Anti-cancer Peptides and Peptide-Like Molecules
A special issue of Biomedicines (ISSN 2227-9059). This special issue belongs to the section "Cancer Biology and Oncology".
Deadline for manuscript submissions: closed (31 October 2022) | Viewed by 28819
Special Issue Editors
Interests: anti-cancer peptides; molecular modeling of oncogenic and anti-oncogenic proteins; ras-p21 protein; p53 protein; PNC-27 anti-cancer peptide; membrane-bound HDM-2 protein; trans-membrane pore formation in cancer cells; ras-p21 peptides; selective blockade of oncogenic ras-p21 protein
Interests: anti-cancer peptides; cancer stem cells; PNC-27 anti-cancer peptide; co-localization with HDM-2 in cancer cell membrane; trans-membrane pores in cancer stem cells
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Special Issue Information
Dear Colleagues,
Anticancer peptides are currently being found to be effective in inducing cancer cell death by tumor cell necrosis (e.g., PNC-27), apoptosis (e.g., p53 effector peptides), or in inducing reversion of tumor cells to the untransformed phenotype (e.g., ras-21 effector peptides). These peptides exert their effects on cancer cells and do not affect normal cells, giving them a major advantage over commonly used chemotherapeutic drugs. Although the half-lives of anticancer peptides are relatively short, they interact with their targets rapidly, resulting in cancer cell death or phenotypic reversion. Examples of these peptides include PNC-27, that contains the HDM-2 binding domain of p53 (residues 12–26) attached to an antennapedia leader sequence that binds to an HDM-2 isotype uniquely expressed in the membranes of cancer cells but not normal cells. When bound to HDM-2, this complex induces the formation of transmembrane pores, resulting in extrusion of intracellular contents and tumor cell necrosis. It has been found to obliterate highly metastatic pancreatic cancer in nude mice and to effectively treat human acute myelogenous leukemias in nude mice with no off-target effects. Other p53 peptides from its carboxyl terminal domain have been found to cause apoptosis or tumor cell necrosis of a variety of human tumors without affecting normal cells. Peptides designed from molecular modeling of oncogenic forms of ras-p21 have been found to induce phenotypic reversion of a variety of human and rat cancers by selectively blocking only the oncogenic ras-p21 pathway. This volume will discuss the antitumor effects of these new peptides and their mechanisms of action and suggest how they may be used clinically.
Prof. Dr. Wilbur B. Bowne
Dr. Matthew R. Pincus
Guest Editors
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Keywords
- anti-cancer peptides
- tumor cell necrosis
- apoptosis
- effector domains
- p53 protein
- ras-p21 protein
- molecular modeling
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