1. The monoclonal antibody Ca37, developed against Candida albicans alcohol dehydrogenase, inhibits the yeast in vitro and in vivo
- Author
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Mahmoud A. Ghannoum, Leire Martin-Souto, Idoia Buldain, Fernando L. Hernando, Leire Aparicio-Fernandez, Aitziber Antoran, Aize Pellon, Beth Burgwyn Fuchs, Eleftherios Mylonakis, Andoni Ramirez-Garcia, and Aitor Rementeria
- Subjects
0301 basic medicine ,Antifungal Agents ,medicine.drug_class ,030106 microbiology ,Hyphae ,lcsh:Medicine ,Microbial Sensitivity Tests ,Moths ,Monoclonal antibody ,Article ,Microbiology ,Fungal Proteins ,03 medical and health sciences ,In vivo ,Amphotericin B ,Candida albicans ,medicine ,Animals ,lcsh:Science ,Fluconazole ,Alcohol dehydrogenase ,Multidisciplinary ,biology ,Virulence ,lcsh:R ,fungi ,microbiology ,Alcohol Dehydrogenase ,Candidiasis ,biological techniques ,Antibodies, Monoclonal ,biology.organism_classification ,Corpus albicans ,030104 developmental biology ,Larva ,biology.protein ,lcsh:Q ,Antibody ,medicine.drug - Abstract
Candida albicans is a commensal yeast able to cause life threatening invasive infections particularly in immunocompromised patients. Despite the availability of antifungal treatments, mortality rates are still unacceptably high and drug resistance is increasing. We, therefore, generated the Ca37 monoclonal antibody against the C. albicans alcohol dehydrogenase (Adh) 1. Our data showed that Ca37 was able to detect C. albicans cells, and it bound to Adh1 in yeast and Adh2 in hyphae among the cell wall-associated proteins. Moreover, Ca37 was able to inhibit candidal growth following 18h incubation time and reduced the minimal inhibitory concentration of amphotericin B or fluconazole when used in combination with those antifungals. In addition, the antibody prolonged the survival of C. albicans infected-Galleria mellonella larvae, when C. albicans was exposed to antibody prior to inoculating G. mellonella or by direct application as a therapeutic agent on infected larvae. In conclusion, the Ca37 monoclonal antibody proved to be effective against C. albicans, both in vitro and in vivo, and to act together with antifungal drugs, suggesting Adh proteins could be interesting therapeutic targets against this pathogen. Technical and human support provided by the Proteomics Core Facility-SGIker at the UPV/EHU is gratefully acknowledged. We thank the member of the Chartered of Linguists, No 022913 for improving the English in the manuscript. This work was supported by Basque Government (Grant IT1362-19). AA, IB and LMS have received a predoctoral Grant from Basque Government and LAF from UPV/EHU
- Published
- 2020