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Newly discovered reactions from an old drug may lead to new antibiotics
June 02, 2009A mineral found at health food stores could be the key to developing a new line of antibiotics for bacteria that commonly cause diarrhea, tooth decay and, in some severe cases, death.
The trace mineral selenium is found in a number of proteins in both bacterial cells and human cells called selenoproteins. University of Central Florida Associate Professor William Self's research shows that interrupting the way selenoproteins are made can halt the growth of the super bug Clostridium difficile and Treponema denticola, a major contributor to gum disease.
Infections of Clostridium difficile (commonly known as C-diff) lead to a spectrum of illnesses ranging from severe diarrhea to colitis, which can cause death. It's a life-threatening problem in hospitals and nursing homes worldwide, and the number of cases is on the rise. There are an estimated 500,000 cases per year in the United States alone. Between 15,000 to 20,000 people die each year while infected with this superbug. Treponema denticola is one of leading causes of gum disease and costs individuals thousands of dollars in dental care each year.
Self's findings are published in the May and June editions of the Journal of Biological Inorganic Chemistry and the Journal of Bacteriology. The National Institutes of Health and the Florida Department of Health funded the research, which was conducted at UCF during the past three years.
"It's the proof of principle that we are excited about," Self said from his research lab at UCF. "No one has ever tried this approach, and it could potentially be a source for new narrow spectrum antibiotics that block bacteria that require selenium to grow."
The key discovery occurred when the team found that the gold drug Auranofin, used to treat arthritis, impacted selenium's metabolism process. The chemical reaction changes the selenium, which prevents bacteria from using it to grow. Auranofin is an FDA-approved gold salt compound that is used to control inflammation and is already known to inhibit the activity of certain selenoproteins. Since certain bacteria, such as C. difficile, require selenoproteins for energy metabolism, the drug acts as a potent antimicrobial halting the growth of the bacteria.
The initial studies with C. difficile led to studies with T. denticola, known for several years to require selenium for growth. While testing the gold salt, Self's group also uncovered another surprise; the stannous salts found in many antimicrobial toothpastes in the form of stannous fluoride also inhibited the synthesis of selenoproteins. Previous independent research had already established that stannous salts are more effective at preventing tooth decay and inhibiting growth of T. denticola, but the mechanism of this inhibition of growth was not yet known. These findings could lead to new approaches to preventing gum disease.
"No one has tried to block the metabolism of selenium before as a therapeutic approach," Self said. "That's what's new and exciting and could lead to a whole host of other possibilities, including a better understanding of how the gold salt works for arthritis."
Self said more research is needed, and he already has another grant proposal before the NIH that would move his research forward.
University of Central Florida
Self's findings are published in the May and June editions of the Journal of Biological Inorganic Chemistry and the Journal of Bacteriology. The National Institutes of Health and the Florida Department of Health funded the research, which was conducted at UCF during the past three years.
"It's the proof of principle that we are excited about," Self said from his research lab at UCF. "No one has ever tried this approach, and it could potentially be a source for new narrow spectrum antibiotics that block bacteria that require selenium to grow."
The key discovery occurred when the team found that the gold drug Auranofin, used to treat arthritis, impacted selenium's metabolism process. The chemical reaction changes the selenium, which prevents bacteria from using it to grow. Auranofin is an FDA-approved gold salt compound that is used to control inflammation and is already known to inhibit the activity of certain selenoproteins. Since certain bacteria, such as C. difficile, require selenoproteins for energy metabolism, the drug acts as a potent antimicrobial halting the growth of the bacteria.
The initial studies with C. difficile led to studies with T. denticola, known for several years to require selenium for growth. While testing the gold salt, Self's group also uncovered another surprise; the stannous salts found in many antimicrobial toothpastes in the form of stannous fluoride also inhibited the synthesis of selenoproteins. Previous independent research had already established that stannous salts are more effective at preventing tooth decay and inhibiting growth of T. denticola, but the mechanism of this inhibition of growth was not yet known. These findings could lead to new approaches to preventing gum disease.
"No one has tried to block the metabolism of selenium before as a therapeutic approach," Self said. "That's what's new and exciting and could lead to a whole host of other possibilities, including a better understanding of how the gold salt works for arthritis."
Self said more research is needed, and he already has another grant proposal before the NIH that would move his research forward.
University of Central Florida
Selenium may slow march of AIDS
Increasing the production of naturally occurring proteins that contain selenium in human blood cells slows down multiplication of the AIDS virus, according to biochemists.
Scientists compare 12 fruit fly genomes
An international research consortium of scientists, supported by the National Human Genome Research Institute (NHGRI), part of the National Institutes of Health (NIH), today announced publications comparing the genome sequences of 12 closely related fruit fly species, 10 of which were sequenced for the first time.
Selenium-protein deficiency raises prostate cancer risk
Selenium, an essential dietary mineral that can act as an antioxidant when incorporated into proteins, has been shown in many studies to reduce the incidence of cancers - notably lung, colorectal and prostate.
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Impact of trivalent arsenicals on selenoprotein synthesis.(Research)(Clinical report): An article from: Environmental Health Perspectives by Denis Ganyc (Author), Sarah Talbot (Author), Fanta Konate (Author), Sarah Jackson (Author), Brian Schanen (Author), William Cullen (Author), William T. Self (Author) This digital document is an article from Environmental Health Perspectives, published by Thomson Gale on March 1, 2007. The length of the article is 8246 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Impact of trivalent arsenicals on selenoprotein synthesis.(Research)(Clinical report) Author: Denis Ganyc Publication: Environmental Health Perspectives (Magazine/Journal) Date: March 1, 2007 Publisher: Thomson Gale Volume: 115 Issue: 3 Page: 346(8) Article Type: Clinical report Distributed by Thomson... | |
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Protein Sensors of Reactive Oxygen Species, Part A: Selenoproteins and Thioredoxin, Volume 347 (Methods in Enzymology) by Lester Packer (Editor), Helmut Sies (Editor) This volume of Methods in Enzymology is concerned with the rapidly developing field of selenoprotein synthesis and its related molecular genetics. Progressive information on the topics of proteins as redox sensors, selenoproteins, and the thioredoxin system is studied using methods such as bioinformatics, DNA chip technology, cell biology, molecular genetics, and enzymology. The information on novel selenoproteins identified from genomic sequence data, as well as current knowledge on glutathione peroxidases, selenoprotein P, iodothyronine deiodinases, and thioredoxin reductases, is presented in a method-based approach. |
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The roles of serum selenium and selenoproteins on mercury toxicity in environmental and occupational exposure.(Research / Mini-Monograph): An article from: Environmental Health Perspectives by Chunying Chen (Author), Hongwei Yu (Author), Jiujiang Zhao (Author), Bai Li (Author), Liya Qu (Author), Shuiping Liu (Author), Peiqun Zhang (Author), Zhifang Chai (Author) This digital document is an article from Environmental Health Perspectives, published by Thomson Gale on February 1, 2006. The length of the article is 5817 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: The roles of serum selenium and selenoproteins on mercury toxicity in environmental and occupational exposure.(Research / Mini-Monograph) Author: Chunying Chen Publication: Environmental Health Perspectives (Magazine/Journal) Date: February 1, 2006 Publisher: Thomson Gale Volume: 114 Issue: 2 Page: 297(5) Distributed by Thomson... | |
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Selenoproteins by Josef Kohrle (Editor) | |
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Reviews of Physiology, Biochemistry and Pharmacology / Volume 145 by A. Kyriakopoulos (Contributor), D. Behne (Contributor), P.R. Stanfield (Contributor), S. Nakajima (Contributor), Y. Nakajima (Contributor), U.C. Vothknecht (Contributor), J. Soll (Contributor) In this volume of Reviews of Physiology there are three outstanding contributions, the first on Selenium-containing proteins in mammals and other forms of life, and the second on constitutively active and G-protein coupled inward rectifier K+ channels: Kir2.0 and Kir3.0 and the third on Chloroplast quest: a journey from the cytosol into the chloroplast and beyond. |
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