Development of a New Generation of Metal-Based Anticancer Drugs

Development of a New Generation of Metal-Based Anticancer Drugs

Kinases are a large family of transferase enzymes, of which at least 538 different members are present in the human body.[11] By catalysing the transfer of the γ-phosphate group of ATP onto a specific side chain of their substrate, they mediate most cellular signal transductions in the body, ther...

詳細記述

保存先:
書誌詳細
第一著者: Martin, Elisabeth Katharina
その他の著者: Meggers, Eric (Prof.Dr.) (論文の指導者)
フォーマット: Dissertation
言語:英語
出版事項: Philipps-Universität Marburg 2017
主題:
Chemie
Chemistry & allied sciences
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その他の書誌記述
要約:Kinases are a large family of transferase enzymes, of which at least 538 different members are present in the human body.[11] By catalysing the transfer of the γ-phosphate group of ATP onto a specific side chain of their substrate, they mediate most cellular signal transductions in the body, thereby regulating various critical cellular activities. These include proliferation, survival, apoptosis, metabolism, transcription, differentiation, and a wide array of other cellular processes.[9,10] It is no surprise that the kinome has been extensively investigated as a family of potential drug targets[12] and the development of kinase inhibitors has therefore become an essential part of biological and medical research. Small molecule kinase inhibitors have been studied to treat various human diseases including cardiovascular diseases,[23] autoimmune disorders such as rheumatoid arthritis,[24] neurodegenerative conditions like Alzheimer’s disease, diabetes or liver disorders.[25] Originally based on unselective natural product inhibitors like staurosporine (51), research has led to almost 30 FDA approved inhibitors by the middle of 2016.[26] Most of them were developed to treat oncological conditions, which are still a major focus of kinase inhibitor research today. Over the last decade the MEGGERS group has established highly potent and selective kinase inhibitors using inert metal centres as unique structural templates, thus mimicking and enhancing the globular shape of the non-selective inhibitor staurosporine (51).
物理的記述:315 Seiten
DOI:10.17192/z2017.0502

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