Review
doi: 10.1016/j.mib.2024.102488.
Epub 2024 May 17.
Effects of CO2 in fungi
Affiliations
- PMID: 38759247
- PMCID: PMC11162916
- DOI: 10.1016/j.mib.2024.102488
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Review
Effects of CO2 in fungi
Curr Opin Microbiol.
2024 Jun.
Abstract
Carbon dioxide supplies carbon for photosynthetic species and is a major product of respiration for all life forms. Inside the human body where CO2 is a by-product of the tricarboxylic acid cycle, its level reaches 5% or higher. In the ambient atmosphere, ∼.04% of the air is CO2. Different organisms can tolerate different CO2 levels to various degrees, and experiencing higher CO2 is toxic and can lead to death. The fungal kingdom shows great variations in response to CO2 that has been documented by different researchers at different time periods. This literature review aims to connect these studies, highlight mechanisms underlying tolerance to high levels of CO2, and emphasize the effects of CO2 on fungal metabolism and morphogenesis.
Copyright © 2024 Elsevier Ltd. All rights reserved.
Conflict of interest statement
Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
Figures
Direct effects of CO2 on fungal metabolism. CO2 is a precursor (red) and a product (blue) of numerous metabolic reactions in the cell. 1) CO2 is converted to bicarbonate spontaneously or by carbonic anhydrase, causing intracellular acidification through generating hydrogen ions. 2) CO2 and pyruvate are synthesized into oxaloacetate. 3) CO2 is used to synthesize AIR in the adenine biosynthesis pathway, and 4) is a precursor for carbamoyl phosphate.
CO2 sensing in C. albicans. 1) CO2 is converted to bicarbonate by carbonic anhydrase leading to activation of adenylyl cyclase (AC) and cAMP signaling, and 2) causing intracellular acidification through generating hydrogen ions and activating Rim101. 3) The homeostasis of bicarbonate and/or unknown products of bicarbonate regulates Pkh1/2 and TOR activity. 4) In high CO2, Sch9 is activated by Pkh1/2 and TOR through phosphorylation and inhibits the transcription factor Rca1.5) In low CO2 levels, Rca1 activates expression of carbonic anhydrase. 6) CO2 induces Flo8 expression. 7) Ras1 acts antagonistically to CO2 signaling. 8) CO2 interacts with Ptc2 to form aggregates in the cell. 9) Ptc2 activates Wor1 through dephosphorylation.
CO2 tolerance in C. neoformans. 1) CO2 disrupts membrane fluidity and/or integrity. 2) CO2 is converted to bicarbonate by carbonic anhydrase. 3) Bicarbonate activates adenylyl cyclase leading to cAMP production. 4) HCO3− is utilized to produce malonyl-CoA, critical for fatty acid biosynthesis. 5) CO2 is utilized to synthesize carbamoyl phosphate. 6) CO2 activates the TOR pathway. 7) The RAM and Calcineurin pathways may post-transcriptionally regulate genes important for CO2 tolerance. 8) Increased CO2 causes degradation of Rim101, preventing its activity as a transcription factor.
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