Fr. 158.00

Rethinking Platinum Anticancer Drug Design: Towards Targeted and Immuno-chemotherapeutic Approaches

English · Paperback / Softback

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Description

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This thesis describes the authors' pioneering efforts in the conceptualization and implementation of combined platinum-based immuno-chemotherapeutics, which represent a significant paradigm shift from the conventional approach of directly targeting cancer. The work described has opened up a rich and largely unexplored area for platinum-based drug design, and ultimately paves the way for superior immuno-chemotherapeutics with better clinical outcome for patients. Historically, the contribution of the immune system to chemotherapy outcomes has been neglected, as anticancer drugs were believed to be immunosuppressive. However, this has been challenged by contemporary evidence suggesting that many chemotherapeutics, including platinum-based agents, stimulate the innate and/or adaptive immune system and that these "secret allies" contribute tangibly to clinical outcomes. A multi-pronged immuno-chemotherapeutic approach not only shrinks tumors, but more importantly, reactivate dormant immuneresponses to malignancies, eliminating residual cancer cells.

List of contents

Introduction- Cisplatin- Now and Future.- Harnessing Chemoselective Imine Ligation for Tethering Bioactive Molecules to Platinum (IV) Prodrugs.- Probing the Platinum(IV) Prodrug Hypothesis - Are Platinum(IV) Complexes Really Prodrugs of Cisplatin?.- Induction of Targeted Necrosis with HER2-Targeted Platinum(IV) Anticancer Prodrugs.- Immuno-Chemotherapeutic Platinum(IV) Prodrugs of Cisplatin as Multimodal Anticancer Agents.- Induction of Immunogenic Cell Death by Chemotherapeutic Platinum Complexes.- Concluding Remarks.

About the author










Daniel Wong was born in Singapore and graduated with honors from the National University of Singapore (NUS) in 2011. Encouraged by a positive undergraduate research experience, he then continued to complete his doctoral studies in NUS in 2015 under the guidance of Prof. Ang Wee Han, working mainly on the immuno-modulating effects of platinum agents for cancer therapy. In 2015, he joined Nanyang Technological University as a Research Fellow under the supervision of Prof. Par Nordlund, a renowned structural biologist. There, he employed structure-based drug design techniques against molecular targets in both immuno-oncology and malaria. At the same time, he is also experimenting with new progressive methodologies for simultaneous target and ligand discovery. Apart from research, Daniel likes mentoring students because of their infectious enthusiasm and he believes that the future rests upon them. Daniel is a recipient of the Wang Gungwu Medal (2016) for best PhD thesis in the Natural Sciences in NUS and the Springer Thesis Prize (2017).


Summary

This thesis describes the authors’ pioneering efforts in the conceptualization and implementation of combined platinum-based immuno-chemotherapeutics, which represent a significant paradigm shift from the conventional approach of directly targeting cancer. The work described has opened up a rich and largely unexplored area for platinum-based drug design, and ultimately paves the way for superior immuno-chemotherapeutics with better clinical outcome for patients. Historically, the contribution of the immune system to chemotherapy outcomes has been neglected, as anticancer drugs were believed to be immunosuppressive. However, this has been challenged by contemporary evidence suggesting that many chemotherapeutics, including platinum-based agents, stimulate the innate and/or adaptive immune system and that these “secret allies” contribute tangibly to clinical outcomes. A multi-pronged immuno-chemotherapeutic approach not only shrinks tumors, but more importantly, reactivate dormant immuneresponses to malignancies, eliminating residual cancer cells.

Product details

Authors Daniel Yuan Qiang Wong
Publisher Springer, Berlin
 
Languages English
Product format Paperback / Softback
Released 31.07.2019
 
EAN 9789811341946
ISBN 978-981-1341-94-6
No. of pages 147
Dimensions 155 mm x 10 mm x 235 mm
Weight 285 g
Illustrations XXX, 147 p. 89 illus., 47 illus. in color.
Series Springer Theses
Springer Theses
Subjects Natural sciences, medicine, IT, technology > Chemistry > Physical chemistry

B, biochemistry, Oncology, Chemistry and Materials Science, Cancer Research, Biomedical Research, Medical Biochemistry, MEDICINAL CHEMISTRY

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