James Chaloupka scite author profile

The ascomycete Candida albicans is the most common fungal pathogen in immunocompromised patients . Its ability to change morphology, from yeast to filamentous forms, in response to host environmental cues is important for virulence . Filamentation is mediated by second messengers such as cyclic adenosine 3',5'-monophosphate (cAMP) synthesized by adenylyl cyclase . The distantly related basidiomycete Cryptococcus neoformans is an encapsulated yeast that predominantly infects the central nervous system in immunocompromised patients . Similar to the morphological change in C. albicans, capsule biosynthesis in C. neoformans, a major virulence attribute, is also dependent upon adenylyl cyclase activity . Here we demonstrate that physiological concentrations of CO2/HCO3- induce filamentation in C. albicans by direct stimulation of cyclase activity. Furthermore, we show that CO2/HCO3- equilibration by carbonic anhydrase is essential for pathogenesis of C. albicans in niches where the available CO2 is limited. We also demonstrate that adenylyl cyclase from C. neoformans is sensitive to physiological concentrations of CO2/HCO3-. These data demonstrate that the link between cAMP signaling and CO2/HCO3- sensing is conserved in fungi and reveal CO2 sensing to be an important mediator of fungal pathogenesis. Novel therapeutic agents could target this pathway at several levels to control fungal infections.

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Cryptococcus neoformans Senses CO ₂ through the Carbonic Anhydrase Can2 and the Adenylyl Cyclase Cac1

Mogensen

et al. 2006

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Cryptococcus neoformans, a fungal pathogen of humans, causes fatal meningitis in immunocompromised patients. Its virulence is mainly determined by the elaboration of a polysaccharide capsule surrounding its cell wall. During its life, C. neoformans is confronted with and responds to dramatic variations in CO 2 concentrations; one important morphological change triggered by the shift from its natural habitat (0.033% CO 2 ) to infected hosts (5% CO 2 ) is the induction of capsule biosynthesis. In cells, CO 2 is hydrated to bicarbonate in a spontaneous reaction that is accelerated by carbonic anhydrases. Here we show that C. neoformans contains two ␤-class carbonic anhydrases, Can1 and Can2. We further demonstrate that CAN2, but not CAN1, is abundantly expressed and essential for the growth of C. neoformans in its natural environment, where CO 2 concentrations are limiting. Structural studies reveal that Can2 forms a homodimer in solution. Our data reveal Can2 to be the main carbonic anhydrase and suggest a physiological role for bicarbonate during C. neoformans growth. Bicarbonate directly activates the C. neoformans Cac1 adenylyl cyclase required for capsule synthesis. We show that this specific activation is optimal at physiological pH.

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The Quorum-Sensing Molecules Farnesol/Homoserine Lactone and Dodecanol Operate via Distinct Modes of Action in Candida albicans

et al. 2011

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Living as a commensal, Candida albicans must adapt and respond to environmental cues generated by the mammalian host and by microbes comprising the natural flora. These signals have opposing effects on C. albicans, with host cues promoting the yeast-to-hyphal transition and bacteria-derived quorum-sensing molecules inhibiting hyphal development. Hyphal development is regulated through modulation of the cyclic AMP (cAMP)/protein kinase A (PKA) signaling pathway, and it has been postulated that quorum-sensing molecules can affect filamentation by inhibiting the cAMP pathway. Here, we show that both farnesol and 3-oxo-C 12 -homoserine lactone, a quorum-sensing molecule secreted by Pseudomonas aeruginosa, block hyphal development by affecting cAMP signaling; they both directly inhibited the activity of the Candida adenylyl cyclase, Cyr1p. In contrast, the 12-carbon alcohol dodecanol appeared to modulate hyphal development and the cAMP signaling pathway without directly affecting the activity of Cyr1p. Instead, we show that dodecanol exerted its effects through a mechanism involving the C. albicans hyphal repressor, Sfl1p. Deletion of SFL1 did not affect the response to farnesol but did interfere with the response to dodecanol. Therefore, quorum sensing in C. albicans is mediated via multiple mechanisms of action. Interestingly, our experiments raise the possibility that the Burkholderia cenocepacia diffusible signal factor, BDSF, also mediates its effects via Sfl1p, suggesting that dodecanol's mode of action, but not farnesol or 3-oxo-C 12 -homoserine lactone, may be used by other quorumsensing molecules.

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Fungal Adenylyl Cyclase Integrates CO2 Sensing with cAMP Signaling and Virulence

et al. 2005

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Autoinhibitory regulation of soluble adenylyl cyclase

et al. 2006

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Soluble adenylyl cyclase is an evolutionarily conserved bicarbonate sensor that plays a crucial role in cAMP dependent processes that occur during mammalian fertilization. sAC protein is expressed at the highest levels in male germ cells, and is found to occur as one of two known isoforms: a truncated protein (sAC t ) that consists almost exclusively of the two conserved catalytic domains (C1 and C2), and a full-length form (sAC fl ) that contains an additional noncatalytic C-terminal region. Several studies suggested sAC t was more active than sAC fl . We now demonstrate that the specific activity of sAC t is at least 10-fold higher than the specific activity of sAC fl . Using deletion analysis and a novel genetic screen to identify activating mutations, we uncovered an autoinhibitory region just C-terminal to the C2 domain. Kinetic analysis of purified recombinant sAC revealed this autoinhibitory domain functions to lower the enzyme's V max without altering its affinity for substrate or regulation by any of the known modulators of sAC activity. Our results identify an additional regulatory mechanism specific to the sAC fl isoform.

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James Chaloupka

Fungal Adenylyl Cyclase Integrates CO2 Sensing with cAMP Signaling and Virulence

Cryptococcus neoformans Senses CO ₂ through the Carbonic Anhydrase Can2 and the Adenylyl Cyclase Cac1

The Quorum-Sensing Molecules Farnesol/Homoserine Lactone and Dodecanol Operate via Distinct Modes of Action in Candida albicans

Fungal Adenylyl Cyclase Integrates CO2 Sensing with cAMP Signaling and Virulence

Autoinhibitory regulation of soluble adenylyl cyclase

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James Chaloupka

Fungal Adenylyl Cyclase Integrates CO2 Sensing with cAMP Signaling and Virulence

Cryptococcus neoformans Senses CO 2 through the Carbonic Anhydrase Can2 and the Adenylyl Cyclase Cac1

The Quorum-Sensing Molecules Farnesol/Homoserine Lactone and Dodecanol Operate via Distinct Modes of Action in Candida albicans

Fungal Adenylyl Cyclase Integrates CO2 Sensing with cAMP Signaling and Virulence

Autoinhibitory regulation of soluble adenylyl cyclase

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Resources

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Cryptococcus neoformans Senses CO ₂ through the Carbonic Anhydrase Can2 and the Adenylyl Cyclase Cac1