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Full-Text Articles in Medicine and Health Sciences
Candida Auris-Macrophage Cellular Interactions And Transcriptional Response, Pedro Miramón, Andrew W Pountain, Michael C Lorenz
Candida Auris-Macrophage Cellular Interactions And Transcriptional Response, Pedro Miramón, Andrew W Pountain, Michael C Lorenz
Journal Articles
The pathogenic yeast Candida auris represents a global threat of the utmost clinical relevance. This emerging fungal species is remarkable in its resistance to commonly used antifungal agents and its persistence in the nosocomial settings. The innate immune system is one the first lines of defense preventing the dissemination of pathogens in the host. C. auris is susceptible to circulating phagocytes, and understanding the molecular details of these interactions may suggest routes to improved therapies. In this work, we examined the interactions of this yeast with macrophages. We found that macrophages avidly phagocytose C. auris; however, intracellular replication is …
Catalase Produced By Candida Albicans Protects Streptococcus Mutans From H2o2 Stress-One More Piece In The Cross-Kingdom Synergism Puzzle, Callahan Katrak, Bruna A Garcia, Louise M Dornelas-Figueira, Mary Nguyen, Robert B Williams, Michael C Lorenz, Jacqueline Abranches
Catalase Produced By Candida Albicans Protects Streptococcus Mutans From H2o2 Stress-One More Piece In The Cross-Kingdom Synergism Puzzle, Callahan Katrak, Bruna A Garcia, Louise M Dornelas-Figueira, Mary Nguyen, Robert B Williams, Michael C Lorenz, Jacqueline Abranches
Journal Articles
Co-infection with Streptococcus mutans and Candida albicans is associated with dental caries, and their co-cultivation results in enhanced biofilm matrix production that contributes to increased virulence and caries risk. Moreover, the catalase-negative S. mutans demonstrates increased oxidative stress tolerance when co-cultivated in biofilms with C. albicans, a catalase-producing yeast. Here, we sought to obtain mechanistic insights into the increased H2O2 tolerance of S. mutans when co-cultivated with clinical isolates of Candida glabrata, Candida tropicalis, and C. albicans. Additionally, the C. albicans SC5314 laboratory strain, its catalase mutant (SC5314Δcat1), and S. mutans UA159 and its glucosyltransferase B/C …
Host-Derived Reactive Oxygen Species Trigger Activation Of The Candida Albicans Transcription Regulator Rtg1/3, Mazen Oneissi, Melissa R Cruz, Bernardo Ramírez-Zavala, Elena Lindemann-Perez, Joachim Morschhäuser, Danielle A Garsin, J Christian Perez
Host-Derived Reactive Oxygen Species Trigger Activation Of The Candida Albicans Transcription Regulator Rtg1/3, Mazen Oneissi, Melissa R Cruz, Bernardo Ramírez-Zavala, Elena Lindemann-Perez, Joachim Morschhäuser, Danielle A Garsin, J Christian Perez
Journal Articles
The signals that denote mammalian host environments and dictate the activation of signaling pathways in human-associated microorganisms are often unknown. The transcription regulator Rtg1/3 in the human fungal pathogen Candida albicans is a crucial determinant of host colonization and pathogenicity. Rtg1/3's activity is controlled, in part, by shuttling the regulator between the cytoplasm and nucleus of the fungus. The host signal(s) that Rtg1/3 respond(s) to, however, have remained unclear. Here we report that neutrophil-derived reactive oxygen species (ROS) direct the subcellular localization of this C. albicans transcription regulator. Upon engulfment of Candida cells by human or mouse neutrophils, the regulator …
Host-Derived Reactive Oxygen Species Trigger Activation Of The Candida Albicans Transcription Regulator Rtg1/3, Mazen Oneissi, Melissa R Cruz, Bernardo Ramírez-Zavala, Elena Lindemann-Perez, Joachim Morschhäuser, Danielle A Garsin, J Christian Perez
Host-Derived Reactive Oxygen Species Trigger Activation Of The Candida Albicans Transcription Regulator Rtg1/3, Mazen Oneissi, Melissa R Cruz, Bernardo Ramírez-Zavala, Elena Lindemann-Perez, Joachim Morschhäuser, Danielle A Garsin, J Christian Perez
Journal Articles
The signals that denote mammalian host environments and dictate the activation of signaling pathways in human-associated microorganisms are often unknown. The transcription regulator Rtg1/3 in the human fungal pathogen Candida albicans is a crucial determinant of host colonization and pathogenicity. Rtg1/3's activity is controlled, in part, by shuttling the regulator between the cytoplasm and nucleus of the fungus. The host signal(s) that Rtg1/3 respond(s) to, however, have remained unclear. Here we report that neutrophil-derived reactive oxygen species (ROS) direct the subcellular localization of this C. albicans transcription regulator. Upon engulfment of Candida cells by human or mouse neutrophils, the regulator …
Candida Albicans Hyphal Morphogenesis Within Macrophages Does Not Require Carbon Dioxide Or Ph-Sensing Pathways, Hannah B Wilson, Michael C Lorenz
Candida Albicans Hyphal Morphogenesis Within Macrophages Does Not Require Carbon Dioxide Or Ph-Sensing Pathways, Hannah B Wilson, Michael C Lorenz
Journal Articles
The opportunistic fungal pathogen Candida albicans has evolved a variety of mechanisms for surviving inside and escaping macrophages, including the initiation of filamentous growth. Although several distinct models have been proposed to explain this process at the molecular level, the signals driving hyphal morphogenesis in this context have yet to be clarified. Here, we evaluate the following three molecular signals as potential hyphal inducers within macrophage phagosomes: CO2, intracellular pH, and extracellular pH. Additionally, we revisit previous work suggesting that the intracellular pH of C. albicans fluctuates in tandem with morphological changes in vitro. Using time-lapse microscopy, we observed …
One Population, Multiple Lifestyles: Commensalism And Pathogenesis In The Human Mycobiome, Diana M Proctor, Rebecca A Drummond, Michail S Lionakis, Julia A Segre
One Population, Multiple Lifestyles: Commensalism And Pathogenesis In The Human Mycobiome, Diana M Proctor, Rebecca A Drummond, Michail S Lionakis, Julia A Segre
Journal Articles
Candida auris and Candida albicans can result in invasive fungal diseases. And yet, these species can stably and asymptomatically colonize human skin and gastrointestinal tracts. To consider these disparate microbial lifestyles, we first review factors shown to influence the underlying microbiome. Structured by the damage response framework, we then consider the molecular mechanisms deployed by C. albicans to switch between commensal and pathogenic lifestyles. Next, we explore this framework with C. auris to highlight how host physiology, immunity, and/or antibiotic receipt are associated with progression from colonization to infection. While treatment with antibiotics increases the risk an individual will succumb …