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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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This content will become publicly available on November 21, 2025
Aspergillus nidulans Transcription Factor BrlA is Utilized in a Conidiation-Independent Response to Cell-Wall Stress
Abstract Under synchronized conidiation, over 2500 gene products show differential expression, including transcripts for bothbrlAandabaA, which increase steadily over time. In contrast, during wall-stress induced by the echinocandin micafungin, thebrlAtranscript is upregulated while theabaAtranscript is not. In addition, whenmpkA(last protein kinase in the cell wall integrity signaling pathway) is deleted,brlAexpression is not upregulated in response to wall stress. Together, these data imply BrlA may play a role in a cellular stress-response which is independent of the canonical BrlA-mediated conidiation pathway. To test this hypothesis, we performed a genome-wide search and found 332 genes with a putative BrlA response element (BRE) in their promoter region. From this set, we identified 28 genes which were differentially expressed in response to wall-stress, but not during synchronized conidiation. This set included seven gene products whose homologues are involved in transmembrane transport and 14 likely to be involved in secondary metabolite biosynthesis. We selected six of these genes for further examination and find that they all show altered expression behavior in thebrlAdeletion strain. Together, these data support the idea that BrlA plays a role in various biological processes outside asexual development. ImportanceTheAspergillus nidulanstranscription factor BrlA is widely accepted as a master regulator of conidiation. Here, we show that in addition to this function BrlA appears to play a role in responding to cell-wall stress. We note that this has not been observed outsideA. nidulans. Further, BrlA-mediated conidiation is highly conserved acrossAspergillusspecies, so this new functionality is likely relevant in otherAspergilli. We identified several transmembrane transporters that have altered transcriptional responses to cell-wall stress in abrlAdeletion mutant. Based on our observation, together with what is known about thebrlAgene locus’ regulation, we identifybrlAβas the likely intermediary in function ofbrlAin the response to cell-wall stress.
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- Award ID(s):
- 2006190
- PAR ID:
- 10570246
- Publisher / Repository:
- bioRxiv
- Date Published:
- Format(s):
- Medium: X
- Institution:
- bioRxiv
- Sponsoring Org:
- National Science Foundation
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