease_cause, Mice, Epidermal growth factor, Gastrointestinal Cancers, Tumor Cells, Cultured, Epidermal growth factor receptor, lcsh:Science, Multidisciplinary, Infrared Radiation, Physics, Electromagnetic Radiation, Animal Models, Colonoscopy, ErbB Receptors, Oncology, Immunohistochemistry, Medicine, RNA Interference, KRAS, Colorectal Neoplasms, Cancer Screening, Research Article, Adult, Diagnostic Imaging, medicine.medical_specialty, medicine.drug_class, Colon, Molecular Probe Techniques, Gastroenterology and Hepatology, Biology, Monoclonal antibody, Model Organisms, In vivo, Cell Line, Tumor, medicine, Cancer Detection and Diagnosis, Animals, Humans, neoplasms, Epidermal Growth Factor, lcsh:R, Endoscopy, medicine.disease, digestive system diseases, Cancer research, biology.protein, lcsh:Q, Ex vivo

Abstract

Novel strategies that target the epidermal growth factor receptor (EGFR) have led to the clinical development of monoclonal antibodies, which treat metastatic colorectal cancer (mCRC) but only subgroups of patients with increased wild type KRAS and EGFR gene copy, respond to these agents. Furthermore, resistance to EGFR blockade inevitably occurred, making future therapy difficult. Novel bio-imaging (BOI) methods may assist in quantization of EGFR in mCRC tissue thus complementing the immunohistochemistry methodology, in guiding the future treatment of these patients. The aim of the present study was to explore the usefulness of near infrared-labeled EGF (EGF-NIR) for bio-imaging of CRC using in vitro and in vivo orthotopic tumor CRC models and ex vivo human CRC tissues. We describe the preparation and characterization of EGF-NIR and investigate binding, using BOI of a panel of CRC cell culture models resembling heterogeneity of human CRC tissues. EGF-NIR was specifically and selectively bound by EGFR expressing CRC cells, the intensity of EGF-NIR signal to background ratio (SBR) reflected EGFR levels, dose-response and time course imaging experiments provided optimal conditions for quantization of EGFR levels by BOI. EGF-NIR imaging of mice with HT-29 orthotopic CRC tumor indicated that EGF-NIR is more slowly cleared from the tumor and the highest SBR between tumor and normal adjacent tissue was achieved two days post-injection. Furthermore, images of dissected tissues demonstrated accumulation of EGF-NIR in the tumor and liver. EGF-NIR specifically and strongly labeled EGFR positive human CRC tissues while adjacent CRC tissue and EGFR negative tissues expressed weak NIR signals. This study emphasizes the use of EGF-NIR for preclinical studies. Combined with other methods, EGF-NIR could provide an additional bio-imaging specific tool in the standardization of measurements of EGFR expression in CRC tissues.

Published

2012