Abstract
Candida species, including Candida albicans and Candida auris, represent a growing public health concern due to their increasing prevalence and resistance to antifungal agents. C. albicans is known for causing both superficial and invasive infections, while C. auris is a newly emerged, multidrug-resistant pathogen responsible for severe hospital outbreaks with a high mortality rate of ~ 60% in bloodstream infections. Vaccine candidates targeting C. albicans hyphal cell wall proteins Als3p and Hyr1p have shown protective efficacy in mice. NDV-3A, an alum-formulated Als3p-based vaccine, protects against recurrent vulvovaginal candidiasis in women. We earlier showed that both Als3p and Hyr1p have orthologs in C. auris, and that the NDV-3A vaccine, alongside an anti-Hyr1p monoclonal antibody, protect mice from lethal C. auris candidemia. Here, we optimized Als3p and Hyr1p dual antigen vaccine formulations with the clinical-stage adjuvant CAF01, demonstrating robust immunity and CD4 T celldependent protection against lethal C. albicans and C. auris. The vaccine formulations also showed enhanced protective efficacy when combined with antifungal drugs. This study highlights the potential of the CAF01-formulated Als3p/Hyr1p dual antigen vaccine in providing durable protective immunity against systemic and mucosal C. albicans and cross-protection against systemic multidrug-resistant C. auris infections.