Aminoglycosides contain a basic unit of an amino-modified glycoside (sugar) and have potent antibacterial properties used to treat a wide range of bacterial infections, including those that occur in the soft tissue, chest, urinary tract, and endocardial tissue.1, 2 With a broad spectrum of activity and convenient dosing schedule, Aminoglycoside helps to effectively fight off Gram-negative bacteria.1, 3 In 1944 an aminoglycoside called streptomycin entered clinical trials to test its effectiveness as an antibiotic.4 After several years other classes of aminoglycosides were discovered such as neomycin, gentamicin, kanamycin, and netilmicin.4 When introduced these antibiotics presented major clinical advancements in the treatment of Tuberculosis and other bacterial infections.3, 4 However their use in modern medicine has diminished due to their toxicity, required parenteral delivery, and the availability of alternative antibiotics.3, 5 The dose-dependent toxicity of aminoglycosides limits their use due to a narrow range of safe aminoglycoside plasma concentrations.3, 5 Exceeding this range in non-target tissues can lead to negative effects on the audio-vestibular apparatus and kidneys.3, 5, 6 In the 1980’s, clinicians began treating infections with antibiotics that were perceived as less toxic and providing broader antibacterial activity.7 This resulted in aminoglycosides being prescribed for more persistent infections that were resistant to other antibiotics.3 With the amount of antibiotic resistant bacteria increasing, many scientists have begun looking into methods for minimizing aminoglycoside toxicity and maximizing its antibacterial activity.3, 8 These methods include encapsulation and polymer conjugation.9, 10 By encapsulating aminoglycosides in liposomes or other vesicles scientists aim to increase its concentration in infected tissues while decreasing nephro- and ototoxicity.9 With conjugated polymers scientists have created polymer complexes containing aminoglycosides and other compounds such as dopamine.11 The goal of these polymers is to limit toxicity by slowing antibiotic release and increasing efficacy of the antibiotic through targeted delivery and toxicity of other compounds.9, 10, 11 Other than its use in treating infections, aminoglycosides are gaining attention as an excellent vehicle for gene delivery.12 In this application aminoglycosides are used to correct a genetic defect by introducing a normal copy of the gene into affected cells.12,13 Currently scientists are assessing aminoglycosides for gene therapy in the treatment of cancer and various other diseases.12, 14 This review will focus on the diverse customizability of aminoglycosides in treating infections and as vehicles for gene therapy.
Details
- Review of Aminoglycosides use in Clinical and Laboratory Settings as an Antibiotic, Gene Delivery Vector, and a Wound Healing Stimulant
- Wampler, Cole (Author)
- Rege, Kaushal (Thesis director)
- Schoepf, Jared (Committee member)
- Barrett, The Honors College (Contributor)
- Dean, W.P. Carey School of Business (Contributor)
- Chemical Engineering Program (Contributor)
- School of Life Sciences (Contributor)