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Atorvastatin
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Catalog No. T20765Cas No. 134523-00-5
Atorvastatin, an orally active HMG-CoA reductase inhibitor, effectively lowers blood lipids by activating liver cytochrome p450 to accelerate metabolism. Atorvastatin inhibits the proliferation and invasion of human SV-SMC cells with IC50 values of 0.39 μM and 2.39 μM, respectively. [Atorvastatin] combined with clopidogrel may lead to increased thrombotic events in patients.
Atorvastatin
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Purity: 99.69%
Catalog No. T20765Cas No. 134523-00-5
Atorvastatin, an orally active HMG-CoA reductase inhibitor, effectively lowers blood lipids by activating liver cytochrome p450 to accelerate metabolism. Atorvastatin inhibits the proliferation and invasion of human SV-SMC cells with IC50 values of 0.39 μM and 2.39 μM, respectively. [Atorvastatin] combined with clopidogrel may lead to increased thrombotic events in patients.
| Pack Size | Price | USA Warehouse | Global Warehouse | Quantity |
|---|---|---|---|---|
| 5 mg | $31 | In Stock | In Stock | |
| 10 mg | $44 | In Stock | In Stock | |
| 25 mg | $53 | In Stock | In Stock | |
| 50 mg | $62 | In Stock | In Stock | |
| 100 mg | $107 | In Stock | In Stock | |
| 500 mg | $265 | 7-10 days | 7-10 days | |
| 1 mL x 10 mM (in DMSO) | $48 | In Stock | In Stock |
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In Stock Estimated shipping dateUSA Warehouse[1-2 days] Global Warehouse[5-7 days]
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Purity:99.69%
Color:White
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Product Introduction
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Chemical Properties
Storage & Solubility Information
| Description | Atorvastatin, an orally active HMG-CoA reductase inhibitor, effectively lowers blood lipids by activating liver cytochrome p450 to accelerate metabolism. Atorvastatin inhibits the proliferation and invasion of human SV-SMC cells with IC50 values of 0.39 μM and 2.39 μM, respectively. [Atorvastatin] combined with clopidogrel may lead to increased thrombotic events in patients. |
| In vitro | In the atorvastatin group, myocardial cells were lined up more orderly and myocardial fibrosis level was decreased compared to the model group. The expressions of GRP78, caspase-12 and CHOP in myocardial cells were decreased in atorvastatin group. Moreover, in the atorvastatin-treated group the cell apoptosis rate was reduced and the endoplasmic reticulum (ER) stress was activated in response to heart failure and angiotensin II (Ang II) stimulation[1] |
| In vivo | Higher dose of atorvastatin can effectively suppress the development and progression of AAA induced by Ang II or CaCl2. Mechanistically, the activation of ER stress and inflammatory response were found involved in Ang II-induced AAA formation. The atorvastatin infusion significantly reduced ER stress signaling proteins, the number of apoptotic cells, and the activation of Caspase12 and Bax in the Ang II-induced ApoE-/- mice, compared with mice treated by Ang II alone. Furthermore, proinflammatory cytokines such as IL-6, IL-8, IL-1β were all remarkably inhibited after atorvastatin treatment. In vitro, the inhibitory effect of simvastatin on the ER stress signal pathway could be observed in both vascular smooth muscle cells and macrophages, and these inhibitory effects of statin were in a dose-dependent manner. In addition, apoptosis was induced with Ang II treatment. The maximal inhibitory effect of simvastatin on apoptosis was observed at 10 μmol/l. |
| Molecular Weight | 558.64 |
| Formula | C33H35FN2O5 |
| Cas No. | 134523-00-5 |
| Smiles | C(NC1=CC=CC=C1)(=O)C=2C(=C(N(CC[C@H](C[C@H](CC(O)=O)O)O)C2C(C)C)C3=CC=C(F)C=C3)C4=CC=CC=C4 |
| Relative Density. | 1.23 g/cm3 (Predicted) |
| Storage | Powder: -20°C for 3 years | In solvent: -80°C for 1 year | Shipping with blue ice/Shipping at ambient temperature. | |||||||||||||||||||||||||||||||||||
| Solubility Information | DMSO: 242.5 mg/mL (434.09 mM), Sonication is recommended.  | |||||||||||||||||||||||||||||||||||
| In Vivo Formulation | 10% DMSO+40% PEG300+5% Tween 80+45% Saline: 3.3 mg/mL (5.91 mM), Sonication is recommended. Please add the solvents sequentially, clarifying the solution as much as possible before adding the next one. Dissolve by heating and/or sonication if necessary. Working solution is recommended to be prepared and used immediately. The formulation provided above is for reference purposes only. In vivo formulations may vary and should be modified based on specific experimental conditions. | |||||||||||||||||||||||||||||||||||
Solution Preparation Table | ||||||||||||||||||||||||||||||||||||
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Calculator
In Vivo Formulation Calculator (Clear solution)
Please enter your animal experiment information in the following box and click Calculate to obtain the stock solution preparation method and in vivo formula preparation method:
For example, if the intended dosage is 10 mg/kg for animals weighing 20 g , with a dosing volume of 100 μL per animal, and a total of 10 animals are to be administered, using a formulation of 
10% DMSO+ 40% PEG300+ 5% Tween 80+ 45% Saline/PBS/ddH2O , the resulting working solution concentration would be 2 mg/mL.Stock Solution Preparation:
Dissolve 2 mg of the compound in 100 μL DMSO to obtain a stock solution at a concentration of 20 mg/mL . If the required concentration exceeds the compound's known solubility, please contact us for technical support before proceeding.
Preparation of the In Vivo Formulation:
1) Add 100 μL of the DMSO stock solution to 400 μL PEG300 and mix thoroughly until the solution becomes clear.
2) Add 50 μL Tween 80 and mix well until fully clarified.
3) Add 450 μL Saline,PBS or ddH2O and mix thoroughly until a homogeneous solution is obtained.
This example is provided solely to demonstrate the use of the In Vivo Formulation Calculator and does not constitute a recommended formulation for any specific compound. Please select an appropriate dissolution and formulation strategy based on your experimental model and route of administration.
Dose Conversion
You can also refer to dose conversion for different animals. More Dose Conversion
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Please see Inhibitor Handling Instructions for more frequently ask questions. Topics include: how to prepare stock solutions, how to store products, and cautions on cell-based assays & animal experiments, etc
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