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1. Micafungin-Induced Cell Wall Damage Stimulates Morphological Changes Consistent with Microcycle Conidiation in Aspergillus nidulans

   https://doi.org/10.3390/jof7070525  

   Reese, Samantha; Chelius, Cynthia; Riekhof, Wayne; Marten, Mark R.; Harris, Steven D. (July 2021, Journal of Fungi)

   Fungal cell wall receptors relay messages about the state of the cell wall to the nucleus through the Cell Wall Integrity Signaling (CWIS) pathway. The ultimate role of the CWIS pathway is to coordinate repair of cell wall damage and to restore normal hyphal growth. Echinocandins such as micafungin represent a class of antifungals that trigger cell wall damage by affecting synthesis of β-glucans. To obtain a better understanding of the dynamics of the CWIS response and its multiple effects, we have coupled dynamic transcriptome analysis with morphological studies of Aspergillus nidulans hyphae in responds to micafungin. Our results reveal that expression of the master regulator of asexual development, BrlA, is induced by micafungin exposure. Further study showed that micafungin elicits morphological changes consistent with microcycle conidiation and that this effect is abolished in the absence of MpkA. Our results suggest that microcycle conidiation may be a general response to cell wall perturbation which in some cases would enable fungi to tolerate or survive otherwise lethal damage. 

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2. A member of the OSCA/TMEM63 family of mechanosensitive calcium channels participates in cell wall integrity maintenance in Aspergillus nidulans

   https://doi.org/10.1016/j.fgb.2023.103842  

   Hill, Terry W; Vance, Stanley; Loome, Jennifer F; Haugen, Benard J; Loprete, Darlene M; Stoddard, Shana V; Jackson-Hayes, Loretta (December 2023, Fungal Genetics and Biology)

   The calF7 mutation in Aspergillus nidulans causes hypersensitivity to the cell wall compromising agents Calcofluor White (CFW) and Congo Red. In this research we demonstrate that the calF7 mutation resides in gene AN2880, encoding a predicted member of the OSCA/TMEM63 family of transmembrane glycoproteins. Those members of the family whose physiological functions have been investigated have been shown to act as mechanosensitive calcium transport channels. Deletion of AN2880 replicates the CFW hypersensitivity phenotype. Separately, we show that CFW hypersensitivity of calF deletion strains can be overcome by inclusion of elevated levels of extracellular calcium ions in the growth medium, and, correspondingly, wild type strains grown in media deficient in calcium ions are no longer resistant to CFW. These observations support a model in which accommodation to at least some forms of cell wall stress is mediated by a calcium ion signaling system in which the AN2880 gene product plays a role. The genetic lesion in calF7 is predicted to result in a glycine-to-arginine substitution at position 638 of the 945-residue CalF protein in a region of the RSN1_7TM domain that is highly conserved amongst filamentous fungi. Homology modeling predicts that the consequence of a G638R substitution is to structurally occlude the principal conductance pore in the protein. GFP-tagged wild type CalF localizes principally to the Spitzenk¨orper and the plasma membrane at growing tips and forming septa. However, both septation and hyphal morphology appear to be normal in calF7 and AN2880 deletion strains, indicating that any role played by CalF in normal hyphal growth and cytokinesis is dispensable. 

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3. Synthetic Generation of Dynamic Omics Data Demonstrates Aspergillus nidulans BrlA Paradoxical Wall Stress Response

   https://doi.org/10.1101/2025.03.02.638868  

   Zavorskas, Joseph; Edwards, Harley; Huso, Walker; Doan, Alexander G; Marten, Mark R; Harris, Steven; Srivastava, Ranjan (March 2025, bioRxiv)

   Abstract We propose a method to generate additional dynamic omics trajectories which could support pathway analysis methods such as enrichment analysis, genetic programming, and machine learning. Using long short-term memory neural networks, we can effectively predict an organism’s dynamic response to a stimulus based on an initial dataset with relatively few samples. We present both anin silicoproof of principle, based on a model that simulates viral propagation, and anin vitrocase study, tracking the dynamics ofAspergillus nidulans’BrlA transcript in response to antifungal agent micafungin. Oursilicoexperiment was conducted using a highly noisy dataset with only 25 replicates. This proof of principle shows that this method can operate on biological datasets, which often have high variance and few replicates. Ourin silicovalidation achieved a maximum R²value of approximately 0.95 on our highly noisy, stochastically simulated data. Ourin vitrovalidation achieves an R²of 0.71. As with any machine learning application, this method will work better with more data; however, both of our applications attain acceptable validation metrics with very few biological replicates. Thein vitroexperiments also revealed a novel paradoxical dose-response effect: transcriptional upregulation byAspergillus nidulansBrlA is highest at an intermediate dose of 10 ng/mL and is reduced at both higher and lower concentrations of micafungin. 

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4. Comparative transcriptional analysis reveals gene expression changes in spore germination of opportunistic pathogenic fungi

   https://doi.org/10.1101/2025.02.03.636182  

   Kim, Da-Woon; Ebert, Malaika K; Moonjely, Soumya; Wang, Zheng; Yarden, Oded; Townsend, Jeffrey P; Trail, Frances (February 2025, bioRxiv)

   In opportunistic human pathogenic fungi, changes in gene expression play a crucial role in the progression of growth stages from early spore germination through host infection. Comparative transcriptomics between diverse fungal pathogens and non-pathogens provided insights into regulatory mechanisms behind the initiation of infectious processes. We examined the gene expression patterns of 3,845 single-copy orthologous genes (SCOGs) across five phylogenetically distinct species, including the opportunistic human pathogens Fusarium oxysporum, Aspergillus fumigatus, and A. nidulans, and nonpathogenic species Neurospora crassa and Trichoderma asperelloides, at four sequential stages of spore germination. Ancestral status of gene expression was inferred for nodes along the phylogeny. By comparing expression patterns of the SCOGs with their most recent common ancestor (MRCA), we identified genes that exhibit divergent levels of expression during spore germination when comparing fungal pathogens to non-pathogens. We focused on genes related to the MAPK pathway, nitrogen metabolism, asexual development, G-protein signaling, and conidial-wall integrity. Notably, orthologs of the transcription activator abaA, a known central regulator of conidiation, exhibited significant divergence in gene expression in F. oxysporum. This dramatic expression change in abaA was accompanied by structural modifications of phialides in F. oxysporum, and revealed how these changes impact development of offspring, formation of aerial hyphae, spore production, and pathogenicity. Our research provides insights into ecological adaptations observed during the divergence of these species, specifically highlighting how divergence in gene expression during spore germination contributes to their ability to thrive in distinct environments. 

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5. Regulation of gliotoxin biosynthesis and protection in Aspergillus species

   https://doi.org/10.1371/journal.pgen.1009965  

   de Castro, Patrícia Alves; Colabardini, Ana Cristina; Moraes, Maísa; Horta, Maria Augusta; Knowles, Sonja L.; Raja, Huzefa A.; Oberlies, Nicholas H.; Koyama, Yasuji; Ogawa, Masahiro; Gomi, Katsuya; et al (January 2022, PLOS Genetics)

   Mitchell, Aaron P. (Ed.)

   Aspergillus fumigatus causes a range of human and animal diseases collectively known as aspergillosis. A . fumigatus possesses and expresses a range of genetic determinants of virulence, which facilitate colonisation and disease progression, including the secretion of mycotoxins. Gliotoxin (GT) is the best studied A . fumigatus mycotoxin with a wide range of known toxic effects that impair human immune cell function. GT is also highly toxic to A . fumigatus and this fungus has evolved self-protection mechanisms that include (i) the GT efflux pump GliA, (ii) the GT neutralising enzyme GliT, and (iii) the negative regulation of GT biosynthesis by the bis -thiomethyltransferase GtmA. The transcription factor (TF) RglT is the main regulator of GliT and this GT protection mechanism also occurs in the non-GT producing fungus A . nidulans . However, the A . nidulans genome does not encode GtmA and GliA. This work aimed at analysing the transcriptional response to exogenous GT in A . fumigatus and A . nidulans , two distantly related Aspergillus species, and to identify additional components required for GT protection. RNA-sequencing shows a highly different transcriptional response to exogenous GT with the RglT-dependent regulon also significantly differing between A . fumigatus and A . nidulans . However, we were able to observe homologs whose expression pattern was similar in both species (43 RglT-independent and 11 RglT-dependent). Based on this approach, we identified a novel RglT-dependent methyltranferase, MtrA, involved in GT protection. Taking into consideration the occurrence of RglT-independent modulated genes, we screened an A . fumigatus deletion library of 484 transcription factors (TFs) for sensitivity to GT and identified 15 TFs important for GT self-protection. Of these, the TF KojR, which is essential for kojic acid biosynthesis in Aspergillus oryzae , was also essential for virulence and GT biosynthesis in A . fumigatus , and for GT protection in A . fumigatus , A . nidulans , and A . oryzae . KojR regulates rglT , gliT , gliJ expression and sulfur metabolism in Aspergillus species. Together, this study identified conserved components required for GT protection in Aspergillus species. 

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