DNA intercalators in cancer therapy : organic and inorganic drugs and their spectroscopic tools of analysis

Nial J. Wheate; Craig R. Brodie; J. Grant Collins; Sharon Kemp; Janice R. Aldrich-Wright

DNA intercalators in cancer therapy : organic and inorganic drugs and their spectroscopic tools of analysis

Nial J. Wheate, Craig R. Brodie, J. Grant Collins, Sharon Kemp, Janice R. Aldrich-Wright

School of Science

Research output: Contribution to journal › Article

223 Citations (Scopus)

Abstract

Since the discovery of the DNA intercalation process by Lerman in 1961 thousands of organic, inorganic octahedral (particularly ruthenium(II) and rhodium(III)) and square-planar (particularly platinum(II)) compounds have been developed as potential anticancer agents and diagnostic agents. The design and synthesis of new drugs is focused on bisintercalators which have two intercalating groups linked via a variety of ligands, and synergistic drugs, which combine the anticancer properties of intercalation with other functionalities, such as covalent binding or boron-cages (for radiation therapy). Advances in spectroscopic techniques mean that the process of DNA intercalation can be examined in far greater detail than ever before, yielding important information on structure-activity relationships. In this review we examine the history and development of DNA intercalators as anticancer agents and advances in the analysis of DNA-drug interactions.

Original language	English
Number of pages	22
Journal	Mini Reviews in Medicinal Chemistry
Publication status	Published - 2007

Keywords

DNA
antineoplastic agents
cancer
drug interactions
spectrum analysis
treatment

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

@article{a52de3e8b35b4f51927e9c153c3e43b9,

title = "DNA intercalators in cancer therapy : organic and inorganic drugs and their spectroscopic tools of analysis",

abstract = "Since the discovery of the DNA intercalation process by Lerman in 1961 thousands of organic, inorganic octahedral (particularly ruthenium(II) and rhodium(III)) and square-planar (particularly platinum(II)) compounds have been developed as potential anticancer agents and diagnostic agents. The design and synthesis of new drugs is focused on bisintercalators which have two intercalating groups linked via a variety of ligands, and synergistic drugs, which combine the anticancer properties of intercalation with other functionalities, such as covalent binding or boron-cages (for radiation therapy). Advances in spectroscopic techniques mean that the process of DNA intercalation can be examined in far greater detail than ever before, yielding important information on structure-activity relationships. In this review we examine the history and development of DNA intercalators as anticancer agents and advances in the analysis of DNA-drug interactions.",

keywords = "DNA, antineoplastic agents, cancer, drug interactions, spectrum analysis, treatment",

author = "Wheate, {Nial J.} and Brodie, {Craig R.} and Collins, {J. Grant} and Sharon Kemp and Aldrich-Wright, {Janice R.}",

year = "2007",

language = "English",

journal = "Mini Reviews in Medicinal Chemistry",

issn = "1389-5575",

publisher = "Bentham Science Publishers",

}

TY - JOUR

T1 - DNA intercalators in cancer therapy : organic and inorganic drugs and their spectroscopic tools of analysis

AU - Wheate, Nial J.

AU - Brodie, Craig R.

AU - Collins, J. Grant

AU - Kemp, Sharon

AU - Aldrich-Wright, Janice R.

PY - 2007

Y1 - 2007

N2 - Since the discovery of the DNA intercalation process by Lerman in 1961 thousands of organic, inorganic octahedral (particularly ruthenium(II) and rhodium(III)) and square-planar (particularly platinum(II)) compounds have been developed as potential anticancer agents and diagnostic agents. The design and synthesis of new drugs is focused on bisintercalators which have two intercalating groups linked via a variety of ligands, and synergistic drugs, which combine the anticancer properties of intercalation with other functionalities, such as covalent binding or boron-cages (for radiation therapy). Advances in spectroscopic techniques mean that the process of DNA intercalation can be examined in far greater detail than ever before, yielding important information on structure-activity relationships. In this review we examine the history and development of DNA intercalators as anticancer agents and advances in the analysis of DNA-drug interactions.

AB - Since the discovery of the DNA intercalation process by Lerman in 1961 thousands of organic, inorganic octahedral (particularly ruthenium(II) and rhodium(III)) and square-planar (particularly platinum(II)) compounds have been developed as potential anticancer agents and diagnostic agents. The design and synthesis of new drugs is focused on bisintercalators which have two intercalating groups linked via a variety of ligands, and synergistic drugs, which combine the anticancer properties of intercalation with other functionalities, such as covalent binding or boron-cages (for radiation therapy). Advances in spectroscopic techniques mean that the process of DNA intercalation can be examined in far greater detail than ever before, yielding important information on structure-activity relationships. In this review we examine the history and development of DNA intercalators as anticancer agents and advances in the analysis of DNA-drug interactions.

KW - DNA

KW - antineoplastic agents

KW - cancer

KW - drug interactions

KW - spectrum analysis

KW - treatment

UR - http://handle.uws.edu.au:8081/1959.7/36884

M3 - Article

C2 - 17584161

SN - 1389-5575

JO - Mini Reviews in Medicinal Chemistry

JF - Mini Reviews in Medicinal Chemistry

ER -

DNA intercalators in cancer therapy : organic and inorganic drugs and their spectroscopic tools of analysis

Abstract

Keywords

UN SDGs

Other files and links

Fingerprint

Cite this