Evaluation of Novel Aminomethyl Indole Derivatives as Src Kinase Inhibitors and Antioxidant Agents
Background: Oxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal system in humans. Reactive oxygen species (ROS) have been associated with mechanisms to activate kinases, such as protein tyrosine kinases, w...
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| Published in | Chemotherapy (Basel) Vol. 57; no. 1; pp. 1 - 6 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Basel, Switzerland
S. Karger AG
01.01.2011
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Background: Oxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal system in humans. Reactive oxygen species (ROS) have been associated with mechanisms to activate kinases, such as protein tyrosine kinases, which may initiate malignant transformation. Significant evidences of the activation of protein kinases by oxidative stress brought increased attention to the role of antioxidants in these mechanisms. Therefore, recent efforts have focused on revealing the relationship between protein kinase inhibition and the levels of ROS production. Methods: Antioxidant properties of aminomethyl indole derivatives were investigated by employing various in vitro systems, microsomal NADPH-dependent inhibition of lipid peroxidation (LP), interaction of 2,2-diphenyl-1-picrylhydrazyl and scavenging of superoxide anion radical by virtue of superoxide dismutase inhibitory activity. In vitro tyrosine kinase assays of the aminomethyl indole derivatives were evaluated by changes in the enzymatic activity of pp60 c-Src tyrosine kinase through alterations in the phosphorylation level of immobilized kinase substrate. Results: Analysis of the antioxidant effects of indole 1a–c, bromo indole 2a–c and phenyl indole 3a–c derivatives revealed almost equal inhibition against LP for 5-bromo indole 2a–c and phenyl indole 3a–c derivatives and slight inhibition against superoxide dismutase only for 1a and 1c. Nonsubstituted compounds at position 5 showed half-inhibition of LP. Compound 1a has tyrosine kinase inhibition with an IC 50 of 102.6 ± 1.16 µM. Conclusion: The substitution feature at position 5 of the indole ring certainly plays an important role in both tyrosine kinase inhibition and antioxidant capacity. While certain lipophilicity of this substitution is important for antioxidant activity, it may, on the other hand, have a negative impact on the inhibition of Src kinase. |
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| AbstractList | Background: Oxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal system in humans. Reactive oxygen species (ROS) have been associated with mechanisms to activate kinases, such as protein tyrosine kinases, which may initiate malignant transformation. Significant evidences of the activation of protein kinases by oxidative stress brought increased attention to the role of antioxidants in these mechanisms. Therefore, recent efforts have focused on revealing the relationship between protein kinase inhibition and the levels of ROS production. Methods: Antioxidant properties of aminomethyl indole derivatives were investigated by employing various in vitro systems, microsomal NADPH-dependent inhibition of lipid peroxidation (LP), interaction of 2,2-diphenyl-1-picrylhydrazyl and scavenging of superoxide anion radical by virtue of superoxide dismutase inhibitory activity. In vitro tyrosine kinase assays of the aminomethyl indole derivatives were evaluated by changes in the enzymatic activity of pp60c-Src tyrosine kinase through alterations in the phosphorylation level of immobilized kinase substrate. Results: Analysis of the antioxidant effects of indole 1a-c, bromo indole 2a-c and phenyl indole 3a-c derivatives revealed almost equal inhibition against LP for 5-bromo indole 2a-c and phenyl indole 3a-c derivatives and slight inhibition against superoxide dismutase only for 1a and 1c. Nonsubstituted compounds at position 5 showed half-inhibition of LP. Compound 1a has tyrosine kinase inhibition with an IC50 of 102.6 ± 1.16 μM. Conclusion: The substitution feature at position 5 of the indole ring certainly plays an important role in both tyrosine kinase inhibition and antioxidant capacity. While certain lipophilicity of this substitution is important for antioxidant activity, it may, on the other hand, have a negative impact on the inhibition of Src kinase. [PUBLICATION ABSTRACT] BACKGROUNDOxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal system in humans. Reactive oxygen species (ROS) have been associated with mechanisms to activate kinases, such as protein tyrosine kinases, which may initiate malignant transformation. Significant evidences of the activation of protein kinases by oxidative stress brought increased attention to the role of antioxidants in these mechanisms. Therefore, recent efforts have focused on revealing the relationship between protein kinase inhibition and the levels of ROS production.METHODSAntioxidant properties of aminomethyl indole derivatives were investigated by employing various in vitro systems, microsomal NADPH-dependent inhibition of lipid peroxidation (LP), interaction of 2,2-diphenyl-1-picrylhydrazyl and scavenging of superoxide anion radical by virtue of superoxide dismutase inhibitory activity. In vitro tyrosine kinase assays of the aminomethyl indole derivatives were evaluated by changes in the enzymatic activity of pp60(c-Src) tyrosine kinase through alterations in the phosphorylation level of immobilized kinase substrate.RESULTSAnalysis of the antioxidant effects of indole 1a-c, bromo indole 2a-c and phenyl indole 3a-c derivatives revealed almost equal inhibition against LP for 5-bromo indole 2a-c and phenyl indole 3a-c derivatives and slight inhibition against superoxide dismutase only for 1a and 1c. Nonsubstituted compounds at position 5 showed half-inhibition of LP. Compound 1a has tyrosine kinase inhibition with an IC(50) of 102.6 ± 1.16 μM.CONCLUSIONThe substitution feature at position 5 of the indole ring certainly plays an important role in both tyrosine kinase inhibition and antioxidant capacity. While certain lipophilicity of this substitution is important for antioxidant activity, it may, on the other hand, have a negative impact on the inhibition of Src kinase. Background: Oxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal system in humans. Reactive oxygen species (ROS) have been associated with mechanisms to activate kinases, such as protein tyrosine kinases, which may initiate malignant transformation. Significant evidences of the activation of protein kinases by oxidative stress brought increased attention to the role of antioxidants in these mechanisms. Therefore, recent efforts have focused on revealing the relationship between protein kinase inhibition and the levels of ROS production. Methods: Antioxidant properties of aminomethyl indole derivatives were investigated by employing various in vitro systems, microsomal NADPH-dependent inhibition of lipid peroxidation (LP), interaction of 2,2-diphenyl-1-picrylhydrazyl and scavenging of superoxide anion radical by virtue of superoxide dismutase inhibitory activity. In vitro tyrosine kinase assays of the aminomethyl indole derivatives were evaluated by changes in the enzymatic activity of pp60 c-Src tyrosine kinase through alterations in the phosphorylation level of immobilized kinase substrate. Results: Analysis of the antioxidant effects of indole 1a–c, bromo indole 2a–c and phenyl indole 3a–c derivatives revealed almost equal inhibition against LP for 5-bromo indole 2a–c and phenyl indole 3a–c derivatives and slight inhibition against superoxide dismutase only for 1a and 1c. Nonsubstituted compounds at position 5 showed half-inhibition of LP. Compound 1a has tyrosine kinase inhibition with an IC 50 of 102.6 ± 1.16 µM. Conclusion: The substitution feature at position 5 of the indole ring certainly plays an important role in both tyrosine kinase inhibition and antioxidant capacity. While certain lipophilicity of this substitution is important for antioxidant activity, it may, on the other hand, have a negative impact on the inhibition of Src kinase. Oxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal system in humans. Reactive oxygen species (ROS) have been associated with mechanisms to activate kinases, such as protein tyrosine kinases, which may initiate malignant transformation. Significant evidences of the activation of protein kinases by oxidative stress brought increased attention to the role of antioxidants in these mechanisms. Therefore, recent efforts have focused on revealing the relationship between protein kinase inhibition and the levels of ROS production. Antioxidant properties of aminomethyl indole derivatives were investigated by employing various in vitro systems, microsomal NADPH-dependent inhibition of lipid peroxidation (LP), interaction of 2,2-diphenyl-1-picrylhydrazyl and scavenging of superoxide anion radical by virtue of superoxide dismutase inhibitory activity. In vitro tyrosine kinase assays of the aminomethyl indole derivatives were evaluated by changes in the enzymatic activity of pp60(c-Src) tyrosine kinase through alterations in the phosphorylation level of immobilized kinase substrate. Analysis of the antioxidant effects of indole 1a-c, bromo indole 2a-c and phenyl indole 3a-c derivatives revealed almost equal inhibition against LP for 5-bromo indole 2a-c and phenyl indole 3a-c derivatives and slight inhibition against superoxide dismutase only for 1a and 1c. Nonsubstituted compounds at position 5 showed half-inhibition of LP. Compound 1a has tyrosine kinase inhibition with an IC(50) of 102.6 ± 1.16 μM. The substitution feature at position 5 of the indole ring certainly plays an important role in both tyrosine kinase inhibition and antioxidant capacity. While certain lipophilicity of this substitution is important for antioxidant activity, it may, on the other hand, have a negative impact on the inhibition of Src kinase. Background: Oxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal system in humans. Reactive oxygen species (ROS) have been associated with mechanisms to activate kinases, such as protein tyrosine kinases, which may initiate malignant transformation. Significant evidences of the activation of protein kinases by oxidative stress brought increased attention to the role of antioxidants in these mechanisms. Therefore, recent efforts have focused on revealing the relationship between protein kinase inhibition and the levels of ROS production. Methods: Antioxidant properties of aminomethyl indole derivatives were investigated by employing various in vitro systems, microsomal NADPH-dependent inhibition of lipid peroxidation (LP), interaction of 2,2-diphenyl-1-picrylhydrazyl and scavenging of superoxide anion radical by virtue of superoxide dismutase inhibitory activity. In vitro tyrosine kinase assays of the aminomethyl indole derivatives were evaluated by changes in the enzymatic activity of pp60c-Src tyrosine kinase through alterations in the phosphorylation level of immobilized kinase substrate. Results: Analysis of the antioxidant effects of indole 1a–c, bromo indole 2a–c and phenyl indole 3a–c derivatives revealed almost equal inhibition against LP for 5-bromo indole 2a–c and phenyl indole 3a–c derivatives and slight inhibition against superoxide dismutase only for 1a and 1c. Nonsubstituted compounds at position 5 showed half-inhibition of LP. Compound 1a has tyrosine kinase inhibition with an IC50 of 102.6 ± 1.16 µM. Conclusion: The substitution feature at position 5 of the indole ring certainly plays an important role in both tyrosine kinase inhibition and antioxidant capacity. While certain lipophilicity of this substitution is important for antioxidant activity, it may, on the other hand, have a negative impact on the inhibition of Src kinase. |
| Author | Kılıç-Kurt, Zühal Şener, Fatma İşgör, Yasemin G. Ölgen, Süreyya Çoban, Tülay |
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| CitedBy_id | crossref_primary_10_1186_s40360_020_00402_9 crossref_primary_10_1021_acs_jafc_1c04337 crossref_primary_10_1016_j_tetlet_2013_07_004 crossref_primary_10_1016_j_bioorg_2019_103021 crossref_primary_10_1016_j_ejmech_2018_07_030 |
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| Copyright | 2010 S. Karger AG, Basel Copyright © 2010 S. Karger AG, Basel. Copyright (c) 2011 S. Karger AG, Basel |
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| Keywords | Aminomethyl indole derivatives Tyrosine kinase inhibition Antioxidant properties |
| Language | English |
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| Snippet | Background: Oxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal... Oxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal system in... BACKGROUNDOxidative stress has been implicated in aging and in a variety of diseases affecting the nervous, respiratory, cardiovascular and gastrointestinal... |
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| SubjectTerms | Animals Antioxidants Antioxidants - chemistry Antioxidants - pharmacology Experimental Chemotherapy Indoles - chemistry Indoles - pharmacology Kinases Lipid Peroxidation - drug effects Microsomes, Liver - metabolism Oxidative stress Protein Kinase Inhibitors - chemistry Protein Kinase Inhibitors - pharmacology Rats src-Family Kinases - antagonists & inhibitors src-Family Kinases - metabolism Superoxide Dismutase - antagonists & inhibitors Superoxide Dismutase - metabolism |
| Title | Evaluation of Novel Aminomethyl Indole Derivatives as Src Kinase Inhibitors and Antioxidant Agents |
| URI | https://karger.com/doi/10.1159/000317764 https://www.ncbi.nlm.nih.gov/pubmed/21124025 https://www.proquest.com/docview/856802546 https://search.proquest.com/docview/856766513 |
| Volume | 57 |
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