Aptamers: the Emerging Class of Future Anticoagulation for Vascular Disease
Aptamers: the Emerging Class of Future Anticoagulation for Vascular Disease
Anticoagulation is an important therapeutic strategy to treat and prevent recurrent thrombotic events in patients after acute myocardial infarction and ischemic stroke. However, available anticoagulants have numerous shortcomings including hemorrhage risks, limited clinical application including heparin-induced thrombocytopenia and modest therapeutic benefit. Each component of the coagulation cascade is a potential target for new drug developments. Representing an attractive new therapeutic class, aptamers are nucleic acid ligand with a high affinity and specificity for proteins involved in the clot growth. Potential antidote control of aptamer activity offers an important advance in anticoagulant safety. Aptamers are a promising class of compounds, both for target validation and therapy. As designer drugs, they exhibit high specificity, high affinity and modifiable bioavailability. The ability to generate inhibitors with such properties against a variety of target proteins will be valuable as the human genome and proteome are deciphered. This article summarizes current knowledge of aptamers developed against coagulation proteins, focusing on the biology, pharmacology, preclinical and early clinical experience with this novel class of anticoagulants.
Abstract and Introduction
Abstract
Anticoagulation is an important therapeutic strategy to treat and prevent recurrent thrombotic events in patients after acute myocardial infarction and ischemic stroke. However, available anticoagulants have numerous shortcomings including hemorrhage risks, limited clinical application including heparin-induced thrombocytopenia and modest therapeutic benefit. Each component of the coagulation cascade is a potential target for new drug developments. Representing an attractive new therapeutic class, aptamers are nucleic acid ligand with a high affinity and specificity for proteins involved in the clot growth. Potential antidote control of aptamer activity offers an important advance in anticoagulant safety. Aptamers are a promising class of compounds, both for target validation and therapy. As designer drugs, they exhibit high specificity, high affinity and modifiable bioavailability. The ability to generate inhibitors with such properties against a variety of target proteins will be valuable as the human genome and proteome are deciphered. This article summarizes current knowledge of aptamers developed against coagulation proteins, focusing on the biology, pharmacology, preclinical and early clinical experience with this novel class of anticoagulants.
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