The stringent response regulates the poly-ß-hydroxybutyrate (PHB) synthesis in Azotobacter vinelandii.

The stringent response exerted by (p)ppGpp and RNA-polymerase binding protein DksA regulates gene expression in diverse bacterial species. To control gene expression (p)ppGpp, synthesized by enzymes RelA and SpoT, interacts with two sites within the RNA polymerase; site 1, located in the interphase between subunits ß' and ω (rpoZ), and site 2 located in the secondary channel that is dependent on DksA protein. In Escherichia coli, inactivation of dksA results in a reduced sigma factor RpoS expression. In Azotobacter vinelandii the synthesis of polyhydroxybutyrate (PHB) is under RpoS regulation. In this study, we found that the inactivation of relA or dksA, but not rpoZ, resulted in a negative effect on PHB synthesis. We also found that the dksA, but not the relA mutation reduced both rpoS transcription and RpoS protein levels, implying that (p)ppGpp and DksA control PHB synthesis through different mechanisms. Interestingly, despite expressing rpoS from a constitutive promoter in the dksA mutant, PHB synthesis was not restored to wild type levels. A transcriptomic analysis in the dksA mutant, revealed downregulation of genes encoding enzymes needed for the synthesis of acetyl-CoA, the precursor substrate for PHB synthesis. Together, these data indicate that DksA is required for optimal expression of RpoS which in turn activates transcription of genes for PHB synthesis. Additionally, DksA is required for optimal transcription of genes responsible for the synthesis of precursors for PHB synthesis.

The Azotobacter vinelandii AlgU regulon during vegetative growth and encysting conditions: A proteomic approach.

In the Pseduomonadacea family, the extracytoplasmic function sigma factor AlgU is crucial to withstand adverse conditions. Azotobacter vinelandii, a closed relative of Pseudomonas aeruginosa, has been a model for cellular differentiation in Gram-negative bacteria since it forms desiccation-resistant cysts. Previous work demonstrated the essential role of AlgU to withstand oxidative stress and on A. vinelandii differentiation, particularly for the positive control of alginate production. In this study, the AlgU regulon was dissected by a proteomic approach under vegetative growing conditions and upon encystment induction. Our results revealed several molecular targets that explained the requirement of this sigma factor during oxidative stress and extended its role in alginate production. Furthermore, we demonstrate that AlgU was necessary to produce alkyl resorcinols, a type of aromatic lipids that conform the cell membrane of the differentiated cell. AlgU was also found to positively regulate stress resistance proteins such as OsmC, LEA-1, or proteins involved in trehalose synthesis. A position-specific scoring-matrix (PSSM) was generated based on the consensus sequence recognized by AlgU in P. aeruginosa, which allowed the identification of direct AlgU targets in the A. vinelandii genome. This work further expands our knowledge about the function of the ECF sigma factor AlgU in A. vinelandii and contributes to explains its key regulatory role under adverse conditions.

Defining the regulatory mechanisms of sigma factor RpoS degradation in Azotobacter vinelandii and Pseudomonas aeruginosa.

In several Gram-negative bacteria, the general stress response is mediated by the alternative sigma factor RpoS, a subunit of RNA polymerase that confers promoter specificity. In Escherichia coli, regulation of protein levels of RpoS involves the adaptor protein RssB, which binds RpoS for presenting it to the ClpXP protease for its degradation. However, in species from the Pseudomonadaceae family, RpoS is also degraded by ClpXP, but an adaptor has not been experimentally demonstrated. Here, we investigated the role of an E. coli RssB-like protein in two representative Pseudomonadaceae species such as Azotobacter vinelandii and Pseudomonas aeruginosa. In these bacteria, inactivation of the rssB gene increased the levels and stability of RpoS during exponential growth. Downstream of rssB lies a gene that encodes a protein annotated as an anti-sigma factor antagonist (rssC). However, inactivation of rssC in both A. vinelandii and P. aeruginosa also increased the RpoS protein levels, suggesting that RssB and RssC work together to control RpoS degradation. Furthermore, we identified an in vivo interaction between RssB and RpoS only in the presence of RssC using a bacterial three-hybrid system. We propose that both RssB and RssC are necessary for the ClpXP-dependent RpoS degradation during exponential growth in two species of the Pseudomonadaceae family.

The ribosome rescue pathways SsrA-SmpB, ArfA, and ArfB mediate tolerance to heat and antibiotic stresses in Azotobacter vinelandii.

Bacteria have a mechanism to rescue stalled ribosomes known as trans-translation consisting of SsrA, a transfer-messenger RNA (tmRNA), and the small protein SmpB. Other alternative rescue mechanisms mediated by ArfA and ArfB proteins are present only in some species. Ribosome rescue mechanisms also play a role in tolerance to antibiotics and various stresses such as heat. This study shows that the genome of the soil bacterium A. vinelandii harbours genes encoding for tmRNA, SmpB, two paralogs of ArfA (arfA1 and arfA2), and ArfB. A number of mutant strains carrying mutations in the ssrA, arfA1, arfA2, and arfB genes were constructed and tested for their growth and susceptibility to heat and the antibiotic tetracycline. We found that the inactivation of both ssrA and one or the two arfA genes was detrimental to growth and caused a higher susceptibility to heat and to the antibiotic tetracycline. Interestingly, the arfB mutant strain was unable to grow after 2 h of incubation at 45°C. Inactivation of arfB in the ssrA-arfA1-arfA2 strain caused a lethal phenotype since the quadruple mutant could not be isolated. Taken together, our data suggest that both arfA1 and arfA2, as well as arfB, are functional as back up mechanisms, and that the ArfB pathway has an essential role that confers A. vinelandii resistance to high temperatures.

Hábitos tabáquicos de los padres de los niños de nuestra consulta / Smoking habits of parents of children in our practice

Introducción: el tabaquismo pasivo está infravalorado, no solo por las familias sino también por la sociedad. Presentamos los resultados de encuestas realizadas a los padres en consultas de Pediatría de nuestra Área Básica durante tres semanas. Describimos y analizamos nuestra experiencia. Material y métodos: estudio observacional, descriptivo, transversal, realizado las semanas del 27 al 31 de mayo de 2019 (“Semana sin humo”), dos antes y dos después. Resultados: el 72,26% de los padres se reconocieron no fumadores; de ellos, el 68,72% nunca había fumado. De los fumadores, la media de edad de comienzo fue 17,04 años, con un rango de 10 a 38. El 76,54% de los padres fumadores habían pensado dejarlo alguna vez. En el 77,78% de los fumadores, el hecho de tener hijos podría influir en la decisión de dejarlo. Los resultados fueron similares las tres semanas de realización de las encuestas. Conclusiones: la mayoría de los padres encuestados no fumaba, además la mayoría no había fumado nunca. Llama la atención la precocidad en el inicio del hábito tabáquico, así como que la mayoría de los fumadores había pensado en dejarlo, y el hecho de tener un hijo influiría en la decisión de dejarlo. Son precisas intervenciones eficaces para reducir la exposición precoz al tabaco, para mejorar la salud del niño y, por lo tanto, del adulto (AU)

Introduction: the impact of passive smoking is underestimated, not only by families but also by society at large. We present the results of a survey of parents conducted in the paediatric clinics of our catchment area over 3 weeks. We describe and analyse the findings of the survey.Material and methods: we conducted a cross-sectional, observational and descriptive study over 3 weeks between May 27-31, 2019 including the “Week without smoke” and the weeks 2 weeks before and 2 weeks after.Results: 72.26% of the parents reported not smoking. In the group of nonsmokers, 68.72% had never smoked. The mean age at initiation of smoking was 17.04 years, with a range of 10 to 38 years. Of all smoking parents, 76.54% had considered quitting. In addition, 77.78% of the smoking parents considered that having a child could influence the decision to quit smoking. The results were similar in the 3 weeks that data were collected.Conclusions: most of the parents surveyed did not smoke, and most of the nonsmokers had never smoked. We ought to highlight the early age at which participants started to smoke and that most smokers had never contemplated quitting, as well as the fact that most considered that having a child would influence that decision. Effective interventions are needed to reduce early exposure to tobacco smoke and to improve child health and therefore adult health. (AU)

PsrA positively regulates the unsaturated fatty acid synthesis operon fabAB in Azotobacter vinelandii.

In Pseudomonas spp. PsrA, a transcriptional activator of the rpoS gene, regulates fatty acid catabolism by repressing the fadBA5 ß-oxidation operon. In Azotobacter vinelandii, a soil bacterium closely related to Pseudomonas species, PsrA is also an activator of rpoS expression, although its participation in the regulation of lipid metabolism has not been analyzed. In this work we found that inactivation of psrA had no effect on the expression of ß-oxidation genes in this bacterium, but instead decreased expression of the unsaturated fatty acid biosynthetic operon fabAB (3-hydroxydecanoyl-ACP dehydratase/isomerase and 3-ketoacyl-ACP synthase I). This inactivation also reduced the unsaturated fatty acid content, as revealed by the thin-layer chromatographic analysis, and confirmed by gas chromatography; notably, there was also a lower content of cyclopropane fatty acids, which are synthesized from unsaturated fatty acids. The absence of PsrA has no effect on the growth rate, but showed loss of cell viability during long-term growth, in accordance with the role of these unsaturated and cyclopropane fatty acids in the protection of membranes. Finally, an electrophoretic mobility shift assay revealed specific binding of PsrA to the fabA promoter region, where a putative binding site for this regulator was located. Taken together, our data show that PsrA plays an important role in the regulation of unsaturated fatty acids metabolism in A. vinelandii by positively regulating fabAB.

Cyclic di-GMP-Mediated Regulation of Extracellular Mannuronan C-5 Epimerases Is Essential for Cyst Formation in Azotobacter vinelandii.

The genus Azotobacter, belonging to the Pseudomonadaceae family, is characterized by the formation of cysts, which are metabolically dormant cells produced under adverse conditions and able to resist desiccation. Although this developmental process has served as a model for the study of cell differentiation in Gram-negative bacteria, the molecular basis of its regulation is still poorly understood. Here, we report that the ubiquitous second messenger cyclic dimeric GMP (c-di-GMP) is critical for the formation of cysts in Azotobacter vinelandii Upon encystment induction, the levels of c-di-GMP increased, reaching a peak within the first 6 h. In the absence of the diguanylate cyclase MucR, however, the levels of this second messenger remained low throughout the developmental process. A. vinelandii cysts are surrounded by two alginate layers with variable proportions of guluronic residues, which are introduced into the final alginate chain by extracellular mannuronic C-5 epimerases of the AlgE1 to AlgE7 family. Unlike in Pseudomonas aeruginosa, MucR was not required for alginate polymerization in A. vinelandii Conversely, MucR was necessary for the expression of extracellular alginate C-5 epimerases; therefore, the MucR-deficient strain produced cyst-like structures devoid of the alginate capsule and unable to resist desiccation. Expression of mucR was partially dependent on the response regulator AlgR, which binds to two sites in the mucR promoter, enhancing mucR transcription. Together, these results indicate that the developmental process of A. vinelandii is controlled through a signaling module that involves activation by the response regulator AlgR and c-di-GMP accumulation that depends on MucR.IMPORTANCEA. vinelandii has served as an experimental model for the study of the differentiation processes to form metabolically dormant cells in Gram-negative bacteria. This work identifies c-di-GMP as a critical regulator for the production of alginates with specific contents of guluronic residues that are able to structure the rigid laminated layers of the cyst envelope. Although allosteric activation of the alginate polymerase complex Alg8-Alg44 by c-di-GMP has long been recognized, our results show a previously unidentified role during the polymer modification step, controlling the expression of extracellular alginate epimerases. Our results also highlight the importance of c-di-GMP in the control of the physical properties of alginate, which ultimately determine the desiccation resistance of the differentiated cell.

The evolution of opioid-related mortality and potential years of life lost in Spain from 2008 to 2017: differences between Spain and the United States.

Objective: To investigate the evolution of opioid-related mortality and potential years of life lost in Spanish general population from 2008 to 2017. To evaluate the differences between Spain and the US.Methods: A descriptive study using retrospective annual data from 2008 to 2017 in Spanish and US general population. Information on the population and opioid-related deaths stratified by age and sex was obtained from Spanish National Statistics Institute and the Centers for Disease Control and Prevention (CDC) WONDER Multiple Cause of Death Database, according to the ICD-10 codes. Years of life lost, crude and standardized mortality rates are reported and compared with the results in US.Results: Crude rate of opioid-related deaths per 105 inhabitants has changed from 1.68 in 2008 to 2.25 in 2017 in Spain, with around 30,000 years of life lost per year. The most affected groups were middle-aged men and women over 65, and the main cause of death was accidental poisoning. The standardized rates per 105 inhabitants across the years were between 1.19 and 1.62 in Spain and between 11.17 and 20.68 in the US population.Conclusions: An opioid overuse crisis does not seem a likely scenario in Spain. However, it is a social problem that requires special health surveillance, particularly in middle-aged men and women over 65.

¿Explicamos bien la dosificación de vitamina D profiláctica en lactantes? A propósito de dos casos de sobredosificación / Do we explain well how to dose the vitamin D in infants? About two cases of overdose

En la actualidad parece haber consenso en la recomendación de administración de 400 unidades internacionales de vitamina D al día, durante el primer año de vida, en todos los lactantes sanos alimentados con lactancia materna o leche de fórmula, hasta que ingieran al menos un litro diario de leche de fórmula adaptada enriquecida en vitamina D. En este momento hay varias presentaciones comerciales de vitamina D, lo que puede llevar a errores en su dosificación si no se tiene en cuenta la concentración exacta por gotas o mililitros en cada una de ellas. Presentamos los casos de dos lactantes con sobredosificación de vitamina D por error en la administración de la cantidad de esta por parte de los padres. Pese a ello no hubo repercusión clínica en ninguno de ellos

It seems clear the consensus in the recommendation of the administration of 400 international units of vitamin D per day during the first year of life, in all the healthy children that are breastfed or fed with artificial formula, until they take at least one liter of fortified in vitamin D adapted formula per day. The different commercial presentations that are nowadays available, can conduce to make mistakes, if we don't take into account the exact concentration of vitamin D per drop or milliliters. We present two cases of lactating children with a vitamin D overdose, due to the misunderstanding of its administration by parents. Despite this, no clinical repercussion happened in both of them

Outer membrane protein I is associated with poly-ß-hydroxybutyrate granules and is necessary for optimal polymer accumulation in Azotobacter vinelandii on solid medium.

Azotobacter vinelandii is a soil bacterium that is able to synthesize poly-ß-hydroxybutyrate (PHB), a polymer used to produce biodegradable plastic. PHB is stored in the cytoplasm as granules surrounded by several proteins such as the major phasin PhbP, PHB synthase and PHB depolymerase, among others. Many studies have reported the presence of membrane proteins on PHB granules due to contamination during the polymer extraction procedures. Previously, the outer membrane protein I (OprI) was detected on the polymer granules in A. vinelandii. In this study, by using random transposon mutagenesis, we identified that a mutation in the oprI gene diminished PHB accumulation in A. vinelandii on solid medium. Electron microscopy confirmed the low polymer production by the oprI mutant. Analysis of PHB granules by Tricine-SDS-PAGE revealed that the absence of OprI affected the protein profile of the granules, suggesting that OprI could have a structural role in A. vinelandii. Thus, some membrane proteins on PHB granules may not be artefacts as previously described.

Expression of the sRNAs CrcZ and CrcY modulate the strength of carbon catabolite repression under diazotrophic or non-diazotrophic growing conditions in Azotobacter vinelandii.

Azotobacter vinelandii is a nitrogen-fixing bacterium of the Pseudomonadaceae family that prefers the use of organic acids rather than carbohydrates. Thus, in a mixture of acetate-glucose, glucose is consumed only after acetate is exhausted. In a previous work, we investigated the molecular basis of this carbon catabolite repression (CCR) process under diazotrophic conditions. In the presence of acetate, Crc-Hfq inhibited translation of the gluP mRNA, encoding the glucose transporter in A. vinelandii. Herein, we investigated the regulation in the expression of the small non-coding RNAs (sRNAs) crcZ and crcY, which are known to antagonize the repressing activity of Hfq-Crc. Our results indicated higher expression levels of the sRNAs crcZ and crcY under low CCR conditions (i.e. glucose), in relation to the strong one (acetate one). In addition, we also explored the process of CCR in the presence of ammonium. Our results revealed that CCR also occurs under non-diazotrophic conditions as we detected a hierarchy in the utilization of the supplied carbon sources, which was consistent with the higher expression level of the crcZ/Y sRNAs during glucose catabolism. Analysis of the promoters driving transcription of crcZ and crcY confirmed that they were RpoN-dependent but we also detected a processed form of CrcZ (CrcZ*) in the RpoN-deficient strain derived from a cbrB-crcZ co-transcript. CrcZ* was functional and sufficient to allow the assimilation of acetate.

The pyrophosphohydrolase RppH is involved in the control of RsmA/CsrA expression in Azotobacter vinelandii and Escherichia coli.

In bacteria, the 5'-end-dependent RNA degradation is triggered by the RNA pyrophosphohydrolase RppH converting tri/diphosphate to monophosphate transcripts. This study shows that in the soil bacterium Azotobacter vinelandii, inactivation of rppH gene negatively affected the production of bioplastic poly-ß-hydroxybutyrate (PHB) by reducing the expression at the translational level of PhbR, the specific transcriptional activator of the phbBAC biosynthetic operon. The effect of RppH on the translation of phbR seemed to be exerted through the translational repressor RsmA, as the inactivation of rsmA in the rppH mutant restored the phbR expression. Interestingly, in Escherichia coli inactivation of rppH also affected the expression of CsrA, the RsmA homolog. The level of the csrA transcript was higher and more stable in the E. coli rppH mutant than in the wild type strain. Additionally, and in contrast to the csrA mutants that are known to have a defective swimming phenotype, the E. coli rppH mutant showed a hyper-swimming phenotype that was suppressed by a csrA mutation, and the AvRppH restored to wild type level the swimming phenotype to the E. coli rppH mutant. We propose that in both A. vinelandii and E. coli, RppH activity plays a role in the expression of the translational regulator protein RsmA/CsrA.

Parálisis facial periférica recidivante / Recurrent peripheral facial paralysis

La parálisis de Bell es la parálisis facial más frecuente en la infancia. Su causa es desconocida. En ausencia de signos de alerta, una cuidadosa exploración física suele ser suficiente para el diagnóstico, y las exploraciones complementarias no suelen ser necesarias ante una parálisis facial unilateral periférica aislada sin otros síntomas. La mayoría se recuperan espontáneamente y las recurrencias son infrecuentes. Se presenta el caso de una chica de 14 años de edad, que a los ocho años tuvo un primer episodio de parálisis facial periférica, y que ha vuelto a presentar cuatro parálisis faciales periféricas más. Ante la repetición del cuadro se hicieron pruebas complementarias en las que no se llegó a observar ninguna causa. Pese a la recurrencia de los episodios y la preocupación familiar y profesional que pudo suponer cada uno de ellos, la evolución hasta el momento actual ha sido satisfactoria, con una mímica facial normal (AU)

Bell's palsy is the most frequent facial paralysis in childhood. Its etiology is unknown. If warning signs are not present, an accurate physical examination is normally enough for the diagnosis, and complementary explorations are not usually necessary in case of unilateral isolated peripheral facial paralysis without other symptoms. Most recover spontaneously, and recurrences are uncommon. We present the case of a 14-year old girl, who had the first episode of peripheral facial palsy when she was eight years old, and who has presented four more episodes later. Due to the repetition of the clinical features, complementary tests were carried out, but no etiology was found. Despite of the recurrence of episodes and the family and professional concern, the evolution until the current moment has been satisfactory, with a normal facial mimic (AU)

LEA proteins are involved in cyst desiccation resistance and other abiotic stresses in Azotobacter vinelandii.

Late embryogenesis abundant (LEA) proteins constitute a large protein family that is closely associated with resistance to abiotic stresses in multiple organisms and protect cells against drought and other stresses. Azotobacter vinelandii is a soil bacterium that forms desiccation-resistant cysts. This bacterium possesses two genes, here named lea1 and lea2, coding for avLEA1 and avLEA2 proteins, both containing 20-mer motifs characteristic of eukaryotic plant LEA proteins. In this study, we found that disruption of the lea1 gene caused a loss of the cysts' viability after 3 months of desiccation, whereas at 6 months, wild-type or lea2 mutant strain cysts remained viable. Vegetative cells of the lea1 mutant were more sensitive to osmotic stress; cysts developed by this mutant were also more sensitive to high temperatures than cysts or vegetative cells of the wild type or of the lea2 mutant. Expression of lea1 was induced several fold during encystment. In addition, the protective effects of these proteins were assessed in Escherichia coli cells. We found that E. coli cells overexpressing avLEA1 were more tolerant to salt stress than control cells; finally, in vitro analysis showed that avLEA1 protein was able to prevent the freeze thaw-induced inactivation of lactate dehydrogenase. In conclusion, avLEA1 is essential for the survival of A. vinelandii in dry conditions and for protection against hyper-osmolarity, two major stress factors that bacteria must cope with for survival in the environment. This is the first report on the role of bacterial LEA proteins on the resistance of cysts to desiccation.

Unphosphorylated EIIANtr induces ClpAP-mediated degradation of RpoS in Azotobacter vinelandii.

The nitrogen-related phosphotransferase system (PTSNtr ) is composed of the EINtr , NPr and EIIANtr proteins that form a phosphorylation cascade from phosphoenolpyruvate. PTSNtr is a global regulatory system present in most Gram-negative bacteria that controls some pivotal processes such as potassium and phosphate homeostasis, virulence, nitrogen fixation and ABC transport activation. In the soil bacterium Azotobacter vinelandii, unphosphorylated EIIANtr negatively regulates the expression of genes related to the synthesis of the bioplastic polyester poly-ß-hydroxybutyrate (PHB) and cyst-specific lipids alkylresorcinols (ARs). The mechanism by which EIIANtr controls gene expression in A. vinelandii is not known. Here, we show that, in presence of unphosphorylated EIIANtr , the stability of the stationary phase sigma factor RpoS, which is necessary for transcriptional activation of PHB and ARs synthesis related genes, is reduced, and that the inactivation of genes coding for ClpAP protease complex in strains that carry unphosphorylated EIIANtr , restored the levels and in vivo stability of RpoS, as well as the synthesis of PHB and ARs. Taken together, our results reveal a novel mechanism, by which EIIANtr globally controls gene expression in A. vinelandii, where the unphosphorylated EIIANtr induces the degradation of RpoS by the proteolytic complex ClpAP.

GacA regulates the PTSNtr-dependent control of cyst formation in Azotobacter vinelandii.

Azotobacter vinelandii forms cysts resistant to desiccation and produces polyhydroxybutyrate (PHB), alginate and alkylresorcinols (ARs) that are components of mature cysts. The expression of genes involved in the synthesis of these compounds is under the control of the GacA-RsmA global regulatory system where the RsmA protein represses the translation of mRNAs involved in the synthesis of these polymers. The synthesis of PHB and ARs is also controlled by the Nitrogen-regulated phosphotransferase system (PTSNtr) global regulatory system. When unphosphorylated, the Enzyme IIANtr (EIIANtr) protein impairs the synthesis of PHB and ARs. Here we show that cells of gacA mutants, as well as mutants that carry the EIIANtr protein in its unphosphorylated state, have similar encysting negative phenotypes. Interestingly, we found that in the gacA mutant strain, the EIIANtr protein was present in its unphosphorylated state. These data indicated that in addition to the GacA-RsmA system, GacA controls polymer synthesis and encystment by controlling the phosphorylation of the EIIANtr, revealing a previously unrecognized link between GacA and PTSNtr.

The GacS/A-RsmA Signal Transduction Pathway Controls the Synthesis of Alkylresorcinol Lipids that Replace Membrane Phospholipids during Encystment of Azotobacter vinelandii SW136.

Azotobacter vinelandii is a soil bacterium that undergoes a differentiation process that forms cysts resistant to desiccation. During encystment, a family of alkylresorcinols lipids (ARs) are synthesized and become part of the membrane and are also components of the outer layer covering the cyst, where they play a structural role. The synthesis of ARs in A. vinelandii has been shown to occur by the activity of enzymes encoded in the arsABCD operon. The expression of this operon is activated by ArpR, a LysR-type transcriptional regulator whose transcription occurs during encystment and is dependent on the alternative sigma factor RpoS. In this study, we show that the two component response regulator GacA, the small RNA RsmZ1 and the translational repressor protein RsmA, implicated in the control of the synthesis of other cysts components (i.e., alginate and poly-ß-hydroxybutyrate), are also controlling alkylresorcinol synthesis. This control affects the expression of arsABCD and is exerted through the regulation of arpR expression. We show that RsmA negatively regulates arpR expression by binding its mRNA, repressing its translation. GacA in turn, positively regulates arpR expression through the activation of transcription of RsmZ1, that binds RsmA, counteracting its repressor activity. This regulatory cascade is independent of RpoS. We also show evidence suggesting that GacA exerts an additional regulation on arsABCD expression through an ArpR independent route.

The unphosphorylated EIIA(Ntr) protein represses the synthesis of alkylresorcinols in Azotobacter vinelandii.

Upon encystment induction, Azotobacter vinelandii produces the phenolic lipids alkylresorcinols (ARs) that are structural components of the cysts. The enzymes responsible for the ARs synthesis are encoded in the arsABCD operon, whose expression is activated by ArpR. The transcription of arpR is initiated from an RpoS dependent promoter. The nitrogen-related phosphotransferase system (PTS(Ntr)) is a global regulatory system present in Gram negative bacteria. It comprises the EI(Ntr), NPr and EIIA(Ntr) proteins encoded by ptsP, ptsO and ptsN genes respectively. These proteins participate in a phosphoryl-group transfer from phosphoenolpyruvate to protein EIIA(Ntr) via the phosphotransferases EI(Ntr) and NPr. In A. vinelandii, the non-phosphorylated form of EIIA(Ntr) was previously shown to repress the synthesis of poly-ß-hydroxybutyrate. In this work, we show that PTS(Ntr) also regulates the synthesis of ARs. In a strain that carries unphosphorylated EIIA(Ntr), the expression of arpR was reduced, while synthesis of ARs and transcription of arsA were almost abrogated. The expression of arpR from an RpoS-independent promoter in this strain restored the ARs synthesis. Taken together these results indicate that unphosphorylated EIIA(Ntr) negatively affects activation of arpR transcription by RpoS.

A small heat-shock protein (Hsp20) regulated by RpoS is essential for cyst desiccation resistance in Azotobacter vinelandii.

In Azotobacter vinelandii, a cyst-forming bacterium, the alternative sigma factor RpoS is essential to the formation of cysts resistant to desiccation and to synthesis of the cyst-specific lipids, alkylresorcinols. In this study, we carried out a proteome analysis of vegetative cells and cysts of A. vinelandii strain AEIV and its rpoS mutant derivative AErpoS. This analysis allowed us to identify a small heat-shock protein, Hsp20, as one of the most abundant proteins of cysts regulated by RpoS. Inactivation of hsp20 did not affect the synthesis of alkylresorcinols or the formation of cysts with WT morphology; however, the cysts formed by the hsp20 mutant strain were unable to resist desiccation. We also demonstrated that expression of hsp20 from an RpoS-independent promoter in the AErpoS mutant strain is not enough to restore the phenotype of resistance to desiccation. These results indicate that Hsp20 is essential for the resistance to desiccation of A. vinelandii cysts, probably by preventing the aggregation of proteins caused by the lack of water. To our knowledge, this is the first report of a small heat-shock protein that is essential for desiccation resistance in bacteria.

Posttranscriptional regulation of PhbR, the transcriptional activator of polyhydroxybutyrate synthesis, by iron and the sRNA ArrF in Azotobacter vinelandii.

Azotobacter vinelandii is a Gram-negative bacterium able to synthesize poly-ß-hydroxybutyrate (PHB), a biodegradable plastic of industrial interest. The phbBAC operon encodes the enzymes of PHB synthesis and is activated by the transcriptional regulator PhbR and the sigma factor RpoS. Iron limitation has been previously reported to increase PHB accumulation in A. vinelandii; however, the mechanism by which iron controls PHB synthesis is unknown. Under iron starvation in Escherichia coli, the RyhB sRNA modulates the translation of genes involved in iron homeostasis. ArrF is the RyhB analogue in A. vinelandii and similarly increases in quantity during Fe(2+) depletion. In this study, we evaluate the effect of iron and ArrF on PHB accumulation, and on phbR and phbBAC expression in A. vinelandii strain UW136. Using transcriptional and translational fusions of phbR and phbB with gusA reporter gene, we found that iron limitation increased the expression of phbBAC at the transcriptional level and posttranscriptionally increased the expression of phbR. We also found that the ArrF sRNA is a positive regulator of phbR expression at the posttranscriptional level. Collectively, these data suggest that iron limitation increases the translation of phbR through ArrF.