An antiarrhythmic agent as a promising lead compound for targeting the hEAG 1 ion channel in cancer therapy: insights from molecular dynamics simulations
Experimental evidence suggests that hERG and hEAG potassium channels may serve as important cancer therapy targets because either of the channel blockade or inactivation by different methods leads to inhibition of cancer cells growth and proliferation. However, there is no known hEAG specific blocke...
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| Veröffentlicht in: | Chemical biology & drug design 2016-11, Vol.88 (5), p.683-689 |
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| container_title | Chemical biology & drug design |
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| creator | Șterbuleac, Daniel Maniu, Călin Lucian |
| description | Experimental evidence suggests that
hERG
and
hEAG
potassium channels may serve as important cancer therapy targets because either of the channel blockade or inactivation by different methods leads to inhibition of cancer cells growth and proliferation. However, there is no known
hEAG
specific blocker, and
hERG
blockade leads to adverse cardiac side effects, although it is currently used in treating certain types of arrhythmias. There have been some attempts to explain the channels blockade by clofilium, an antiarrhythmic agent, and the results lead to different possible binding modes. This study investigates for the first time the potential of using clofilium as a lead compound for finding a novel cancer therapy agent which may target ion channels. The implied findings from a comparative assessment of literature studies were verified using molecular dynamics simulations. The results indicate a particular structural difference between the two channels that could provide a novel and realistic way of using clofilium analogs which may target the
hEAG
1 ion channel in cancer therapy. |
| doi_str_mv | 10.1111/cbdd.12797 |
| format | Article |
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hERG
and
hEAG
potassium channels may serve as important cancer therapy targets because either of the channel blockade or inactivation by different methods leads to inhibition of cancer cells growth and proliferation. However, there is no known
hEAG
specific blocker, and
hERG
blockade leads to adverse cardiac side effects, although it is currently used in treating certain types of arrhythmias. There have been some attempts to explain the channels blockade by clofilium, an antiarrhythmic agent, and the results lead to different possible binding modes. This study investigates for the first time the potential of using clofilium as a lead compound for finding a novel cancer therapy agent which may target ion channels. The implied findings from a comparative assessment of literature studies were verified using molecular dynamics simulations. The results indicate a particular structural difference between the two channels that could provide a novel and realistic way of using clofilium analogs which may target the
hEAG
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hERG
and
hEAG
potassium channels may serve as important cancer therapy targets because either of the channel blockade or inactivation by different methods leads to inhibition of cancer cells growth and proliferation. However, there is no known
hEAG
specific blocker, and
hERG
blockade leads to adverse cardiac side effects, although it is currently used in treating certain types of arrhythmias. There have been some attempts to explain the channels blockade by clofilium, an antiarrhythmic agent, and the results lead to different possible binding modes. This study investigates for the first time the potential of using clofilium as a lead compound for finding a novel cancer therapy agent which may target ion channels. The implied findings from a comparative assessment of literature studies were verified using molecular dynamics simulations. The results indicate a particular structural difference between the two channels that could provide a novel and realistic way of using clofilium analogs which may target the
hEAG
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hERG
and
hEAG
potassium channels may serve as important cancer therapy targets because either of the channel blockade or inactivation by different methods leads to inhibition of cancer cells growth and proliferation. However, there is no known
hEAG
specific blocker, and
hERG
blockade leads to adverse cardiac side effects, although it is currently used in treating certain types of arrhythmias. There have been some attempts to explain the channels blockade by clofilium, an antiarrhythmic agent, and the results lead to different possible binding modes. This study investigates for the first time the potential of using clofilium as a lead compound for finding a novel cancer therapy agent which may target ion channels. The implied findings from a comparative assessment of literature studies were verified using molecular dynamics simulations. The results indicate a particular structural difference between the two channels that could provide a novel and realistic way of using clofilium analogs which may target the
hEAG
1 ion channel in cancer therapy.</abstract><doi>10.1111/cbdd.12797</doi><tpages>7</tpages></addata></record> |
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| ispartof | Chemical biology & drug design, 2016-11, Vol.88 (5), p.683-689 |
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| source | Wiley Online Library Journals Frontfile Complete |
| title | An antiarrhythmic agent as a promising lead compound for targeting the hEAG 1 ion channel in cancer therapy: insights from molecular dynamics simulations |
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