Isabel Auge scite author profile

The human gut acts as the main reservoir of microbes and a relevant source of life-threatening infections, especially in immunocompromised patients. There, the opportunistic fungal pathogen Candida albicans adapts to the host environment and additionally interacts with residing bacteria. We investigated fungal-bacterial interactions by coinfecting enterocytes with the yeast Candida albicans and the Gram-negative bacterium Proteus mirabilis resulting in enhanced host cell damage. This synergistic effect was conserved across different P. mirabilis isolates and occurred also with non-albicans Candida species and C. albicans mutants defective in filamentation or candidalysin production. Using bacterial deletion mutants, we identified the P. mirabilis hemolysin HpmA to be the key effector for host cell destruction. Spatially separated coinfections demonstrated that synergism between Candida and Proteus is induced by contact, but also by soluble factors. Specifically, we identified Candida-mediated glucose consumption and farnesol production as potential triggers for Proteus virulence. In summary, our study demonstrates that coinfection of enterocytes with C. albicans and P. mirabilis can result in increased host cell damage which is mediated by bacterial virulence factors as a result of fungal niche modification via nutrient consumption and production of soluble factors. This supports the notion that certain fungal-bacterial combinations have the potential to result in enhanced virulence in niches such as the gut and might therefore promote translocation and dissemination.

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Renal failure in focus

Auge

2021

Acta Physiologica

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A proof-of-concept assay for quantitative and optical assessment of drug-induced toxicity in renal organoids

Dilz

Auge

Groeneveld

et al. 2023

Sci Rep

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Kidneys are complex organs, and reproducing their function and physiology in a laboratory setting remains difficult. During drug development, potential compounds may exhibit unexpected nephrotoxic effects, which imposes a significant financial burden on pharmaceutical companies. As a result, there is an ongoing need for more accurate model systems. The use of renal organoids to simulate responses to nephrotoxic insults has the potential to bridge the gap between preclinical drug efficacy studies in cell cultures and animal models, and the stages of clinical trials in humans. Here we established an accessible fluorescent whole-mount approach for nuclear and membrane staining to first provide an overview of the organoid histology. Furthermore, we investigated the potential of renal organoids to model responses to drug toxicity. For this purpose, organoids were treated with the chemotherapeutic agent doxorubicin for 48 h. When cell viability was assessed biochemically, the organoids demonstrated a significant, dose-dependent decline in response to the treatment. Confocal microscopy revealed visible tubular disintegration and a loss of cellular boundaries at high drug concentrations. This observation was further reinforced by a dose-dependent decrease of the nuclear area in the analyzed images. In contrast to other approaches, in this study, we provide a straightforward experimental framework for drug toxicity assessment in renal organoids that may be used in early research stages to assist screen for potential adverse effects of compounds.

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The gut commensal Bacteroides vulgatus mpk reduces Candida albicans pathogenicity towards epithelial cells

Hammer

Niemiec

Auge

et al. 2021

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The human body is colonized by various microbes, among them the yeast Candida albicans. Mostly harmless, this opportunist causes also disease, ranging from superficial infections to sepsis. Risk factors are disturbed host defenses, mucosal barrier breakdown, and antibiotic-induced dysbiosis. Hence, residing bacteria are important to protect from Candida-mediated damage or inflammation. Bacteroides vulgatus mpk, e.g., is described as positively immunomodulatory in mouse models of inflammatory bowel disease, but its effect on the mycobiota is unknown. In this study we aimed to determine if B. vulgatus mpk affects C. albicans pathogenicity. Therefore, intestinal and oral epithelial cellswere pre-infectedin vitrowith B. vulgatus mpk and then challenged with C. albicans SC5314. The role of soluble factors was investigated by spatial separation or use of Bacteroides-conditioned medium (BCM). Preincubation of host cells with B. vulgatus mpk strongly reduced C. albicans-mediated damage while fungal burden and hyphal length were unaffected by the bacterium. The protective effect did not depend on direct contact of Bacteroidesto host cellsor Candida and could be mimicked using BCM. Contact independency suggests that diffusible factors modulate host cell susceptibility. Ongoing experiments aim to identifykey soluble Bacteroides mediators as well as subsequent host cell signaling. Additionally, co-colonization experiments of germ-free mice are planned to investigate B. vulgatus mpk’s potential to mediate colonization resistance towards C. albicans. This will contribute to our understanding of how commensal bacteria affect C. albicans and host protection.

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Isabel Auge

Intracellular events in diabetes mellitus – Behind the scenes

Augmented Enterocyte Damage During Candida albicans and Proteus mirabilis Coinfection

Renal failure in focus

A proof-of-concept assay for quantitative and optical assessment of drug-induced toxicity in renal organoids

The gut commensal Bacteroides vulgatus mpk reduces Candida albicans pathogenicity towards epithelial cells

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