Oral rapamycin inhibits growth of atherosclerotic plaque in apoE knock-out mice

Introduction: Inflammatory and immunological responses of vascular cells are known to play significant roles in atherosclerotic plaque development. Rapamycin with antiinflammatory, immunosuppressive and antiproliferative properties has been shown to reduce neointima formation when coated on stents....

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Published inCardiovascular radiation medicine Vol. 4; no. 1; pp. 34 - 38
Main Authors Waksman, Ron, Pakala, Rajbabu, Burnett, Mary S., Gulick, Cindy P., Leborgne, Laurent, Fournadjiev, Jana, Wolfram, Roswitha, Hellinga, David
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 2003
Subjects
Administration, Oral
Animals
Aorta - drug effects
Aorta - pathology
Apolipoproteins E - genetics
ARTERIOSCLEROSIS
Arteriosclerosis - drug therapy
Atherosclerosis
BLOOD
CHOLESTEROL
DIET
HIGH-PERFORMANCE LIQUID CHROMATOGRAPHY
Immunosuppressive Agents - administration & dosage
INFLAMMATION
MICE
Mice, Knockout - genetics
Oral rapamycin
Plaque
RADIATION DOSES
RADIOLOGY AND NUCLEAR MEDICINE
Sirolimus - administration & dosage
Treatment Outcome
Oral rapamycin
Atherosclerosis
Plaque
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Abstract Introduction: Inflammatory and immunological responses of vascular cells are known to play significant roles in atherosclerotic plaque development. Rapamycin with antiinflammatory, immunosuppressive and antiproliferative properties has been shown to reduce neointima formation when coated on stents. This study is designed to test the potential of oral rapamycin to inhibit atherosclerotic plaque development. Methods: Eight-week-old apoE knock-out mice were fed with 0.25% cholesterol supplemented diet (control diet), control diet containing 50 μg/kg rapamycin (low-dose rapamycin) or 100 μg/kg rapamycin (high-dose rapamycin) for 4 or 8 weeks. Subsets of mice from each group ( n=10) were weighed and euthanized. Whole blood rapamycin levels were determined using HPLC–MS/MS, and histological analyses of atherosclerotic lesions in the aortic root were performed. Results: Mice fed with high-dose rapamycin did not gain weight (18.5±1.5 vs. 20.6±0.9 g, P=.01). Blood levels of rapamycin 117±7 pg/ml were detected in the blood of mice fed with high-dose rapamycin for 8 weeks. The plaque area in mice fed with high dose oral rapamycin is significantly less as compared to control (0.168±0.008 vs. 0.326±0.013 mm 2, P=.001 at 4 weeks; 0.234±0.013 vs. 0.447±0.011 mm 2, P=.001 at 8 weeks). Lumen area was inversely proportional to the plaque area. Conclusions: The results indicate that oral rapamycin is effective in attenuating the progression of atherosclerotic plaque in the mice.
AbstractList Introduction: Inflammatory and immunological responses of vascular cells are known to play significant roles in atherosclerotic plaque development. Rapamycin with antiinflammatory, immunosuppressive and antiproliferative properties has been shown to reduce neointima formation when coated on stents. This study is designed to test the potential of oral rapamycin to inhibit atherosclerotic plaque development. Methods: Eight-week-old apoE knock-out mice were fed with 0.25% cholesterol supplemented diet (control diet), control diet containing 50 μg/kg rapamycin (low-dose rapamycin) or 100 μg/kg rapamycin (high-dose rapamycin) for 4 or 8 weeks. Subsets of mice from each group ( n=10) were weighed and euthanized. Whole blood rapamycin levels were determined using HPLC–MS/MS, and histological analyses of atherosclerotic lesions in the aortic root were performed. Results: Mice fed with high-dose rapamycin did not gain weight (18.5±1.5 vs. 20.6±0.9 g, P=.01). Blood levels of rapamycin 117±7 pg/ml were detected in the blood of mice fed with high-dose rapamycin for 8 weeks. The plaque area in mice fed with high dose oral rapamycin is significantly less as compared to control (0.168±0.008 vs. 0.326±0.013 mm 2, P=.001 at 4 weeks; 0.234±0.013 vs. 0.447±0.011 mm 2, P=.001 at 8 weeks). Lumen area was inversely proportional to the plaque area. Conclusions: The results indicate that oral rapamycin is effective in attenuating the progression of atherosclerotic plaque in the mice.
Introduction: Inflammatory and immunological responses of vascular cells are known to play significant roles in atherosclerotic plaque development. Rapamycin with antiinflammatory, immunosuppressive and antiproliferative properties has been shown to reduce neointima formation when coated on stents. This study is designed to test the potential of oral rapamycin to inhibit atherosclerotic plaque development. Methods: Eight-week-old apoE knock-out mice were fed with 0.25% cholesterol supplemented diet (control diet), control diet containing 50 {mu}g/kg rapamycin (low-dose rapamycin) or 100 {mu}g/kg rapamycin (high-dose rapamycin) for 4 or 8 weeks. Subsets of mice from each group (n=10) were weighed and euthanized. Whole blood rapamycin levels were determined using HPLC-MS/MS, and histological analyses of atherosclerotic lesions in the aortic root were performed. Results: Mice fed with high-dose rapamycin did not gain weight (18.5{+-}1.5 vs. 20.6{+-}0.9 g, P=.01). Blood levels of rapamycin 117{+-}7 pg/ml were detected in the blood of mice fed with high-dose rapamycin for 8 weeks. The plaque area in mice fed with high dose oral rapamycin is significantly less as compared to control (0.168{+-}0.008 vs. 0.326{+-}0.013 mm{sup 2}, P=.001 at 4 weeks; 0.234{+-}0.013 vs. 0.447{+-}0.011 mm{sup 2}, P=.001 at 8 weeks). Lumen area was inversely proportional to the plaque area. Conclusions: The results indicate that oral rapamycin is effective in attenuating the progression of atherosclerotic plaque in the mice.
Inflammatory and immunological responses of vascular cells are known to play significant roles in atherosclerotic plaque development. Rapamycin with antiinflammatory, immunosuppressive and antiproliferative properties has been shown to reduce neointima formation when coated on stents. This study is designed to test the potential of oral rapamycin to inhibit atherosclerotic plaque development. Eight-week-old apoE knock-out mice were fed with 0.25% cholesterol supplemented diet (control diet), control diet containing 50 microg/kg rapamycin (low-dose rapamycin) or 100 microg/kg rapamycin (high-dose rapamycin) for 4 or 8 weeks. Subsets of mice from each group (n=10) were weighed and euthanized. Whole blood rapamycin levels were determined using HPLC-MS/MS, and histological analyses of atherosclerotic lesions in the aortic root were performed. Mice fed with high-dose rapamycin did not gain weight (18.5+/-1.5 vs. 20.6+/-0.9 g, P=.01). Blood levels of rapamycin 117+/-7 pg/ml were detected in the blood of mice fed with high-dose rapamycin for 8 weeks. The plaque area in mice fed with high dose oral rapamycin is significantly less as compared to control (0.168+/-0.008 vs. 0.326+/-0.013 mm2, P=.001 at 4 weeks; 0.234+/-0.013 vs. 0.447+/-0.011 mm2, P=.001 at 8 weeks). Lumen area was inversely proportional to the plaque area. The results indicate that oral rapamycin is effective in attenuating the progression of atherosclerotic plaque in the mice.
INTRODUCTIONInflammatory and immunological responses of vascular cells are known to play significant roles in atherosclerotic plaque development. Rapamycin with antiinflammatory, immunosuppressive and antiproliferative properties has been shown to reduce neointima formation when coated on stents. This study is designed to test the potential of oral rapamycin to inhibit atherosclerotic plaque development. METHODSEight-week-old apoE knock-out mice were fed with 0.25% cholesterol supplemented diet (control diet), control diet containing 50 microg/kg rapamycin (low-dose rapamycin) or 100 microg/kg rapamycin (high-dose rapamycin) for 4 or 8 weeks. Subsets of mice from each group (n=10) were weighed and euthanized. Whole blood rapamycin levels were determined using HPLC-MS/MS, and histological analyses of atherosclerotic lesions in the aortic root were performed. RESULTSMice fed with high-dose rapamycin did not gain weight (18.5+/-1.5 vs. 20.6+/-0.9 g, P=.01). Blood levels of rapamycin 117+/-7 pg/ml were detected in the blood of mice fed with high-dose rapamycin for 8 weeks. The plaque area in mice fed with high dose oral rapamycin is significantly less as compared to control (0.168+/-0.008 vs. 0.326+/-0.013 mm2, P=.001 at 4 weeks; 0.234+/-0.013 vs. 0.447+/-0.011 mm2, P=.001 at 8 weeks). Lumen area was inversely proportional to the plaque area. CONCLUSIONSThe results indicate that oral rapamycin is effective in attenuating the progression of atherosclerotic plaque in the mice.
Author Waksman, Ron
Leborgne, Laurent
Fournadjiev, Jana
Pakala, Rajbabu
Gulick, Cindy P.
Burnett, Mary S.
Hellinga, David
Wolfram, Roswitha
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https://www.osti.gov/biblio/20650557$$D View this record in Osti.gov
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Keywords Oral rapamycin
Atherosclerosis
Plaque
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Snippet Introduction: Inflammatory and immunological responses of vascular cells are known to play significant roles in atherosclerotic plaque development. Rapamycin...
Inflammatory and immunological responses of vascular cells are known to play significant roles in atherosclerotic plaque development. Rapamycin with...
INTRODUCTIONInflammatory and immunological responses of vascular cells are known to play significant roles in atherosclerotic plaque development. Rapamycin...
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StartPage 34
SubjectTerms Administration, Oral
Animals
Aorta - drug effects
Aorta - pathology
Apolipoproteins E - genetics
ARTERIOSCLEROSIS
Arteriosclerosis - drug therapy
Atherosclerosis
BLOOD
CHOLESTEROL
DIET
HIGH-PERFORMANCE LIQUID CHROMATOGRAPHY
Immunosuppressive Agents - administration & dosage
INFLAMMATION
MICE
Mice, Knockout - genetics
Oral rapamycin
Plaque
RADIATION DOSES
RADIOLOGY AND NUCLEAR MEDICINE
Sirolimus - administration & dosage
Treatment Outcome
Title Oral rapamycin inhibits growth of atherosclerotic plaque in apoE knock-out mice
URI https://dx.doi.org/10.1016/S1522-1865(03)00121-5
https://www.ncbi.nlm.nih.gov/pubmed/12892771
https://search.proquest.com/docview/73526408
https://www.osti.gov/biblio/20650557
Volume 4
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