 |
|
Using evolution, UW team creates a template for many new therapeutic agents
September 10, 2007MADISON - By guiding an enzyme down a new evolutionary pathway, a team of University of Wisconsin-Madison researchers has created a new form of an enzyme capable of producing a range of potential new therapeutic agents with anticancer and antibiotic properties.
Writing in the current issue (Sept. 9, 2007) of the journal Nature Chemical Biology, a team of researchers from the UW-Madison School of Pharmacy describes a novel enzyme capable of changing the chemical properties of a variety of existing drugs and small molecules to make new agents to treat cancer and fight infection.
"We're finding this enzyme glycosylates all sorts of molecules," says Jon Thorson, a UW-Madison professor of pharmaceutical sciences describing the process of adding natural sugar molecules to other chemical molecules to enhance their biological effects.
The newly evolved enzyme developed by Thorson and colleagues Gavin. J. Williams and Changsheng Zhang, according to Thorson, is akin to a "Swiss Army enzyme," a catalyst that can decorate many different chemical molecules with all sorts of sugars to alter their biological effects.
Enzymes are proteins that act as catalysts across biology, from single-celled organisms to humans. They promote chemical reactions in cells and are used widely in industry for everything from making beer and cheese to producing paper and biofuel.
They are also important for making so-called natural drugs, therapeutic agents based on the blueprints of chemicals produced in nature by plants and microorganisms. Such natural sugar-bearing chemicals are the basis for some of medicine's most potent antibiotics and anticancer drugs as exemplified by the antibiotic erythromycin and the anticancer drug doxorubicin.
Important chemical features of such drugs are natural sugars, molecules that often determine a chemical compound's biological effects. Although scientists can sometimes manipulate how sugars are added or subtracted to a chemical molecule to alter its therapeutic properties, it is difficult and not always possible to routinely modify them to enhance their beneficial effects.
The new enzyme was created by generating random mutations in genes that make a naturally occurring enzyme. The altered genes were then put into a bacterium, which fabricated a series of randomly mutated new enzymes. These enzyme variants were then tested in a high throughput screen where chemical molecules engineered to fluoresce stop glowing when a sugar is successfully attached.
"We're transferring the sugar to a beacon," Thorson explains. "When you attach a sugar, you shut off the fluorescence."
The development of the screen, according to Thorson, was critical, overcoming a key limitation in the glycosyltransferase field.
"We're assaying hundreds of very interesting drug-like molecules now with newly evolved glycosyltransferases. The ability to rapidly evolve these enzymes has opened a lot of doors."
The range of potential therapeutic agents that might be generated with the new technology includes important anti-inflammatory and anti-cancer compounds, and antibiotics.
What's more, the work could lead to the creation of a "super bug," an engineered bacterium that can perform the entire process in a laboratory dish: "There's no doubt that this is going to work in vivo," says Thorson. "We can create a bug where you feed it sugars and the compounds you want to hang those sugars on" to arrive at new medicines.
University of Wisconsin-Madison
The newly evolved enzyme developed by Thorson and colleagues Gavin. J. Williams and Changsheng Zhang, according to Thorson, is akin to a "Swiss Army enzyme," a catalyst that can decorate many different chemical molecules with all sorts of sugars to alter their biological effects.
Enzymes are proteins that act as catalysts across biology, from single-celled organisms to humans. They promote chemical reactions in cells and are used widely in industry for everything from making beer and cheese to producing paper and biofuel.
They are also important for making so-called natural drugs, therapeutic agents based on the blueprints of chemicals produced in nature by plants and microorganisms. Such natural sugar-bearing chemicals are the basis for some of medicine's most potent antibiotics and anticancer drugs as exemplified by the antibiotic erythromycin and the anticancer drug doxorubicin.
Important chemical features of such drugs are natural sugars, molecules that often determine a chemical compound's biological effects. Although scientists can sometimes manipulate how sugars are added or subtracted to a chemical molecule to alter its therapeutic properties, it is difficult and not always possible to routinely modify them to enhance their beneficial effects.
The new enzyme was created by generating random mutations in genes that make a naturally occurring enzyme. The altered genes were then put into a bacterium, which fabricated a series of randomly mutated new enzymes. These enzyme variants were then tested in a high throughput screen where chemical molecules engineered to fluoresce stop glowing when a sugar is successfully attached.
"We're transferring the sugar to a beacon," Thorson explains. "When you attach a sugar, you shut off the fluorescence."
The development of the screen, according to Thorson, was critical, overcoming a key limitation in the glycosyltransferase field.
"We're assaying hundreds of very interesting drug-like molecules now with newly evolved glycosyltransferases. The ability to rapidly evolve these enzymes has opened a lot of doors."
The range of potential therapeutic agents that might be generated with the new technology includes important anti-inflammatory and anti-cancer compounds, and antibiotics.
What's more, the work could lead to the creation of a "super bug," an engineered bacterium that can perform the entire process in a laboratory dish: "There's no doubt that this is going to work in vivo," says Thorson. "We can create a bug where you feed it sugars and the compounds you want to hang those sugars on" to arrive at new medicines.
University of Wisconsin-Madison
Therapeutic Agent Current Events and Therapeutic Agent News RSSTiny molecule helps control blood-vessel development, researchers find
The development and repair of heart tissue and blood vessels is intimately tied to a tiny piece of ribonucleic acid (RNA) that is found nowhere else in the body, researchers at UT Southwestern Medical Center have found.
Skin flaps deliver cancer-fighting therapy, ASPS study reveals
Using gene therapy, plastic surgeons have delivered cancer fighting proteins through skin flaps placed on cancerous tumors on rats with a 79 percent reduction in tumor volume.
Popular alternative therapy for psoriasis performs no better than placebo
Anecdotal evidence touting the healing power of the Indian spice turmeric for psoriasis received a setback in a prospective study published this month by a leading dermatology journal stating that the low response rate of patients who ingested the active ingredient of the exotic spice was probably a result of the placebo effect.
Fat cells send message that aids insulin secretion
The body's fat cells help the pancreas do its job of secreting insulin, according to research at Washington University School of Medicine in St. Louis.
Mayo Clinic study shows drug could effectively treat, prevent the spread of breast cancer
A Mayo Clinic study of a drug that has shown promise in treating sarcoma, lung and brain cancers, demonstrates that the drug may also be effective in treating breast cancer, in particular the spread of breast cancer.
MIT works toward novel therapeutic device
MIT and University of Rochester researchers report important advances toward a therapeutic device that has the potential to capture cells as they flow through the blood stream and treat them. Among other applications, such a device could zapp cancer cells spreading to other tissues, or signal stem cells to differentiate.
Computers help chemists fight emerging infections
Computer analysis of existing drugs may be key to fighting new infectious agents and antibiotic-resistant pathogens like deadly tuberculosis strains and staph 'superbugs.'
Scientists take next step in understanding potential target for Ovarian cancer treatment
A traffic cop protein in the cell may have an even more important role: transporting a messenger protein that tells components in the nucleus to stop cell growth. The discovery of this additional role may lead to diagnostic tools and earlier treatments for ovarian cancer.
Promising protein may prevent eye damage in premature babies
A protein long thought to be one of the body's supporting players has quietly been taking a lead role in healthy eyesight, a discovery that could rapidly lead to treatments for babies born before their eyes are finished growing, University of Florida and Harvard Medical School researchers have found.
Talcum powder stunts growth of lung tumors
Talcum powder has been used for generations to soothe babies' diaper rash and freshen women's faces. But University of Florida researchers report the household product has an additional healing power: The ability to stunt cancer growth by cutting the flow of blood to metastatic lung tumors.
More Therapeutic Agent Current Events and Therapeutic Agent News Articles
 | Chemical Warfare Agents: Chemistry, Pharmacology, Toxicology, and Therapeutics, Second Edition The first edition of this book, Chemical Warfare Agents: Toxicity at Low Levels, was published just prior to the terrorist attacks of September 11th, 2001. Reflecting a greater sense of urgency within the field of chemical defense since this event, research related to chemical warfare agents (CWAs) continues to expand at a remarkable pace. Chemical Warfare Agents: Pharmacology, Toxicology, and... |
 | Evidence-Based Guide to Therapeutic Physical Agents by Alain Yvan Belanger This pocket-sized handbook provides essential information on 14 of the most common therapeutic physical agents used in rehabilitation, physical medicine, and sports therapy around the world. The pocket guide includes key steps in planning, executing, and charting a safe, effective, and evidence-based therapeutic application. In a user-friendly format, this reference offers insight into the... |
 | The Third Histamine Receptor: Selective Ligands as Potential Therapeutic Agents in CNS Disorders Since their discovery, the potential of histamine H3 receptor ligands in various CNS disorders have received much attention. This resourcepresents recent advances with an emphasis on pharmacology. It covers identification and localization of receptors and the development of novel ligands incorporating pre-clinical and clinical studies indicating earliest possible stages of development.The book... |
 | Therapeutic Agents, Volume 5, Burger's Medicinal Chemistry and Drug Discovery, 5th Edition The final volume in the standard-setting reference on therapeutic designed drugs . . . BURGER'S MEDICINAL CHEMISTRY AND DRUG DISCOVERY, FIFTH EDITION, Volume 5: Therapeutic Agents This volume on Therapeutic Agents completes Burger's incisive, systematic examination of the fascinating new world of custom-designed therapeutic agents. Volume 5 highlights the link between chemical... |
 | Apis Mellifica: Or The Poison Of The Honeybee, Considered As A Therapeutic Agent (1858) by C. W. Wolf |
 | Novel Therapeutic Agents for the Treatment of Autoimmune Diseases by Vibeke Strand Provides a detailed survey of therapies for autoimmune diseases, exploring the rationale for their use and clinical data regarding their potential... |
 | New Therapeutic Agents in Thrombosis and Thrombolysis, Second Edition, (Fundamental and Clinical Cardiology, V. 46) Presents new chapters discussing the latest research on low-molecular-weight heparins, as well as agents such as pentasaccharide, TFP1, soluble thrombomodulin, and alfimeprase. Completely revised and expanded throughout, New Therapeutic Agents in Thrombosis and Thrombolysis details strategies to · target conventional and recently characterized pathways of hemostasis · minimize the... |
| THERAPEUTIC AGENTS AND THE LIVER by SHEILA SHERLOCK NEIL MCINTYRE | |
| Bile Acids as Therapeutic Agents: From Basic Science to Clinical Practice (Falk Symposium) | |
 | Cancer Therapeutics: Experimental and Clinical Agents (Cancer Drug Discovery and Development) (Cancer Drug Discovery and Development) This comprehensive review of existing and potential anticancer drugs and therapies by leading researchers from academia, government laboratories, and pharmaceutical companies offers essential insight into what has been accomplished and where the experimental therapy of cancer is going. The authoritative contributors illuminate the current status of the major molecules of cancer treatment, ranging... |
| © 2008 BrightSurf.com |