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Heparin prepared synthetically could replace animal-derived drug
February 07, 2006Researchers at Rensselaer Polytechnic Institute and University of North Carolina at Chapel Hill have discovered an alternative way to produce heparin, a drug commonly used to stop or prevent blood from clotting. The findings could enable the current supply of the drug - now extracted from animal tissue - to be replaced or supplemented by the synthetic version. The new process also can be applied as a tool for drug discovery, according to the researchers.
Heparin is a complex carbohydrate used to stop or prevent blood from clotting during medical procedures and treatments such as kidney dialysis, heart bypass surgery, stent implantation, indwelling catheters, knee and hip replacements, and deep vein thrombosis. The annual worldwide sales of heparin are estimated at $3 billion.
"We have synthetically prepared heparin in quantities large enough for use in human medical treatments by engineering recently discovered heparin biosynthetic enzymes," says Robert Linhardt, the Ann and John H. Broadbent Jr. '59 Senior Constellation Professor of Biocatalysis and Metabolic Engineering at Rensselaer Polytechnic Institute. "These discoveries will enable us to effectively replace a variable raw material - heparin derived from processed animal organs - with a synthetic material - synthetic heparin - and have the same therapeutic result."
Research in Linhardt's group at the Center for Biotechnology and Interdisciplinary Studies at Rensselaer focuses on complex carbohydrates such as heparin. After determining the structure of these molecules, researchers study their biological activities to establish a structure-activity relationship that may reveal lead compounds for new drug development.
Researchers at MIT first prepared a synthetic heparin, but, in amounts of less than 1 microgram, it was insufficient to treat humans, says Linhardt. One human dose of heparin is approximately 100 milligrams.
Rensselaer and UNC-Chapel Hill researchers successfully synthesized hundreds of milligrams of heparin by developing a large-scale process involving engineered enzymes and co-factor recycling. The new, scaleable process can be applied to synthesize other heparin-based structures that regulate cell growth and may have applications in wound healing or cancer treatment, according to the researchers. The findings were reported Dec. 30, 2005, in the Journal of Biological Chemistry in a paper titled "Enzymatic redesigning of biological active heparan sulfate."
The process also can be applied in solid phase synthesis as a tool for screening lead compounds with heparin-like structures for drug discovery, according to the researchers. The findings were published Jan. 13, 2006, in Biochemical and Biophysical Research Communication in a paper titled "Enzymatic synthesis of heparin related polysaccharides on sensor chips: Rapid screening of heparin-protein interactions."
Linhardt collaborated on the interdisciplinary project with Jian Liu, assistant professor of medicinal chemistry at University of North Carolina at Chapel Hill. Graduate and post-doctoral students involved in the work include: Jinghua Chen (UNC-Chapel Hill), Eva Munoz (Rensselaer), Fikri Avci (Rensselaer), Ding Xu (UNC-Chapel Hill), Melissa Kemp (Rensselaer), and Miao Chen (UNC-Chapel Hill). The work was supported by the National Institutes of Health and the American Heart Association. Rensselaer and UNC-Chapel Hill have jointly filed a provisional patent on the process.
Linhardt said additional research will seek to scale the process another million-fold to make it commercially viable.
Rensselaer Polytechnic Institute
Research in Linhardt's group at the Center for Biotechnology and Interdisciplinary Studies at Rensselaer focuses on complex carbohydrates such as heparin. After determining the structure of these molecules, researchers study their biological activities to establish a structure-activity relationship that may reveal lead compounds for new drug development.
Researchers at MIT first prepared a synthetic heparin, but, in amounts of less than 1 microgram, it was insufficient to treat humans, says Linhardt. One human dose of heparin is approximately 100 milligrams.
Rensselaer and UNC-Chapel Hill researchers successfully synthesized hundreds of milligrams of heparin by developing a large-scale process involving engineered enzymes and co-factor recycling. The new, scaleable process can be applied to synthesize other heparin-based structures that regulate cell growth and may have applications in wound healing or cancer treatment, according to the researchers. The findings were reported Dec. 30, 2005, in the Journal of Biological Chemistry in a paper titled "Enzymatic redesigning of biological active heparan sulfate."
The process also can be applied in solid phase synthesis as a tool for screening lead compounds with heparin-like structures for drug discovery, according to the researchers. The findings were published Jan. 13, 2006, in Biochemical and Biophysical Research Communication in a paper titled "Enzymatic synthesis of heparin related polysaccharides on sensor chips: Rapid screening of heparin-protein interactions."
Linhardt collaborated on the interdisciplinary project with Jian Liu, assistant professor of medicinal chemistry at University of North Carolina at Chapel Hill. Graduate and post-doctoral students involved in the work include: Jinghua Chen (UNC-Chapel Hill), Eva Munoz (Rensselaer), Fikri Avci (Rensselaer), Ding Xu (UNC-Chapel Hill), Melissa Kemp (Rensselaer), and Miao Chen (UNC-Chapel Hill). The work was supported by the National Institutes of Health and the American Heart Association. Rensselaer and UNC-Chapel Hill have jointly filed a provisional patent on the process.
Linhardt said additional research will seek to scale the process another million-fold to make it commercially viable.
Rensselaer Polytechnic Institute
Heparin Current Events and Heparin News RSSScientists successfully reprogram blood cells
Researchers have transplanted genetically modified hematopoietic stem cells into mice so that their developing red blood cells produce a critical lysosomal enzyme -preventing or reducing organ and central nervous system damage from the often-fatal genetic disorder Hurler's syndrome.
Investigation of contaminated heparin syringes highlights medication safety issues
An outbreak of bloodstream infections appears to have been caused by the contamination of pre-filled heparin and saline syringes made by a single company.
Drug-eluting stents better than bare-metal stents for heart attack patients
Late-breaking data from the landmark HORIZONS-AMI clinical trial, presented at the 21st annual Transcatheter Cardiovascular Therapeutics (TCT) scientific symposium, demonstrated that after two years, in heart attack patients, the use of a drug-eluting stent (paclitaxel) was safer and more effective than a bare-metal stent; and that the administration of the anticoagulant medication bivalirudin enhanced safety and efficacy compared to the use of heparin + GPIIb/IIIa inhibitors.
Otamixaban for the treatment of patients with non-ST-elevation acute coronary syndromes
Data from a phase II trial of an investigational intravenous drug designed to block the formation of blood clots shows potential to reduce the risk of death, a second heart attack, or other coronary complications compared with the current standard of care in patients presenting with acute coronary syndromes (heart attacks or unstable angina).
Patient safety advanced by revised heparin standards
Continuing to help ensure the identity, purity and quality of heparin, the U.S. Pharmacopeial (USP) Convention has revised written and physical standards for the widely used blood thinner.
'Artificial Golgi' may provide new insight into key cell structure
Scientists in New York and North Carolina are reporting assembly of the first functioning prototype of an artificial Golgi organelle.
Research highlights new approaches to prevent blood clots
Blood clotting, or coagulation, is an important process that prevents excessive bleeding when a blood vessel is injured.
Simple new method detects contaminants in life-saving drug
The blood-thinning drug heparin is highly effective when used to prevent and treat blood clots in veins, arteries and lungs, but earlier this year its reputation as a lifesaver was sullied when contaminated heparin products caused serious allergic reactions that led to a large number of deaths.
HORIZONS AMI will help set guidelines for drug and stent therapy
The HORIZONS AMI clinical trial measuring the safety and efficacy of the use of the medication bivalirudin compared to standard drug therapy - heparin and glycoprotein IIb/IIIa inhibitors -- in heart attack patients who receive angioplasty, found that after 1 year, use of bivalirudin resulted in significantly lower rates of all-cause death, death from cardiac causes, and major bleeding.
Safety of antithrombotic treatment in acute coronary syndromes
The management of acute coronary syndromes (with or without ST segment elevation) requires the use of anticoagulants, antiplatelet agents (aspirin, clopidogrel and/or glycoprotein (GP) IIb/IIIa inhibitors), beta-blockers, thrombolytics in some cases, and revascularization / reperfusion.
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