 |
|
Purdue researcher invents molecule that stops SARS
November 12, 2008WEST LAFAYETTE, Ind. - A Purdue University researcher has created a compound that prevents replication of the virus that causes SARS and could lead to a treatment for the disease.
"The outbreak of SARS in 2003 led to hundreds of deaths and thousands of illnesses, and there is currently no treatment," said Arun Ghosh, the Purdue professor that led the molecular design team. "Although it is not currently a threat, there is the concern that SARS could return or be used as a biological weapon. It is important to develop a treatment as a safeguard."
According to the Centers for Disease Control and Prevention, the virus can be transmitted through coughing or sneezing, and the infection can quickly spread from person to person. SARS, or Severe Acute Respiratory Syndrome, spread through two dozen countries over a period of a few months before it was contained. A total of 8,098 people worldwide became ill and 774 died.
In addition to its ability to block the SARS virus, the molecular compound that inhibits the virus provides new insights into a group of proteins found in a range of diseases including childhood croup, herpes and cancer, Ghosh said.
"The molecular inhibitor we developed is very potent against the SARS virus by binding to and blocking the use of a specific protein, called papain-like protease, or PLpro, involved in viral replication and evasion of the immune system," said Ghosh who has a joint appointment in chemistry and medicinal chemistry and molecular pharmacology. "This is the first design and discovery of an inhibitor for this class of proteins. We are hopeful that this will open the door to new treatments for other diseases as well."
Ghosh's group teamed with a research group led by Andrew Mesecar at the University of Illinois at Chicago. The National Institutes of Health infectious disease biodefense program selected the team and funded the research that has been published in the online version of the journal Proceedings of the National Academy of Sciences.
Mesecar's team screened more than 50,000 chemical compounds for the necessary properties to both block the virus and have the potential to become viable drug treatments.
"Only two of the compounds we tested were identified as having the properties researchers believed could become drugs," said Mesecar, a professor of medicinal chemistry and pharmacognosy. "Using those two compounds, Arun Ghosh and his team increased the potency by almost two orders of magnitude."
Ghosh, who invented the HIV drug darunavir that entered the market in 2007, specializes in improving the treatment properties of molecular inhibitors through structure-based design.
"The design of this inhibitor was a challenge because we did not know the structure of the compound, which shows us how an inhibitor works and what parts need to be amplified or changed," Ghosh said.
Kiira Ratia, a graduate student at the University of Illinois, provided a breakthrough when she captured the X-ray structure of the inhibitor molecule bound to the protein. The structure confirmed that the inhibitor would be a good candidate for drug development because it showed that the inhibitor did not bond too strongly to the protein, Ghosh said.
"This was the first time the structure was revealed and we could see that the inhibitor filled the active site of the protein without using strong covalent bonds," he said. "This is very important for development of a therapeutic treatment because it means there is less of a chance for adverse side effects or toxicity, and the treatment can be easily reversed."
Often a protein involved in the disease process also plays a role in regular human biological processes. A safe and effective treatment needs to block enough of the protein to cripple the disease while not completely eliminating the protein from a person's system. It also must work through interactions that are easily reversed by ending treatment, he said.
The inhibitor has only been tested in the laboratory. It must be developed into a drug treatment and evaluated by the U.S. Food and Drug Administration before it could be used by patients, Ghosh said.
In addition to Ghosh and Mesecar, co-authors of the paper detailing this work include, Ratia, Scott Pegan, Wentao Fu, Michael E. Johnson, Melissa Coughlin and Bellur S. Prabhakar from the University of Illinois; Jun Takayama from Purdue University; and Katrina Sleeman and Srendranath Baliji from Loyola University Chicago Stritch School of Medicine.
The team is evaluating the potential to design similar inhibitors for cancer and continues to work with the SARS inhibitor to create even more effective compounds.
Purdue University
In addition to its ability to block the SARS virus, the molecular compound that inhibits the virus provides new insights into a group of proteins found in a range of diseases including childhood croup, herpes and cancer, Ghosh said.
"The molecular inhibitor we developed is very potent against the SARS virus by binding to and blocking the use of a specific protein, called papain-like protease, or PLpro, involved in viral replication and evasion of the immune system," said Ghosh who has a joint appointment in chemistry and medicinal chemistry and molecular pharmacology. "This is the first design and discovery of an inhibitor for this class of proteins. We are hopeful that this will open the door to new treatments for other diseases as well."
Ghosh's group teamed with a research group led by Andrew Mesecar at the University of Illinois at Chicago. The National Institutes of Health infectious disease biodefense program selected the team and funded the research that has been published in the online version of the journal Proceedings of the National Academy of Sciences.
Mesecar's team screened more than 50,000 chemical compounds for the necessary properties to both block the virus and have the potential to become viable drug treatments.
"Only two of the compounds we tested were identified as having the properties researchers believed could become drugs," said Mesecar, a professor of medicinal chemistry and pharmacognosy. "Using those two compounds, Arun Ghosh and his team increased the potency by almost two orders of magnitude."
Ghosh, who invented the HIV drug darunavir that entered the market in 2007, specializes in improving the treatment properties of molecular inhibitors through structure-based design.
"The design of this inhibitor was a challenge because we did not know the structure of the compound, which shows us how an inhibitor works and what parts need to be amplified or changed," Ghosh said.
Kiira Ratia, a graduate student at the University of Illinois, provided a breakthrough when she captured the X-ray structure of the inhibitor molecule bound to the protein. The structure confirmed that the inhibitor would be a good candidate for drug development because it showed that the inhibitor did not bond too strongly to the protein, Ghosh said.
"This was the first time the structure was revealed and we could see that the inhibitor filled the active site of the protein without using strong covalent bonds," he said. "This is very important for development of a therapeutic treatment because it means there is less of a chance for adverse side effects or toxicity, and the treatment can be easily reversed."
Often a protein involved in the disease process also plays a role in regular human biological processes. A safe and effective treatment needs to block enough of the protein to cripple the disease while not completely eliminating the protein from a person's system. It also must work through interactions that are easily reversed by ending treatment, he said.
The inhibitor has only been tested in the laboratory. It must be developed into a drug treatment and evaluated by the U.S. Food and Drug Administration before it could be used by patients, Ghosh said.
In addition to Ghosh and Mesecar, co-authors of the paper detailing this work include, Ratia, Scott Pegan, Wentao Fu, Michael E. Johnson, Melissa Coughlin and Bellur S. Prabhakar from the University of Illinois; Jun Takayama from Purdue University; and Katrina Sleeman and Srendranath Baliji from Loyola University Chicago Stritch School of Medicine.
The team is evaluating the potential to design similar inhibitors for cancer and continues to work with the SARS inhibitor to create even more effective compounds.
Purdue University
SARS Current Events and SARS News RSS2-pronged protein attack could be source of SARS virulence
Ever since the previously unknown SARS virus emerged from southern China in 2003, University of Texas Medical Branch at Galveston virologists have focused on finding the source of the pathogen's virulence - its ability to cause disease.
Will genomics help prevent the next pandemic?
This week, the Public Library of Science, an open-access publisher, presents the "Genomics of Emerging Infectious Disease," a collection of essays, perspectives, and reviews that explores how genomics-with all its associated tools and techniques-can provide insights into our understanding of emerging infectious disease.
Paradigm shift needed to combat drug resistance
When people travel, bacteria and other infectious agents travel with them. As about a billion people cross international borders each year, many more billions of the bugs come along for the ride.
What are coral reef services worth? $130,000 to $1.2 million per hectare, per year: experts
Experts concluding the global DIVERSITAS biodiversity conference today in Cape Town described preliminary research revealing jaw-dropping dollar values of the "ecosystem services" of biomes like forests and coral reefs - including food, pollution treatment and climate regulation.
Should noninvasive ventilation be considered a high-risk procedure during an epidemic?
Contrary to current policies recommending that non-invasive ventilation be avoided during an infectious outbreak, the author of a commentary in CMAJ (Canadian Medical Association Journal) argues that it should be used expeditiously in this setting.
World will miss 2010 target to stem biodiversity loss, experts say
The world will miss its agreed target to stem biodiversity loss by next year, according to experts convening in Cape Town for a landmark conference devoted to biodiversity science.
Surgical masks and N95 respirators provide similar protection against influenza
A McMaster University study has found that surgical masks appear to be as good as N95 respirators in protecting health-care workers against influenza.
Medical ethics experts identify, address key issues in H1N1 pandemic
The anticipated onset of a second wave of the H1N1 influenza pandemic could present a host of thorny medical ethics issues best considered well in advance, according to the University of Toronto Joint Centre for Bioethics, which today released nine papers for public discussion.
Swine Flu Could Wreak More Havoc on U.S. Economy, Says UAB Economist
H1N1 influenza could slow growth in key industries and stall already-weak GDP growth in the third and fourth quarters of 2009, says a health economist in the University of Alabama at Birmingham (UAB) School of Business.
Public attitudes to new technology: Lessons for regulators
New technologies may change our lives for the better, but sometimes they have risks. Communicating those benefits and risks to the public, and developing regulations to deal with them, can be difficult - particularly if there's already public opposition to the technology.
More SARS Current Events and SARS News Articles
 |
Twenty-First Century Plague: The Story of SARS by Thomas Abraham (Author) In the autumn of 2002 in southern China, a previously unknown virus jumped the species barrier from animal to man and sparked the first global epidemic of the new century. The disease sped along the air routes of a globalized world, spreading within months to thirty-one countries on every continent. Before it was reined in by a remarkable international scientific effort, the SARS virus demonstrated human society's vulnerability to disease. New infectious diseases like SARS have been emerging at an alarming rate over the past few decades. There is every indication the world will continue to face new viral diseases, some of them much more lethal and contagious than SARS. This book traces the emergence of SARS, in the process examining the global politics and economics of... |
 |
SARS: How a Global Epidemic Was Stopped (A WPRO Publication) by World Health Organization (Author) Where did this frightening disease come from? How did it spread? And will the world be any better prepared if it returns? For the first time, these and other questions are answered in this remarkable inside account of what really took place in those fateful months of 2003 when severe acute respiratory syndrome threatened to engulf the world. |
 |
Sars Wars: Bangkok Zombie Crisis Starring: Suthep Po-ngam, Supakorn Kitsuwon, Phintusuda Tunphairao, Lena Christensen, Andrew Biggs Directed By: Taweewat Wantha Also With: Taweewat Wantha (Writer), Adirek Wattaleela (Producer), Adirek Wattaleela (Writer), Akaradech Maneeploypech (Producer), Kuanchun Phemyad (Writer), Sommai Lertulan (Writer), Uncle (Writer) The next SARS outbreak will be drastically worse due to a mutation in the virus that turns infected people into flesh craving zombies! With the world in the deadly grip of a global epidemic Thailand is proud to proclaim that they are the only virus free nation in Asia. However the virus manages to infiltrate Thailand's quarantine and spread quickly through an apartment building. As the number of infected continues to rise its up to a sword wielding hero to venture into the building and battle the undead.This movie has it all! Hot schoolgirls wielding axes? Check! Zombie babies? Check! Giant zombie snake? Check! Zombie ravers? You betcha! A zombie comedy in the in the tradition of Shaun of the Dead starring Supakorn Kitsuwan (Tears of the Black Tiger) and Suthep Po-ngam (Killer Tattoo).... |
 |
Sam Cooke's Sar Records Story - 2 Pack Jewel Case by Sam Cooke For a few years during the early 1960s, Sam Cooke, the man with the golden croon, ran his own small record label, SAR Records. In addition to aiding the career of the post-Cooke Soul Stirrers, SAR unleashed an impressive array of talent--Bobby Womack and the Valentinos, Lou Rawls and the Pilgrim Travelers, and a young organist named Billy Preston. The singles they cut for his label are here, alongside unreleased demos from Cooke such as a spare, transporting take of "That's Heaven to Me." Story presents much evidence of the Soul Stirrers' continued greatness with Jimmie Outler as lead singer. And the tracks by R.H. Harris & His Gospel Paraders are stone groove gospel-soul cuts. Disc 2 presents the secular material, with solid jazz-funk cuts alongside swell pop-soul numbers. To top it all... |
|
Sar by Medlemsbladet Sar | |
 |
For Premium Samsung Freeform Link Screen Protector by KarenDeals Prevent scratches on your screen. Keep the screen in pristine shape and prevent accidental scratches from marring your phone's LCD screen. This screen protector features a pre-cut screen protector to fit the dimensions of your phone. |
 |
Manhattan Toy Whoozit Stellar Sar Activity Center by Manhattan Baby Being little is all about discovering the world around you. The innovative designs and research-proven developmental features of our toys will engage, stimulate and nurture your child's imagination. |
 |
Ammex N95 Rated Face Masks - Protects From Flu, Sars and Other Fatal Deseases - 20 per Box - Niosh N95 by Ammex The Center for Disease Control has suggested the use of face masks as one of the first lines of defense against the virus that causes Flu. Latex free cone-style face masks N95 rated (95% particulate filter efficiency). The CDC recommends N95 rated masks for infection protection Metal nosepiece conforms to bridge of nose for secure placement, with foam pad for comfort Dual headbands for a snug fit 20 masks per box |
 |
Cadaver Search Dog Decal Sticker SAR by JB Company |
 |
Che grande festa sarà Piccolo Coro (Primary Contributor) |
| © 2009 BrightSurf.com |