Humberto Martín - Academia.edu (original) (raw)
Papers by Humberto Martín
International Journal of Molecular Sciences
Understanding which intracellular signaling pathways are activated by manganese stress is crucial... more Understanding which intracellular signaling pathways are activated by manganese stress is crucial to decipher how metal overload compromise cellular integrity. Here, we unveil a role for oxidative and cell wall stress signaling in the response to manganese stress in yeast. We find that the oxidative stress transcription factor Yap1 protects cells against manganese toxicity. Conversely, extracellular manganese addition causes a rapid decay in Yap1 protein levels. In addition, manganese stress activates the MAPKs Hog1 and Slt2 (Mpk1) and leads to an up-regulation of the Slt2 downstream transcription factor target Rlm1. Importantly, Yap1 and Slt2 are both required to protect cells from oxidative stress in mutants impaired in manganese detoxification. Under such circumstances, Slt2 activation is enhanced upon Yap1 depletion suggesting an interplay between different stress signaling nodes to optimize cellular stress responses and manganese tolerance.
Journal of Fungi
The cell wall integrity (CWI) MAPK pathway of budding yeast Saccharomyces cerevisiae is specializ... more The cell wall integrity (CWI) MAPK pathway of budding yeast Saccharomyces cerevisiae is specialized in responding to cell wall damage, but ongoing research shows that it participates in many other stressful conditions, suggesting that it has functional diversity. The output of this pathway is mainly driven by the activity of the MAPK Slt2, which regulates important processes for yeast physiology such as fine-tuning of signaling through the CWI and other pathways, transcriptional activation in response to cell wall damage, cell cycle, or determination of the fate of some organelles. To this end, Slt2 precisely phosphorylates protein substrates, modulating their activity, stability, protein interaction, and subcellular localization. Here, after recapitulating the methods that have been employed in the discovery of proteins phosphorylated by Slt2, we review the bona fide substrates of this MAPK and the growing set of candidates still to be confirmed. In the context of the complexity of...
In S. cerevisiae, protein kinase C (Pkc1p) is involved in the control of actin polarization and m... more In S. cerevisiae, protein kinase C (Pkc1p) is involved in the control of actin polarization and morphogenesis. Pkc1p acts upstream of the cell integrity MAPK pathway. A protein kinase C overexpression strain of S. cerevisiae was investigated for differential protein phosphorylation as compared to an isogenic wild type strain. We have used a phosphoproteomic approach based on quantitative mass spectrometry based on stable isotope labeling with amino acids in cell culture (SILAC). The PKC1 overexpression strain was labeled by growth in media containing stable isotopic amino acids, i.e C13 – arginine and C13-lysine, to do differential analysis in a 1:1 protein mixture of both strains using mass spectrometry. Several phosphopeptide enrichment tecniques have been used, and all fractions were analysed by nano – HPLC-MS/MS and neutral loss dependent MS3 on a LTQ mass spectrometer that allowed identification of phosphopeptides using Mascot scoring and quantification with MSquant, a freely d...
The EMBO Journal, 1999
The fission yeast Sty1/Spc1 mitogen-activated protein (MAP) kinase is a member of the eukaryotic ... more The fission yeast Sty1/Spc1 mitogen-activated protein (MAP) kinase is a member of the eukaryotic stressactivated MAP kinase (SAPK) family. We have identified a protein, Sin1, that interacts with Sty1/Spc1 which is a member of a new evolutionarily conserved gene family. Cells lacking Sin1 display many, but not all, of the phenotypes of cells lacking the Sty1/Spc1 MAP kinase including sterility, multiple stress sensitivity and a cell-cycle delay. Sin1 is phosphorylated after stress but this is not Sty1/Spc1-dependent. Importantly, Sin1 is not required for activation of Sty1/Spc1 but is required for stress-dependent transcription via its substrate, Atf1. We find that in the absence of Sin1, Sty1/ Spc1 appears to translocate to the nucleus but Atf1 is not fully phosphorylated and becomes unstable in response to environmental stress. Sin1 is also required for effective transcription via the AP-1 factor Pap1 but does not prevent its nuclear translocation. Remarkably chimaeric fusions of sin1 with chicken sin1 sequences rescue loss of sin1 function. We conclude that Sin1 is a novel component of the eukaryotic SAPK pathway.
FEMS Microbiology Letters, 2009
Salmonella uses type III secretion systems (TTSS) to deliver pathogenic proteins into the host ce... more Salmonella uses type III secretion systems (TTSS) to deliver pathogenic proteins into the host cells. These translocated effectors induce bacterial internalization and intracellular proliferation by targeting important cellular processes that are conserved among eukaryotes. Here, we assessed the feasibility of performing a genetic screen in yeast to identify novel Salmonella effectors, by searching for genes that produce toxicity when expressed in this model system. We identified several known TTSS-translocated effectors and found that two of them, SteC and SseF, from Salmonella enterica serovar Typhimurium, interfere with cytoskeletal dynamics as they do in mammalian cells. We also identified 11 genes of unknown function (seven from S. Typhi and four from S. Typhimurium) that display features commonly showed by effector proteins, such as a (G1C) content lower than the average for the chromosome, suggesting their acquisition by horizontal transfer processes. Five of these proteins are highly conserved only among Salmonella serovars, whereas the other six are also conserved in other pathogenic or opportunistic enterobacteria. Moreover, we identified other proteins that share specific activity domains with either translocated or bacterial-confined proteins known to be involved in pathogenesis, which might also act as virulence proteins.
International Journal of Molecular Sciences
The cell wall integrity pathway (CWI) is a MAPK-mediated signaling route essential for yeast cell... more The cell wall integrity pathway (CWI) is a MAPK-mediated signaling route essential for yeast cell response to cell wall damage, regulating distinct aspects of fungal physiology. We have recently proven that the incorporation of a genetic circuit that operates as a signal amplifier into this pathway allows for the identification of novel elements involved in CWI signaling. Here, we show that the strong growth inhibition triggered by pathway hyperactivation in cells carrying the “Integrity Pathway Activation Circuit” (IPAC) also allows the easy identification of new stimuli. By using the IPAC, we have found various chemical agents that activate the CWI pathway, including the aminoglycoside neomycin. Cells lacking key components of this pathway are sensitive to this antibiotic, due to the disruption of signaling upon neomycin stimulation. Neomycin reduces both phosphatidylinositol-4,5-bisphosphate (PIP2) availability at the plasma membrane and myriocin-induced TORC2-dependent Ypk1 phos...
Molecular systems biology, Jan 17, 2015
Genetic interaction screens have been applied with great success in several organisms to study ge... more Genetic interaction screens have been applied with great success in several organisms to study gene function and the genetic architecture of the cell. However, most studies have been performed under optimal growth conditions even though many functional interactions are known to occur under specific cellular conditions. In this study, we have performed a large-scale genetic interaction analysis in Saccharomyces cerevisiae involving approximately 49 × 1,200 double mutants in the presence of five different stress conditions, including osmotic, oxidative and cell wall-altering stresses. This resulted in the generation of a differential E-MAP (or dE-MAP) comprising over 250,000 measurements of conditional interactions. We found an extensive number of conditional genetic interactions that recapitulate known stress-specific functional associations. Furthermore, we have also uncovered previously unrecognized roles involving the phosphatase regulator Bud14, the histone methylation complex CO...
International Microbiology
Journal of Fungi
Azoles are one of the most widely used drugs to treat fungal infections. To further understand th... more Azoles are one of the most widely used drugs to treat fungal infections. To further understand the fungal response to azoles, we analyzed the MAPK circuitry of the model yeast Saccharomyces cerevisiae that operates under treatment with these antifungals. Imidazoles, and particularly clotrimazole, trigger deeper changes in MAPK phosphorylation than triazoles, involving a reduction in signaling through the mating pathway and the activation of the MAPKs Hog1 and Slt2 from the High-Osmolarity Glycerol (HOG) and the Cell Wall Integrity (CWI) pathways, respectively. Clotrimazole treatment leads to actin aggregation, mitochondrial alteration, and oxidative stress, which is essential not only for the activation of both MAPKs, but also for the appearance of a low-mobility form of Slt2 caused by additional phosphorylation to that occurring at the conserved TEY activation motif. Clotrimazole-induced ROS production and Slt2 phosphorylation are linked to Tpk3-mediated PKA activity. Resistance to...
International Journal of Molecular Sciences
The Mitogen-Activated Protein Kinase (MAPK) Slt2 is central to signaling through the yeast Cell W... more The Mitogen-Activated Protein Kinase (MAPK) Slt2 is central to signaling through the yeast Cell Wall Integrity (CWI) pathway. MAPKs are regulated by phosphorylation at both the threonine and tyrosine of the conserved TXY motif within the activation loop (T190/Y192 in Slt2). Since phosphorylation at both sites results in the full activation of MAPKs, signaling through MAPK pathways is monitored with antibodies that detect dually phosphorylated forms. However, most of these antibodies also recognize monophosphorylated species, whose relative abundance and functionality are diverse. By using different phosphospecific antibodies and phosphate-affinity (Phos-tag) analysis on distinct Slt2 mutants, we determined that Y192- and T190-monophosphorylated species coexist with biphosphorylated Slt2, although most of the Slt2 pool remains unphosphorylated following stress. Among the monophosphorylated forms, only T190 exhibited biological activity. Upon stimulation, Slt2 is first phosphorylated ...
International Microbiology
International Microbiology
International Journal of Molecular Sciences
Mitogen-activated protein kinases (MAPKs) are key mediators of signaling in fungi, participating ... more Mitogen-activated protein kinases (MAPKs) are key mediators of signaling in fungi, participating in the response to diverse stresses and in developmental processes. Since the precise regulation of MAPKs is fundamental for cell physiology, fungi bear dual specificity phosphatases (DUSPs) that act as MAP kinase phosphatases (MKPs). Whereas fungal MKPs share characteristic domains of this phosphatase subfamily, they also have specific interaction motifs and particular activation mechanisms, which, for example, allow some yeast MKPs, such as Saccharomyces cerevisiae Sdp1, to couple oxidative stress with substrate recognition. Model yeasts show that MKPs play a key role in the modulation of MAPK signaling flow. Mutants affected in S. cerevisiae Msg5 or in Schizosaccharomyces pombe Pmp1 display MAPK hyperactivation and specific phenotypes. MKPs from virulent fungi, such as Candida albicans Cpp1, Fusarium graminearum Msg5, and Pyricularia oryzae Pmp1, are relevant for pathogenicity. Apart ...
FEMS microbiology letters, Jan 30, 2018
The Small World Initiative (SWI) is a consolidated and successful education program rooted in the... more The Small World Initiative (SWI) is a consolidated and successful education program rooted in the USA that tackles the antibiotic crisis by a crowdsourcing strategy. Based on active learning, it challenges young students to discover novel bioactive-producing microorganisms form environmental soil samples. Besides its pedagogical efficiency to impart Microbiology contents in academic curricula, SWI promotes vocations on research and development in Experimental Sciences and, at the same time, disseminates the antibiotic awareness guidelines of the World Health Organization (WHO). We have adapted the SWI program to the Spanish academic environment by a pioneering hierarchic strategy based on service-learning that involves two education levels (higher education and high school) with different degrees of responsibility. Along the academic year, 23 SWI teams each consisting of 3-7 undergraduate students led by one faculty member have coordinated off-campus programs in 22 local high school...
Methods in molecular biology (Clifton, N.J.), 2016
Mitogen activated protein kinases (MAPK) pathways play a key role in orchestrating the eukaryotic... more Mitogen activated protein kinases (MAPK) pathways play a key role in orchestrating the eukaryotic cellular response to different stimuli. In this process, phosphorylation of both conserved threonine and tyrosine residues of MAPKs is essential for their activation. Identification of tyrosine and dual specificity protein phosphatases capable of dephosphorylating these phosphosites is thus critical to gain insight into their regulation. Due to the conservation of pivotal elements in eukaryotic signaling, yeast has turned into a valuable tool to increase the knowledge of MAPK signaling in other cell types. Here we describe an in vivo method to evaluate the capacity of a protein, from yeast or other origin, to act as a MAPK phosphatase. It relies on the ability of the phosphatase to reduce, when overexpressed, both the amount of activated MAPK and the transcription from a specific promoter regulated by the corresponding pathway. To this end, the pathway has to be previously activated, pr...
The Journal of biological chemistry, Jan 19, 2016
The yeast cell wall integrity (CWI) MAPK Slt2 mediates the transcriptional response to cell wall ... more The yeast cell wall integrity (CWI) MAPK Slt2 mediates the transcriptional response to cell wall alterations through phosphorylation of transcription factors Rlm1 and SBF. However, the variety of cellular functions regulated by Slt2 suggests the existence of a significant number of still unknown substrates for this kinase. To identify novel Slt2 targets, we generated and characterized an analog-sensitive mutant of Slt2 (Slt2-as) that can be specifically inhibited by bulky kinase inhibitor analogs. We demonstrated that Slt2-as is able to use ATPγS analogs to thiophosphorylate its substrates in yeast cell extracts as well as when produced as recombinant proteins in E. coli. Taking advantage of this chemical-genetic approach, we found that Slt2 phosphorylates the MAPK phosphatase Msg5 both in the N-terminal regulatory and C-terminal catalytic domains. Moreover, we identified the calcineurin regulator Rcn2, the 4E-BP translation repressor protein Caf20, and the Golgi-associated adaptor ...
Genetics, Jan 6, 2015
The Saccharomyces cerevisiae type 2C protein phosphatase Ptc1 is required for a wide variety of c... more The Saccharomyces cerevisiae type 2C protein phosphatase Ptc1 is required for a wide variety of cellular functions, although only a few cellular targets have been identified. A genetic screen in search of mutations in protein kinase encoding genes able to suppress multiple phenotypic traits caused by the ptc1 deletion yielded a single gene, MKK1, coding for a MAP kinase kinase (MAPKK) known to activate the cell wall integrity (CWI) Slt2 MAP kinase. In contrast, mutation of the MKK1 paralog, MKK2, had a less significant effect. Deletion of MKK1 abolished the increased phosphorylation of Slt2 induced by the absence of Ptc1 both under basal or CWI pathway stimulatory conditions. We demonstrate that Ptc1 acts at the level of the MAPKKs of the CWI pathway, but only the Mkk1 kinase activity is essential for ptc1 mutants to display high Slt2 activation. We also show that Ptc1 is able to dephosphorylate Mkk1 in vitro. Our results reveal the preeminent role of Mkk1 in signaling through the C...
Current Genetics
We have further characterized the functionality of the Saccharomyces cerevisiae gene SLT2(MPK1), ... more We have further characterized the functionality of the Saccharomyces cerevisiae gene SLT2(MPK1), coding for a MAP-kinase homolog essential for cell integrity, which is involved in the Pkc1p signalling pathway. This gene was isolated on the basis of its capacity to complement the thermosensitive-autolytic, osmotic-remediable phenotype of lyt2 mutants. Both slt2delta and lyt2 mutants displayed a caffeine-sensitive phenotype consisting of cell lysis that was not dependent on temperature. Caffeine concentrations affecting the growth of these mutant strains were dependent on the genetic background, the SSD1 allele being very significant in this regard. The SLT2 allele of several lyt2 strains was both rescued and amplified by PCR. The recovered allele was shown to be non-functional as it could not complement the lytic phenotype of both deletion (slt2delta) and lyt2 strains. After nucleotide sequencing of the recovered allele, we found that the defect of lyt2 mutants consists in a substitu...
Fungal genetics and biology : FG & B, Jan 28, 2015
The lack of signaling through MAPK pathways leads to a defective cellular response to the corresp... more The lack of signaling through MAPK pathways leads to a defective cellular response to the corresponding stimulus, but an improper hyperactivation of these routes results in deleterious effects as well. Protein phosphorylation is an activating modification for signal transmission through components of MAPK pathways and thus, protein phosphatases are key negative regulators of these cellular routes by limiting excessive signaling activity. However, in contrast to most of the protein kinases operating in MAPK pathways, protein phosphatases usually exhibit redundancy and promiscuity, which has limited the identification of their function. In order to identify new putative phosphatases operating in Saccharomyces cerevisiae MAPK signaling, we have taken advantage of growth inhibition promoted by overproduction of constitutively active components of the mating and cell wall integrity (CWI) pathways to perform a screen with a collection of 43 protein phosphatases or phosphatase-regulatory p...
International Journal of Molecular Sciences
Understanding which intracellular signaling pathways are activated by manganese stress is crucial... more Understanding which intracellular signaling pathways are activated by manganese stress is crucial to decipher how metal overload compromise cellular integrity. Here, we unveil a role for oxidative and cell wall stress signaling in the response to manganese stress in yeast. We find that the oxidative stress transcription factor Yap1 protects cells against manganese toxicity. Conversely, extracellular manganese addition causes a rapid decay in Yap1 protein levels. In addition, manganese stress activates the MAPKs Hog1 and Slt2 (Mpk1) and leads to an up-regulation of the Slt2 downstream transcription factor target Rlm1. Importantly, Yap1 and Slt2 are both required to protect cells from oxidative stress in mutants impaired in manganese detoxification. Under such circumstances, Slt2 activation is enhanced upon Yap1 depletion suggesting an interplay between different stress signaling nodes to optimize cellular stress responses and manganese tolerance.
Journal of Fungi
The cell wall integrity (CWI) MAPK pathway of budding yeast Saccharomyces cerevisiae is specializ... more The cell wall integrity (CWI) MAPK pathway of budding yeast Saccharomyces cerevisiae is specialized in responding to cell wall damage, but ongoing research shows that it participates in many other stressful conditions, suggesting that it has functional diversity. The output of this pathway is mainly driven by the activity of the MAPK Slt2, which regulates important processes for yeast physiology such as fine-tuning of signaling through the CWI and other pathways, transcriptional activation in response to cell wall damage, cell cycle, or determination of the fate of some organelles. To this end, Slt2 precisely phosphorylates protein substrates, modulating their activity, stability, protein interaction, and subcellular localization. Here, after recapitulating the methods that have been employed in the discovery of proteins phosphorylated by Slt2, we review the bona fide substrates of this MAPK and the growing set of candidates still to be confirmed. In the context of the complexity of...
In S. cerevisiae, protein kinase C (Pkc1p) is involved in the control of actin polarization and m... more In S. cerevisiae, protein kinase C (Pkc1p) is involved in the control of actin polarization and morphogenesis. Pkc1p acts upstream of the cell integrity MAPK pathway. A protein kinase C overexpression strain of S. cerevisiae was investigated for differential protein phosphorylation as compared to an isogenic wild type strain. We have used a phosphoproteomic approach based on quantitative mass spectrometry based on stable isotope labeling with amino acids in cell culture (SILAC). The PKC1 overexpression strain was labeled by growth in media containing stable isotopic amino acids, i.e C13 – arginine and C13-lysine, to do differential analysis in a 1:1 protein mixture of both strains using mass spectrometry. Several phosphopeptide enrichment tecniques have been used, and all fractions were analysed by nano – HPLC-MS/MS and neutral loss dependent MS3 on a LTQ mass spectrometer that allowed identification of phosphopeptides using Mascot scoring and quantification with MSquant, a freely d...
The EMBO Journal, 1999
The fission yeast Sty1/Spc1 mitogen-activated protein (MAP) kinase is a member of the eukaryotic ... more The fission yeast Sty1/Spc1 mitogen-activated protein (MAP) kinase is a member of the eukaryotic stressactivated MAP kinase (SAPK) family. We have identified a protein, Sin1, that interacts with Sty1/Spc1 which is a member of a new evolutionarily conserved gene family. Cells lacking Sin1 display many, but not all, of the phenotypes of cells lacking the Sty1/Spc1 MAP kinase including sterility, multiple stress sensitivity and a cell-cycle delay. Sin1 is phosphorylated after stress but this is not Sty1/Spc1-dependent. Importantly, Sin1 is not required for activation of Sty1/Spc1 but is required for stress-dependent transcription via its substrate, Atf1. We find that in the absence of Sin1, Sty1/ Spc1 appears to translocate to the nucleus but Atf1 is not fully phosphorylated and becomes unstable in response to environmental stress. Sin1 is also required for effective transcription via the AP-1 factor Pap1 but does not prevent its nuclear translocation. Remarkably chimaeric fusions of sin1 with chicken sin1 sequences rescue loss of sin1 function. We conclude that Sin1 is a novel component of the eukaryotic SAPK pathway.
FEMS Microbiology Letters, 2009
Salmonella uses type III secretion systems (TTSS) to deliver pathogenic proteins into the host ce... more Salmonella uses type III secretion systems (TTSS) to deliver pathogenic proteins into the host cells. These translocated effectors induce bacterial internalization and intracellular proliferation by targeting important cellular processes that are conserved among eukaryotes. Here, we assessed the feasibility of performing a genetic screen in yeast to identify novel Salmonella effectors, by searching for genes that produce toxicity when expressed in this model system. We identified several known TTSS-translocated effectors and found that two of them, SteC and SseF, from Salmonella enterica serovar Typhimurium, interfere with cytoskeletal dynamics as they do in mammalian cells. We also identified 11 genes of unknown function (seven from S. Typhi and four from S. Typhimurium) that display features commonly showed by effector proteins, such as a (G1C) content lower than the average for the chromosome, suggesting their acquisition by horizontal transfer processes. Five of these proteins are highly conserved only among Salmonella serovars, whereas the other six are also conserved in other pathogenic or opportunistic enterobacteria. Moreover, we identified other proteins that share specific activity domains with either translocated or bacterial-confined proteins known to be involved in pathogenesis, which might also act as virulence proteins.
International Journal of Molecular Sciences
The cell wall integrity pathway (CWI) is a MAPK-mediated signaling route essential for yeast cell... more The cell wall integrity pathway (CWI) is a MAPK-mediated signaling route essential for yeast cell response to cell wall damage, regulating distinct aspects of fungal physiology. We have recently proven that the incorporation of a genetic circuit that operates as a signal amplifier into this pathway allows for the identification of novel elements involved in CWI signaling. Here, we show that the strong growth inhibition triggered by pathway hyperactivation in cells carrying the “Integrity Pathway Activation Circuit” (IPAC) also allows the easy identification of new stimuli. By using the IPAC, we have found various chemical agents that activate the CWI pathway, including the aminoglycoside neomycin. Cells lacking key components of this pathway are sensitive to this antibiotic, due to the disruption of signaling upon neomycin stimulation. Neomycin reduces both phosphatidylinositol-4,5-bisphosphate (PIP2) availability at the plasma membrane and myriocin-induced TORC2-dependent Ypk1 phos...
Molecular systems biology, Jan 17, 2015
Genetic interaction screens have been applied with great success in several organisms to study ge... more Genetic interaction screens have been applied with great success in several organisms to study gene function and the genetic architecture of the cell. However, most studies have been performed under optimal growth conditions even though many functional interactions are known to occur under specific cellular conditions. In this study, we have performed a large-scale genetic interaction analysis in Saccharomyces cerevisiae involving approximately 49 × 1,200 double mutants in the presence of five different stress conditions, including osmotic, oxidative and cell wall-altering stresses. This resulted in the generation of a differential E-MAP (or dE-MAP) comprising over 250,000 measurements of conditional interactions. We found an extensive number of conditional genetic interactions that recapitulate known stress-specific functional associations. Furthermore, we have also uncovered previously unrecognized roles involving the phosphatase regulator Bud14, the histone methylation complex CO...
International Microbiology
Journal of Fungi
Azoles are one of the most widely used drugs to treat fungal infections. To further understand th... more Azoles are one of the most widely used drugs to treat fungal infections. To further understand the fungal response to azoles, we analyzed the MAPK circuitry of the model yeast Saccharomyces cerevisiae that operates under treatment with these antifungals. Imidazoles, and particularly clotrimazole, trigger deeper changes in MAPK phosphorylation than triazoles, involving a reduction in signaling through the mating pathway and the activation of the MAPKs Hog1 and Slt2 from the High-Osmolarity Glycerol (HOG) and the Cell Wall Integrity (CWI) pathways, respectively. Clotrimazole treatment leads to actin aggregation, mitochondrial alteration, and oxidative stress, which is essential not only for the activation of both MAPKs, but also for the appearance of a low-mobility form of Slt2 caused by additional phosphorylation to that occurring at the conserved TEY activation motif. Clotrimazole-induced ROS production and Slt2 phosphorylation are linked to Tpk3-mediated PKA activity. Resistance to...
International Journal of Molecular Sciences
The Mitogen-Activated Protein Kinase (MAPK) Slt2 is central to signaling through the yeast Cell W... more The Mitogen-Activated Protein Kinase (MAPK) Slt2 is central to signaling through the yeast Cell Wall Integrity (CWI) pathway. MAPKs are regulated by phosphorylation at both the threonine and tyrosine of the conserved TXY motif within the activation loop (T190/Y192 in Slt2). Since phosphorylation at both sites results in the full activation of MAPKs, signaling through MAPK pathways is monitored with antibodies that detect dually phosphorylated forms. However, most of these antibodies also recognize monophosphorylated species, whose relative abundance and functionality are diverse. By using different phosphospecific antibodies and phosphate-affinity (Phos-tag) analysis on distinct Slt2 mutants, we determined that Y192- and T190-monophosphorylated species coexist with biphosphorylated Slt2, although most of the Slt2 pool remains unphosphorylated following stress. Among the monophosphorylated forms, only T190 exhibited biological activity. Upon stimulation, Slt2 is first phosphorylated ...
International Microbiology
International Microbiology
International Journal of Molecular Sciences
Mitogen-activated protein kinases (MAPKs) are key mediators of signaling in fungi, participating ... more Mitogen-activated protein kinases (MAPKs) are key mediators of signaling in fungi, participating in the response to diverse stresses and in developmental processes. Since the precise regulation of MAPKs is fundamental for cell physiology, fungi bear dual specificity phosphatases (DUSPs) that act as MAP kinase phosphatases (MKPs). Whereas fungal MKPs share characteristic domains of this phosphatase subfamily, they also have specific interaction motifs and particular activation mechanisms, which, for example, allow some yeast MKPs, such as Saccharomyces cerevisiae Sdp1, to couple oxidative stress with substrate recognition. Model yeasts show that MKPs play a key role in the modulation of MAPK signaling flow. Mutants affected in S. cerevisiae Msg5 or in Schizosaccharomyces pombe Pmp1 display MAPK hyperactivation and specific phenotypes. MKPs from virulent fungi, such as Candida albicans Cpp1, Fusarium graminearum Msg5, and Pyricularia oryzae Pmp1, are relevant for pathogenicity. Apart ...
FEMS microbiology letters, Jan 30, 2018
The Small World Initiative (SWI) is a consolidated and successful education program rooted in the... more The Small World Initiative (SWI) is a consolidated and successful education program rooted in the USA that tackles the antibiotic crisis by a crowdsourcing strategy. Based on active learning, it challenges young students to discover novel bioactive-producing microorganisms form environmental soil samples. Besides its pedagogical efficiency to impart Microbiology contents in academic curricula, SWI promotes vocations on research and development in Experimental Sciences and, at the same time, disseminates the antibiotic awareness guidelines of the World Health Organization (WHO). We have adapted the SWI program to the Spanish academic environment by a pioneering hierarchic strategy based on service-learning that involves two education levels (higher education and high school) with different degrees of responsibility. Along the academic year, 23 SWI teams each consisting of 3-7 undergraduate students led by one faculty member have coordinated off-campus programs in 22 local high school...
Methods in molecular biology (Clifton, N.J.), 2016
Mitogen activated protein kinases (MAPK) pathways play a key role in orchestrating the eukaryotic... more Mitogen activated protein kinases (MAPK) pathways play a key role in orchestrating the eukaryotic cellular response to different stimuli. In this process, phosphorylation of both conserved threonine and tyrosine residues of MAPKs is essential for their activation. Identification of tyrosine and dual specificity protein phosphatases capable of dephosphorylating these phosphosites is thus critical to gain insight into their regulation. Due to the conservation of pivotal elements in eukaryotic signaling, yeast has turned into a valuable tool to increase the knowledge of MAPK signaling in other cell types. Here we describe an in vivo method to evaluate the capacity of a protein, from yeast or other origin, to act as a MAPK phosphatase. It relies on the ability of the phosphatase to reduce, when overexpressed, both the amount of activated MAPK and the transcription from a specific promoter regulated by the corresponding pathway. To this end, the pathway has to be previously activated, pr...
The Journal of biological chemistry, Jan 19, 2016
The yeast cell wall integrity (CWI) MAPK Slt2 mediates the transcriptional response to cell wall ... more The yeast cell wall integrity (CWI) MAPK Slt2 mediates the transcriptional response to cell wall alterations through phosphorylation of transcription factors Rlm1 and SBF. However, the variety of cellular functions regulated by Slt2 suggests the existence of a significant number of still unknown substrates for this kinase. To identify novel Slt2 targets, we generated and characterized an analog-sensitive mutant of Slt2 (Slt2-as) that can be specifically inhibited by bulky kinase inhibitor analogs. We demonstrated that Slt2-as is able to use ATPγS analogs to thiophosphorylate its substrates in yeast cell extracts as well as when produced as recombinant proteins in E. coli. Taking advantage of this chemical-genetic approach, we found that Slt2 phosphorylates the MAPK phosphatase Msg5 both in the N-terminal regulatory and C-terminal catalytic domains. Moreover, we identified the calcineurin regulator Rcn2, the 4E-BP translation repressor protein Caf20, and the Golgi-associated adaptor ...
Genetics, Jan 6, 2015
The Saccharomyces cerevisiae type 2C protein phosphatase Ptc1 is required for a wide variety of c... more The Saccharomyces cerevisiae type 2C protein phosphatase Ptc1 is required for a wide variety of cellular functions, although only a few cellular targets have been identified. A genetic screen in search of mutations in protein kinase encoding genes able to suppress multiple phenotypic traits caused by the ptc1 deletion yielded a single gene, MKK1, coding for a MAP kinase kinase (MAPKK) known to activate the cell wall integrity (CWI) Slt2 MAP kinase. In contrast, mutation of the MKK1 paralog, MKK2, had a less significant effect. Deletion of MKK1 abolished the increased phosphorylation of Slt2 induced by the absence of Ptc1 both under basal or CWI pathway stimulatory conditions. We demonstrate that Ptc1 acts at the level of the MAPKKs of the CWI pathway, but only the Mkk1 kinase activity is essential for ptc1 mutants to display high Slt2 activation. We also show that Ptc1 is able to dephosphorylate Mkk1 in vitro. Our results reveal the preeminent role of Mkk1 in signaling through the C...
Current Genetics
We have further characterized the functionality of the Saccharomyces cerevisiae gene SLT2(MPK1), ... more We have further characterized the functionality of the Saccharomyces cerevisiae gene SLT2(MPK1), coding for a MAP-kinase homolog essential for cell integrity, which is involved in the Pkc1p signalling pathway. This gene was isolated on the basis of its capacity to complement the thermosensitive-autolytic, osmotic-remediable phenotype of lyt2 mutants. Both slt2delta and lyt2 mutants displayed a caffeine-sensitive phenotype consisting of cell lysis that was not dependent on temperature. Caffeine concentrations affecting the growth of these mutant strains were dependent on the genetic background, the SSD1 allele being very significant in this regard. The SLT2 allele of several lyt2 strains was both rescued and amplified by PCR. The recovered allele was shown to be non-functional as it could not complement the lytic phenotype of both deletion (slt2delta) and lyt2 strains. After nucleotide sequencing of the recovered allele, we found that the defect of lyt2 mutants consists in a substitu...
Fungal genetics and biology : FG & B, Jan 28, 2015
The lack of signaling through MAPK pathways leads to a defective cellular response to the corresp... more The lack of signaling through MAPK pathways leads to a defective cellular response to the corresponding stimulus, but an improper hyperactivation of these routes results in deleterious effects as well. Protein phosphorylation is an activating modification for signal transmission through components of MAPK pathways and thus, protein phosphatases are key negative regulators of these cellular routes by limiting excessive signaling activity. However, in contrast to most of the protein kinases operating in MAPK pathways, protein phosphatases usually exhibit redundancy and promiscuity, which has limited the identification of their function. In order to identify new putative phosphatases operating in Saccharomyces cerevisiae MAPK signaling, we have taken advantage of growth inhibition promoted by overproduction of constitutively active components of the mating and cell wall integrity (CWI) pathways to perform a screen with a collection of 43 protein phosphatases or phosphatase-regulatory p...