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Expression profile analysis reveals that Aspergillus fumigatus but not Aspergillus niger makes type II epithelial lung cells less immunological alert

by Keizer, Esther M. , Ordonez, Soledad R. , Ohm, Robin A. , Wösten, Han A. B. , Valdes, Ivan D. , de Cock, Hans , Escobar, Natalia

in A. fumigatus / A. niger / A549 Cells / Allergens / Alveoli / Animal Genetics and Genomics / Aspergillosis / Aspergillus / Aspergillus fumigatus / Aspergillus fumigatus - pathogenicity / Aspergillus niger / Aspergillus niger - pathogenicity / Biomedical and Life Sciences / Chemokines / Conidia / Down-Regulation / Epithelial cells / Epithelial Cells - cytology / Epithelial Cells - metabolism / Epithelial Cells - microbiology / Epithelium / Eukaryote microbial genomics / Fatty acids / Fungal infections / Fungi / Gene expression / Gene Expression Profiling / Gene regulation / Genes / Genetic aspects / Genomics / Germination / Health aspects / Heat shock / Host-microbe interaction / Host-Pathogen Interactions - genetics / Humans / Hyphae / Hypoxia / Immune clearance / Immune response / Immune system / Immunology / Infections / Interleukin-8 - genetics / Interleukin-8 - metabolism / Life Sciences / Lungs / Microarrays / Microbial Genetics and Genomics / Plant Genetics and Genomics / Proteomics / Reductase / Research Article / RNA - chemistry / RNA - isolation & purification / RNA - metabolism / Sequence Analysis, RNA / Thioredoxin / Up-Regulation

2018

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Expression profile analysis reveals that Aspergillus fumigatus but not Aspergillus niger makes type II epithelial lung cells less immunological alert

by Keizer, Esther M. , Ordonez, Soledad R. , Ohm, Robin A. , Wösten, Han A. B. , Valdes, Ivan D. , de Cock, Hans , Escobar, Natalia

2018

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Expression profile analysis reveals that Aspergillus fumigatus but not Aspergillus niger makes type II epithelial lung cells less immunological alert

by Keizer, Esther M. , Ordonez, Soledad R. , Ohm, Robin A. , Wösten, Han A. B. , Valdes, Ivan D. , de Cock, Hans , Escobar, Natalia

2018

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Journal Article

Expression profile analysis reveals that Aspergillus fumigatus but not Aspergillus niger makes type II epithelial lung cells less immunological alert

Keizer, Esther M.,

Ordonez, Soledad R.,

Ohm, Robin A.,

Wösten, Han A. B.,

Valdes, Ivan D.,

de Cock, Hans,

Escobar, Natalia

2018

Overview

Background Aspergillus fumigatus is the main causative agent of aspergillosis. Infections rarely occur in immunocompetent individuals, indicating efficient clearance of conidia by pulmonary defense mechanisms. Other aspergilli like Aspergillus niger also cause infections but to a much lesser extent. Our previous studies showed that A. fumigatus and A. niger have different behavior in the presence of type II alveolar A549 epithelial cells. A. fumigatus conidia are more efficiently internalized by these cells and germination is delayed when compared to A. niger . In addition, hyphae that have escaped the epithelial cells grow parallel to the epithelium, while A. niger grows away from this cell layer . Results Here it is shown that global gene expression of A. fumigatus and A. niger is markedly different upon contact with A549 cells. A total of 545 and 473 genes of A. fumigatus and A. niger , respectively, were differentially expressed when compared to growth in the absence of A549 cells. Notably, only 53 genes (approximately 10%) were shared in these gene sets. The different response was also illustrated by the fact that only 4 out of 75 GO terms were shared that were enriched in the differentially expressed gene sets. The orthologues of A. fumigatus genes involved in hypoxia regulation and heat shock were also up-regulated in A. niger, whereas thioredoxin reductase and allergen genes were found up-regulated in A. fumigatus but down-regulated in A. niger . Infection with A. fumigatus resulted in only 62 up and 47 down-regulated genes in A549. These numbers were 17 and 34 in the case of A. niger. GO terms related with immune response were down-regulated upon exposure to A. fumigatus but not in the case of A. niger. This indicates that A. fumigatus reprograms A549 to be less immunologically alert. Conclusions Our dual transcriptomic analysis supports earlier observations of a marked difference in life style between A. fumigatus and A. niger when grown in the presence of type II epithelial cells. The results indicate important differences in gene expression, amongst others down regulation of immune response genes in lung epithelial cells by A. fumigatus but not by A niger.

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Publisher

BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC

Subject

/ Alveoli

/ Animal Genetics and Genomics

/ Aspergillosis