An Amphotericin B Derivative Equally Potent to Amphotericin B and with Increased Safety

Autor: Fabiola Eloisa Jiménez-Montejo, Mario Fernández-Zertuche, Ricardo Magaña, A. Antillón, Manuel López-Ortiz, Rosmarbel Morales-Nava, José Marcos Falcón-González, Jorge Reyes-Esparza, Ignacio Regla, Tania Minerva Santiago-Angelino, David Flores Romero, Javier González–Damián, Alex H. de Vries, Josué Rodríguez Lozada, Lourdes Rodríguez-Fragoso, Iván Ortega-Blake, Mauricio Carrillo-Tripp, María Cristina Vargas González, Marcel Espinosa-Caballero, Xavier Periole, Siewert J. Marrink, Angel León-Buitimea
Přispěvatelé: Molecular Dynamics
Rok vydání: 2016
Předmět:
0301 basic medicine
lcsh:Medicine
Yeast and Fungal Models
Pharmacology
Toxicology
Pathology and Laboratory Medicine
Physical Chemistry
Chemical synthesis
chemistry.chemical_compound
Derivative (finance)
Amphotericin B
Medicine and Health Sciences
Amphotericin
lcsh:Science
Candida albicans
Candida
Fungal Pathogens
Multidisciplinary
biology
Antimicrobials
Organic Compounds
Chemistry
Physics
Candidiasis
Drugs
Polyene
Infectious Diseases
Medical Microbiology
Physical Sciences
Toxicity
Molecular mechanism
Anatomy
Pathogens
Dimerization
Research Article
medicine.drug
Urology
Chemical physics
Sexually Transmitted Diseases
Mycology
Research and Analysis Methods
Microbiology
03 medical and health sciences
Model Organisms
mode of action
Microbial Control
medicine
antimycotic
Candida Albicans
Mode of action
Microbial Pathogens
Antifungals
pore formation
Genitourinary Infections
Organic Chemistry
lcsh:R
Organisms
Fungi
Chemical Compounds
Biology and Life Sciences
Kidneys
Dimers (Chemical physics)
Renal System
biology.organism_classification
Amides
Yeast
030104 developmental biology
Chemical Properties
lcsh:Q
cell membrane
Zdroj: PLoS ONE, Vol 11, Iss 9, p e0162171 (2016)
PLoS ONE
PLoS ONE, 11(9):e0162171. PUBLIC LIBRARY SCIENCE
ISSN: 1932-6203
Popis: Amphotericin B is the most potent antimycotic known to date. However due to its large col- lateral toxicity, its use, although long standing, had been limited. Many attempts have been made to produce derivatives with reduced collateral damage. The molecular mechanism of polyene has also been closely studied for this purpose and understanding it would contrib- ute to the development of safe derivatives. Our study examined polyene action, including chemical synthesis, electrophysiology, pharmacology, toxicology and molecular dynamics. The results were used to support a novel Amphotericin B derivative with increased selectiv- ity: L-histidine methyl ester of Amphotericin B. We found that this derivative has the same form of action as Amphotericin B, i.e. pore formation in the cell membrane. Its reduced dimerization in solution, when compared to Amphotericin B, is at least partially responsible for its increased selectivity. Here we also present the results of preclinical tests, which show that the derivative is just as potent as Amphotericin B and has increased safety.
Databáze: OpenAIRE
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