Sylvie Garneau-Tsodikova

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Sylvie Garneau-Tsodikova
Alma mater Université Laval
University of Alberta
Scientific career
Institutions Harvard Medical School
University of Michigan
University of Kentucky
Thesis New antimicrobial agents acting on bacterial cell walls.  (2003)

Sylvie Garneau-Tsodikova is a French Canadian-American chemist who is a Professor and Associate Vice President for Research at the University of Kentucky. One of the areas of her research interest is the development of new molecules to combat bacterial and fungal resistance.

Contents

Early life and education

Garneau-Tsodikova was born in Quebec City, Canada. She attended the Université Laval for her undergraduate studies in chemistry, where she graduated top of the class. [1] As a student, she was honoured with several awards, including distinguishments from the Chemical Institute of Canada and Natural Sciences and Engineering Research Council. [1] She completed a Master's thesis on the synthesis of glutamyl transfer RNA synthetase inhibitors. [2] She moved to the University of Alberta for graduate studies, where she worked on the impact of antimicrobial agents of bacterial cell walls. [3] [4] During her doctoral studies she became interested in infectious diseases and the development of antibacterial agents. [5]

Research and career

Garneau-Tsodikova moved to the Harvard Medical School for her postdoctoral training where she worked with Christopher T. Walsh on the formation and modification of dipyrroles. At Harvard she was trained in both enzymology and biochemistry. In 2006, Garneau-Tsodikova moved to the University of Michigan, where she was an Assistant Professor of Medicinal Chemistry. [6] She spent seven years at Michigan, until she moved to the University of Kentucky. She was promoted to Professor and Assistant Dean in 2018. [7]

Garneau-Tsodikova's research focuses on the development of antifungal and antibacterial agents. [5] In particular, Garneau-Tsodikova focused on drug resistance in tuberculosis and in fungal infections by Candida auris . [5] She was also involved in the development of multifunctional enzymes with tunable biological properties. She served as an Associate Editor of the Royal Society of Chemistry journal MedChemComm, now called RSCMedicinal Chemistry. [8]

Selected publications

Related Research Articles

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An antibiotic is a type of antimicrobial substance active against bacteria. It is the most important type of antibacterial agent for fighting bacterial infections, and antibiotic medications are widely used in the treatment and prevention of such infections. They may either kill or inhibit the growth of bacteria. A limited number of antibiotics also possess antiprotozoal activity. Antibiotics are not effective against viruses such as the ones which cause the common cold or influenza; drugs which inhibit growth of viruses are termed antiviral drugs or antivirals rather than antibiotics. They are also not effective against fungi; drugs which inhibit growth of fungi are called antifungal drugs.

<span class="mw-page-title-main">Antifungal</span> Pharmaceutical fungicide or fungistatic used to treat and prevent mycosis

An antifungal medication, also known as an antimycotic medication, is a pharmaceutical fungicide or fungistatic used to treat and prevent mycosis such as athlete's foot, ringworm, candidiasis (thrush), serious systemic infections such as cryptococcal meningitis, and others. Such drugs are usually obtained by a doctor's prescription, but a few are available over the counter (OTC). The evolution of antifungal resistance is a growing threat to health globally.

<span class="mw-page-title-main">Zinc pyrithione</span> Chemical compound

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<span class="mw-page-title-main">Amphotericin B</span> Antifungal and antiparasitaric chemical compound

Amphotericin B is an antifungal medication used for serious fungal infections and leishmaniasis. The fungal infections it is used to treat include mucormycosis, aspergillosis, blastomycosis, candidiasis, coccidioidomycosis, and cryptococcosis. For certain infections it is given with flucytosine. It is typically given intravenously.

An antimicrobial is an agent that kills microorganisms (microbicide) or stops their growth. Antimicrobial medicines can be grouped according to the microorganisms they act primarily against. For example, antibiotics are used against bacteria, and antifungals are used against fungi. They can also be classified according to their function. The use of antimicrobial medicines to treat infection is known as antimicrobial chemotherapy, while the use of antimicrobial medicines to prevent infection is known as antimicrobial prophylaxis.

<span class="mw-page-title-main">Cephem</span> Class of beta-lactam antibiotic

Cephems are a sub-group of β-lactam antibiotics including cephalosporins and cephamycins. It is one of the most common 4-membered ring heterocycle. Produced by actinomycetes, cephamycins were found to display antibacterial activity against a wide range of bacteria, including those resistant to penicillin and cephalosporins. The antimicrobial properties of Cephem include the attachment to certain penicillin-binding proteins that are involved in the production of cell walls of bacteria.

<span class="mw-page-title-main">Terconazole</span> Chemical compound

Terconazole is an antifungal drug used to treat vaginal yeast infection. It comes as a lotion or a suppository and disrupts the biosynthesis of fats in a yeast cell. It has a relatively broad spectrum compared to azole compounds but not triazole compounds. Testing shows that it is a suitable compound for prophylaxis for those that suffer from chronic vulvovaginal candidiasis.

In microbiology, the minimum inhibitory concentration (MIC) is the lowest concentration of a chemical, usually a drug, which prevents visible in vitro growth of bacteria or fungi. MIC testing is performed in both diagnostic and drug discovery laboratories.

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<span class="mw-page-title-main">Triclocarban</span> Antimicrobial agent

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<span class="mw-page-title-main">Totarol</span> Chemical compound

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Polymers with the ability to kill or inhibit the growth of microorganisms such as bacteria, fungi, or viruses are classified as antimicrobial agents. This class of polymers consists of natural polymers with inherent antimicrobial activity and polymers modified to exhibit antimicrobial activity. Polymers are generally nonvolatile, chemically stable, and can be chemically and physically modified to display desired characteristics and antimicrobial activity. Antimicrobial polymers are a prime candidate for use in the food industry to prevent bacterial contamination and in water sanitation to inhibit the growth of microorganisms in drinking water.

<span class="mw-page-title-main">Metallopharmaceutical</span> Drug that contains a metal as an active ingredient

A metallopharmaceutical is a drug that contains a metal as an active ingredient. Most commonly metallopharmaceuticals are used as anticancer or antimicrobial agents. The efficiency of metallopharmaceuticals is crucially dependent on the respective trace metal binding forms.

An antimicrobial surface is coated by an antimicrobial agent that inhibits the ability of microorganisms to grow on the surface of a material. Such surfaces are becoming more widely investigated for possible use in various settings including clinics, industry, and even the home. The most common and most important use of antimicrobial coatings has been in the healthcare setting for sterilization of medical devices to prevent hospital associated infections, which have accounted for almost 100,000 deaths in the United States. In addition to medical devices, linens and clothing can provide a suitable environment for many bacteria, fungi, and viruses to grow when in contact with the human body which allows for the transmission of infectious disease.

Lynn L. Silver is an American born scientist best known for her contributions to the field of antibacterial discovery and development. With over 30 years of experience in the antibacterial discovery field and over 70 peer reviewed publications, Silver provides insight and advice to the research community on global advisory panels, international collaborations for addressing antibiotic resistance issues. Silver has published several highly cited reviews in the field of antibacterial discovery.

<span class="mw-page-title-main">Iwao Ojima</span>

Iwao Ojima is a Japanese-American chemist and university distinguished professor at the State University of New York at Stony Brook. He has been widely recognized for his seminal contributions to a range of chemical research at the multifaceted interfaces of chemical synthesis and life sciences. As rare accomplishments, he has received four National Awards from the American Chemical Society in four different fields of research. He is also serving as the director of the Institute of Chemical Biology and Drug Discovery (ICB&DD), as well as the president of the Stony Brook Chapter of the National Academy of Inventors.

A proteolipid is a protein covalently linked to lipid molecules, which can be fatty acids, isoprenoids or sterols. The process of such a linkage is known as protein lipidation, and falls into the wider category of acylation and post-translational modification. Proteolipids are abundant in brain tissue, and are also present in many other animal and plant tissues. They include ghrelin, a peptide hormone associated with feeding. Many proteolipids are composed of proteins covalenently bound to fatty acid chains, often granting them an interface for interacting with biological membranes. They are not to be confused with lipoproteins, a kind of spherical assembly made up of many molecules of lipids and some apolipoproteins.

Karen Joy Shaw is an American microbiologist and discoverer of novel antifungal and antibacterial compounds. She is best known for her work on aminoglycoside resistance in bacteria as well as leading drug discovery research teams. As Senior Vice President of Biology at Trius Therapeutics, Inc. her work was critical to the development of the oxazolidinone antibiotic tedizolid phosphate (Sivextro) as well as the discovery of the TriBE inhibitors, a novel class of DNA gyrase/Topoisomerase IV antibacterial agents that target both Gram-positive and Gram-negative organisms.[2] As Chief Scientific Officer at Amplyx Pharmaceuticals, Shaw was responsible for the preclinical development of the novel antifungal fosmanogepix, a first-in-class broad-spectrum antifungal prodrug that is currently in Phase 2 clinical development for the treatment of invasive fungal infections. She also discovered APX2039, a unique Gwt1 inhibitor that is in preclinical development for the treatment of cryptococcal meningitis.

<span class="mw-page-title-main">Halovir</span> Group of chemical compounds

Halovir refers to a multi-analogue compound belonging to a group of oligopeptides designated as lipopeptaibols which have membrane-modifying capacity and are fungal in origin. These peptides display interesting microheterogeneity; slight variation in encoding amino acids gives rise to a mixture of closely related analogues and have been shown to have antibacterial/antiviral properties.

References

  1. 1 2 "Sylvie Garneau-Tsodikova". UK College of Pharmacy. Retrieved 2021-04-17.
  2. Garneau, Sylvie (1998). Synthèse d'inhibiteurs de la glutamyl t-ARN synthétase et approche à la synthèse du striatène (Thesis) (in French). Ottawa: National Library of Canada = Bibliothèque nationale du Canada. OCLC   46552296.
  3. Garneau, Sylvie (2004). New antimicrobial agents acting on bacterial cell walls (Thesis). Ottawa: National Library of Canada = Bibliothèque nationale du Canada. OCLC   56752162.
  4. Howard, Kaitlind C.; Dennis, Emily K.; Watt, David S.; Garneau-Tsodikova, Sylvie (2020-04-27). "A comprehensive overview of the medicinal chemistry of antifungal drugs: perspectives and promise". Chemical Society Reviews. 49 (8): 2426–2480. doi:10.1039/C9CS00556K. ISSN   1460-4744. PMID   32140691. S2CID   212567513.
  5. 1 2 3 "Sylvie Garneau-Tsodikova On Women In STEM". BioTechniques. 2020-03-24. Retrieved 2021-04-17.
  6. "Sylvie Garneau-Tsodikova | Faculty History Project". faculty-history.dc.umich.edu. Retrieved 2021-04-17.
  7. "Sylvie Garneau-Tsodikova, PhD", University of Kentucky, College of Pharmacy. Retrieved May 16, 2020.
  8. "RSC Medicinal Chemistry Desktop Seminar Series". www.rsc.org. Retrieved 2021-04-17.
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