Oxidative Deamination of Methylamine by Semicarbazide-Sensitive Amine Oxidase Leads to Cytotoxic Damage in Endothelial Cells: Possible Consequences for Diabetes
Methylamine was observed to be deaminated by several semicarbazide-sensitive amine oxidases, which were prepared from blood and vascular tissues of various species, including humans. Although methylamine itself is relatively nontoxic toward endothelial cells obtained from both human umbilical vein a...
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| Published in | Diabetes (New York, N.Y.) Vol. 42; no. 4; pp. 594 - 603 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Diabetes Association
01.04.1993
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Methylamine was observed to be deaminated by several semicarbazide-sensitive amine oxidases, which were prepared from blood and vascular tissues of various species, including humans. Although methylamine itself is relatively nontoxic toward endothelial cells obtained from both human umbilical vein and calf pulmonary artery, it becomes very toxic in the presence of SSAO. SSAO inhibitors (i.e., MDL-72974A) effectively protected the cells from methylamine-SSAO–induced damage. The cytotoxicity seems, therefore, to be a consequence of the deamination of methylamine. Our findings suggest that formaldehyde, the deaminated product of methylamine, may be responsible for these toxic effects. Human serum, which also contains SSAO, was also capable of deaminating methylamine and causing cytotoxicity to cultured endothelial cells. Both methylamine and SSAO circulate in human blood, and their concentrations in the blood of normal healthy subjects are quite close to those required to induce cytotoxicity in tissue-cultured cells. Both SSAO activity and methylamine levels have been reported to be increased in the blood of diabetic individuals. Blood SSAO activity also has been reported to be elevated in the blood of STZ-induced diabetic rats. It is possible, therefore, that an abnormal metabolism of methylamine may be involved in endothelial injury, and that it may subsequently induce atherosclerotic plaque formation and thus be involved in the cardiovascular disorders seen in diabetes. |
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| AbstractList | Methylamine was observed to be deaminated by several semicarbazide-sensitive amine oxidases, which were prepared from blood and vascular tissues of various species, including humans. Although methylamine itself is relatively nontoxic toward endothelial cells obtained from both human umbilical vein and calf pulmonary artery, it becomes very toxic in the presence of SSAO. SSAO inhibitors (i.e., MDL-72974A) effectively protected the cells from methylamine-SSAO-induced damage. The cytotoxicity seems, therefore, to be a consequence of the deamination of methylamine. Our findings suggest that formaldehyde, the deaminated product of methylamine, may be responsible for these toxic effects. Human serum, which also contains SSAO, was also capable of deaminating methylamine and causing cytotoxicity to cultured endothelial cells. Both methylamine and SSAO circulate in human blood, and their concentrations in the blood of normal healthy subjects are quite close to those required to induce cytotoxicity in tissue-cultured cells. Both SSAO activity and methylamine levels have been reported to be increased in the blood of diabetic individuals. Blood SSAO activity also has been reported to be elevated in the blood of STZ-induced diabetic rats. It is possible, therefore, that an abnormal metabolism of methylamine may be involved in endothelial injury, and that it may subsequently induce atherosclerotic plaque formation and thus be involved in the cardiovascular disorders seen in diabetes.Methylamine was observed to be deaminated by several semicarbazide-sensitive amine oxidases, which were prepared from blood and vascular tissues of various species, including humans. Although methylamine itself is relatively nontoxic toward endothelial cells obtained from both human umbilical vein and calf pulmonary artery, it becomes very toxic in the presence of SSAO. SSAO inhibitors (i.e., MDL-72974A) effectively protected the cells from methylamine-SSAO-induced damage. The cytotoxicity seems, therefore, to be a consequence of the deamination of methylamine. Our findings suggest that formaldehyde, the deaminated product of methylamine, may be responsible for these toxic effects. Human serum, which also contains SSAO, was also capable of deaminating methylamine and causing cytotoxicity to cultured endothelial cells. Both methylamine and SSAO circulate in human blood, and their concentrations in the blood of normal healthy subjects are quite close to those required to induce cytotoxicity in tissue-cultured cells. Both SSAO activity and methylamine levels have been reported to be increased in the blood of diabetic individuals. Blood SSAO activity also has been reported to be elevated in the blood of STZ-induced diabetic rats. It is possible, therefore, that an abnormal metabolism of methylamine may be involved in endothelial injury, and that it may subsequently induce atherosclerotic plaque formation and thus be involved in the cardiovascular disorders seen in diabetes. Methylamine was observed to be deaminated by several semicarbazide-sensitive amine oxidases, which were prepared from blood and vascular tissues of various species, including humans. Although methylamine itself is relatively nontoxic toward endothelial cells obtained from both human umbilical vein and calf pulmonary artery, it becomes very toxic in the presence of SSAO. SSAO inhibitors (i.e., MDL-72974A) effectively protected the cells from methylamine-SSAO–induced damage. The cytotoxicity seems, therefore, to be a consequence of the deamination of methylamine. Our findings suggest that formaldehyde, the deaminated product of methylamine, may be responsible for these toxic effects. Human serum, which also contains SSAO, was also capable of deaminating methylamine and causing cytotoxicity to cultured endothelial cells. Both methylamine and SSAO circulate in human blood, and their concentrations in the blood of normal healthy subjects are quite close to those required to induce cytotoxicity in tissue-cultured cells. Both SSAO activity and methylamine levels have been reported to be increased in the blood of diabetic individuals. Blood SSAO activity also has been reported to be elevated in the blood of STZ-induced diabetic rats. It is possible, therefore, that an abnormal metabolism of methylamine may be involved in endothelial injury, and that it may subsequently induce atherosclerotic plaque formation and thus be involved in the cardiovascular disorders seen in diabetes. |
| Audience | Professional |
| Author | Zuo, Dong-Mei Yu, Peter H |
| Author_xml | – sequence: 1 givenname: Peter H surname: Yu fullname: Yu, Peter H organization: Neuropsychiatric Research Unit, Department of Psychiatry, University of Saskatchewan Saskatoon, Canada – sequence: 2 givenname: Dong-Mei surname: Zuo fullname: Zuo, Dong-Mei organization: Neuropsychiatric Research Unit, Department of Psychiatry, University of Saskatchewan Saskatoon, Canada |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/8454111$$D View this record in MEDLINE/PubMed |
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| Copyright | COPYRIGHT 1993 American Diabetes Association |
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| Snippet | Methylamine was observed to be deaminated by several semicarbazide-sensitive amine oxidases, which were prepared from blood and vascular tissues of various... |
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| SubjectTerms | Amine Oxidase (Copper-Containing) - metabolism Animals Benzylamines - metabolism Benzylamines - pharmacology Cardiovascular diseases Cell Line Cell Survival - drug effects Cells, Cultured Complications and side effects Deamination Development and progression Diabetes Diabetes mellitus Diabetes Mellitus - physiopathology Dose-Response Relationship, Drug Endothelium Endothelium, Vascular - cytology Endothelium, Vascular - drug effects Endothelium, Vascular - metabolism Formaldehyde - pharmacology Humans Hydrogen Peroxide - pharmacology Injuries Male Methylamines - metabolism Methylamines - pharmacology Oxidases Oxidation-Reduction Physiological aspects Rats Rats, Wistar Substrate Specificity Umbilical Arteries |
| Title | Oxidative Deamination of Methylamine by Semicarbazide-Sensitive Amine Oxidase Leads to Cytotoxic Damage in Endothelial Cells: Possible Consequences for Diabetes |
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