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Lathosterol Oxidase (Sterol C-5 Desaturase) Deletion Confers Resistance to Amphotericin B and Sensitivity to Acidic Stress in Leishmania major

Ning Yu, Cheryl Frankfater, Fong‐Fu Hsu, Rodrigo P. Soares, Camila A. Cardoso, Paula Monalisa Nogueira, Noelia Lander, Roberto Docampo, Kai Zhang

2020mSphere18 citationsDOIOpen Access PDF

Abstract

Sterols are essential membrane components in eukaryotes, and sterol synthesis inhibitors can have potent effects against pathogenic fungi and trypanosomatids. Understanding the roles of sterols will facilitate the development of new drugs and counter drug resistance. LSO is required for the formation of the C-5–C-6 double bond in the sterol core structure in mammals, fungi, protozoans, plants, and algae. Functions of this C-5–C-6 double bond are not well understood. In this study, we generated and characterized a lathosterol oxidase-null mutant in Leishmania major . Our data suggest that LSO is vital for the structure and membrane-stabilizing functions of leishmanial sterols. In addition, our results imply that while mutations in lathosterol oxidase can confer resistance to amphotericin B, an important antifungal and antiprotozoal agent, the alteration in sterol structure leads to significant defects in stress response that could be exploited for drug development.

Topics & Concepts

SterolBiologyMutantLeishmaniaLeishmania braziliensisErgosterolBiochemistryMicrobiologyLathosterolKinetoplastidaGeneLeishmaniasisGeneticsCutaneous leishmaniasisCholesterolImmunologyParasite hostingCampesterolWorld Wide WebMalariaProtozoal diseaseComputer scienceResearch on Leishmaniasis StudiesTrypanosoma species research and implicationsFamily Business Performance and Succession
Lathosterol Oxidase (Sterol C-5 Desaturase) Deletion Confers Resistance to Amphotericin B and Sensitivity to Acidic Stress in Leishmania major | Litcius