Molecular mechanisms of cardiotoxicity of tyrosine kinase inhibition
T Force, DS Krause, RA Van Etten - Nature Reviews Cancer, 2007 - nature.com
T Force, DS Krause, RA Van Etten
Nature Reviews Cancer, 2007•nature.comCancer therapy has progressed remarkably in recent years. In no area has this been more
apparent than in the development of'targeted therapies', particularly those using drugs that
inhibit the activity of certain tyrosine kinases, activating mutations or amplifications of which
are causal, or strongly contributory, to tumorigenesis. However, some of these therapies
have been associated with toxicity to the heart. Here we summarize what is known about the
cardiotoxicity of cancer drugs that target tyrosine kinases. We focus on basic mechanisms …
apparent than in the development of'targeted therapies', particularly those using drugs that
inhibit the activity of certain tyrosine kinases, activating mutations or amplifications of which
are causal, or strongly contributory, to tumorigenesis. However, some of these therapies
have been associated with toxicity to the heart. Here we summarize what is known about the
cardiotoxicity of cancer drugs that target tyrosine kinases. We focus on basic mechanisms …
Abstract
Cancer therapy has progressed remarkably in recent years. In no area has this been more apparent than in the development of 'targeted therapies', particularly those using drugs that inhibit the activity of certain tyrosine kinases, activating mutations or amplifications of which are causal, or strongly contributory, to tumorigenesis. However, some of these therapies have been associated with toxicity to the heart. Here we summarize what is known about the cardiotoxicity of cancer drugs that target tyrosine kinases. We focus on basic mechanisms through which interruption of specific signalling pathways leads to cardiomyocyte dysfunction and/or death, and contrast this with therapeutic responses in cancer cells.
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