Estíbaliz Alegría-Carrasco scite author profile

The cell wall integrity (CWI) pathway mediates the response of Saccharomyces cerevisiae to cell wall alterations. Stress at the cell surface is detected by mechanosensors, which transduce the signal to a protein kinase cascade that involves Pkc1, Bck1, Mkk1/Mkk2, the mitogen-activated protein kinase (MAPK) Slt2 and the transcription factor Rlm1. We incorporated a positive feedback loop into this pathway by placing a hyperactive MKK1 allele under the control of the Rlm1-regulated MLP1 promoter. This circuit operates as a signal amplifier and leads to a highly increased Slt2 activation under stimulating conditions. Triggering the CWI pathway in cells engineered with this circuit, which we have named the Integrity Pathway Activation Circuit (IPAC), results in strong growth inhibition. Exploitation of this hypersensitive phenotype allowed the identification of novel proteins that contribute in signalling to Rlm1 in response to cell surface stressing agents such as Congo red, zymolyase and SDS. Among these proteins, the MAPK kinase kinase Ssk2 of the osmoregulatory high-osmolarity glycerol (HOG) pathway, but not its paralogue Ssk22, proved to be necessary for the SDS-induced IPAC-mediated growth inhibition. We found the existence of an Ssk1-independent Ssk2-Pbs2-Hog1-CWI pathway signalling axis that contributes to Slt2 activation in response to cell surface stress. We also demonstrated that the MAP kinase kinases Mkk1 and Pbs2 and the MAPKs Slt2 and Hog1 of the HOG and CWI pathways interact physically, forming a complex. Our results show how a simple synthetic circuit can be used as a powerful tool for a better understanding of signalling pathways.

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Garvicins AG1 and AG2: Two Novel Class IId Bacteriocins of Lactococcus garvieae Lg-Granada

Maldonado‐Barragán

Alegría-Carrasco

Blanco

et al. 2022

IJMS

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Lactococcus garvieae causes infectious diseases in animals and is considered an emerging zoonotic pathogen involved in human clinical conditions. In silico analysis of plasmid pLG50 of L. garvieae Lg-Granada, an isolate from a patient with endocarditis, revealed the presence of two gene clusters (orf46–47 and orf48–49), each one encoding a novel putative bacteriocin, i.e., garvicin AG1 (GarAG1; orf46) and garvicin AG2 (GarAG2; orf48), and their corresponding immunity proteins (orf47 and orf49). The chemically synthesised bacteriocins GarAG1 and GarAG2 presented inhibitory activity against pathogenic L. garvieae strains, with AG2 also being active against Listeria monocytogenes, Listeria ivanovii and Enterococcus faecalis. Genetic organisation, amino acid sequences and antimicrobial activities of GarAG1 and GarAG2 indicate that they belong to linear non-pediocin-like one-peptide class IId bacteriocins. Gram-positive bacteria that were sensitive to GarAG2 were also able to ferment mannose, suggesting that this bacteriocin could use the mannose phosphotransferase transport system (Man-PTS) involved in mannose uptake as a receptor in sensitive strains. Intriguingly, GarAG1 and GarAG2 were highly active against their own host, L. garvieae Lg-Granada, which could be envisaged as a new strategy to combat pathogens via their own weapons.

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Estíbaliz Alegría-Carrasco

Not just the wall: the other ways to turn the yeast CWI pathway on

Rewiring the yeast cell wall integrity (CWI) pathway through a synthetic positive feedback circuit unveils a novel role for the MAPKKK Ssk2 in CWI pathway activation

Garvicins AG1 and AG2: Two Novel Class IId Bacteriocins of Lactococcus garvieae Lg-Granada

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