Caracterização da superexpressão do fator sigma ECF σx em Pseudomonas aeruginosa PA14 / Characterization ofthe ECF sigma fator σx overexpression in Pseudomonas aeruginosa PA14.

Boechat Borges, Ana Laura

05 July 2013

Pseudomonas aeruginosa é uma proteobactéria do grupo gama muito versátil, capaz de colonizar ambientes variados e infectar hospedeiros filogeneticamente distintos, incluindo humanos imunocomprometidos. Os fatores sigma de função extracitoplasmática (ECF) são membros de sistemas de sinalização de superfície celular (CSS), abundantes em P. aeruginosa. Vinte genes codificando fatores sigma ECF estão presentes nos genomas sequenciados de P. aeruginosa, a maioria fazendo parte de sistemas TonB relacionados à captação de ferro. Neste trabalho, seis fatores sigma pobremente caracterizados foram superexpressos na linhagem PA14 a partir de um promotor induzível por arabinose para investigar seu papel na expressão dos sistemas de dois componentes PvrSR e RcsCB, que atuam na regulação da fímbria CupD, além de sua influência no crescimento de culturas de P. aeruginosa. Não foi observado efeito positivo de nenhum dos fatores sigma testados na expressão dos sistemas de dois componentes e a superexpressão de cinco deles tampouco levou a qualquer alteração no crescimento, porém a produção de piocianina foi alterada na superexpressão de PA14_55550 e a superexpressão de PA14_26600 e PA14_46810 levou a um discreto aumento no início da formação de biofilme em PA14. Por outro lado, culturas superexpressando σx (ALB04) apresentaram um perfil alterado de lipopolissacarídeo e uma curva de crescimento bifásica, alcançando precocemente uma fase estacionária seguida de uma recuperação do crescimento até uma segunda fase estacionária. Durante a primeira fase estacionária, a maior parte das células aumenta de tamanho e morre, mas as células remanescentes retornam à morfologia selvagem e seguem para a segunda fase de crescimento exponencial. Isso não acontece devido a mutações compensatórias, uma vez que células coletadas de pontos tardios da curva e diluídas em meio novo repetem este comportamento. Apesar de trabalhos com a linhagem PAO1 associarem σx à transcrição de oprF, que codifica a principal porina não específica de Pseudomonas, nas condições dos nossos ensaios em PA14 a expressão dessa porina não foi induzida pela superexpressão de σx. Assim, os efeitos observados nessa superexpressão também não podem ser atribuídos a OprF. A transcrição de oprF em PA14 mostrou-se majoritariamente dependente da região promotora a que se atribui a ligação de σ70, ao contrário dos relatos na literatura da dependência da região de ligação a σx. Análises proteômicas foram realizadas para investigar os elementos envolvidos nesses efeitos de superexpressão de σx, o que revelou a indução de diversas enzimas envolvidas na via de biossíntese de ácidos graxos. As células superexpressando σx apresentam uma maior proporção de ácidos hexadecanoico (C16) e hexadecenoico (C16:1) e dados de anisotropia mostram uma maior fluidez da(s) membrana(s). Este trabalho é o primeiro relato de um fator sigma ECF envolvido em biossíntese de lipídeos em P. aeruginosa. / Pseudomonas aeruginosa is a very versatile gammaproteobacteria, able to colonize different environments and to infect phylogenetically distinct hosts, including immunocompromised humans. The extracytoplasmic function sigma factors (ECFs) are members of cell signaling systems (CSS), abundant in P. aeruginosa. Twenty genes coding for ECF sigma factors are present in the sequenced genomes of P. aeruginosa, most of them being part of TonB systems related to iron uptake. In this work, six poorly characterized sigma factors were overexpressed in strain PA14 from an arabinose inducible promoter to investigate their role in the expression of the two-component systems PvrSR and RcsCB, which regulates CupD fimbria, and their influence in P. aeruginosa cultures growth. None of the tested sigma factors led to two-component systems upregulation and overexpression of five of them caused no change in the growth profile, but pyocyanin production was altered in PA14_55550 overexpression and PA14_26600 and PA14_46810 overexpression led to a slight increase in biofilm initiation in PA14. By the other side, cultures overexpressing σx (ALB04) presented an altered lipopolysaccharide profile and a biphasic growth curve, reaching an early stationary phase followed by a growth resuming untill a second stationary phase. During the early stationary phase, most cells swells and dies, but the remaining cells return to wild type morphology and proceed to the second exponential phase of growth. This is not due to compensatory mutations, since cells collected from late points of the curve and diluted in fresh medium repeat this behavior. Although studies with strain PAO1 associate σx with transcription of oprF, encoding the major nonspecific porin of Pseudomonas, under our experiments conditions with PA14, this porin expression is not induced by σx overexpression. Thus, the effects observed in this overexpression cannot be attributed to OprF. Transcription of oprF in PA14 proved to be mainly controlled by the σ70-dependent promoter region instead of the σx-dependent promoter region reported in the literature. Proteomic analyses were performed to investigate the elements involved in these effects of σx overexpression, which revealed the induction of several enzymes involved in fatty acids biosynthesis. Cells overexpressing σx exhibit a greater proportion of hexadecanoic (C16) and hexadecenoic (C16: 1) acids and anisotropy data show higher fluidity of the membrane (s). This work is the first report of an ECF sigma factor involved in lipid biosynthesis in P. aeruginosa.

ECF sigma factors

Fatores sigma ECF

Fluidez de membrana

Lipid (Biosynthesis)

Lipídeos (Biossíntese)

Membrane fluidity

Pseudomonas aeruginosa

Pseudomonas aeruginosa

Caracterização da superexpressão do fator sigma ECF σx em Pseudomonas aeruginosa PA14 / Characterization ofthe ECF sigma fator σx overexpression in Pseudomonas aeruginosa PA14.

Ana Laura Boechat Borges

05 July 2013

Pseudomonas aeruginosa é uma proteobactéria do grupo gama muito versátil, capaz de colonizar ambientes variados e infectar hospedeiros filogeneticamente distintos, incluindo humanos imunocomprometidos. Os fatores sigma de função extracitoplasmática (ECF) são membros de sistemas de sinalização de superfície celular (CSS), abundantes em P. aeruginosa. Vinte genes codificando fatores sigma ECF estão presentes nos genomas sequenciados de P. aeruginosa, a maioria fazendo parte de sistemas TonB relacionados à captação de ferro. Neste trabalho, seis fatores sigma pobremente caracterizados foram superexpressos na linhagem PA14 a partir de um promotor induzível por arabinose para investigar seu papel na expressão dos sistemas de dois componentes PvrSR e RcsCB, que atuam na regulação da fímbria CupD, além de sua influência no crescimento de culturas de P. aeruginosa. Não foi observado efeito positivo de nenhum dos fatores sigma testados na expressão dos sistemas de dois componentes e a superexpressão de cinco deles tampouco levou a qualquer alteração no crescimento, porém a produção de piocianina foi alterada na superexpressão de PA14_55550 e a superexpressão de PA14_26600 e PA14_46810 levou a um discreto aumento no início da formação de biofilme em PA14. Por outro lado, culturas superexpressando σx (ALB04) apresentaram um perfil alterado de lipopolissacarídeo e uma curva de crescimento bifásica, alcançando precocemente uma fase estacionária seguida de uma recuperação do crescimento até uma segunda fase estacionária. Durante a primeira fase estacionária, a maior parte das células aumenta de tamanho e morre, mas as células remanescentes retornam à morfologia selvagem e seguem para a segunda fase de crescimento exponencial. Isso não acontece devido a mutações compensatórias, uma vez que células coletadas de pontos tardios da curva e diluídas em meio novo repetem este comportamento. Apesar de trabalhos com a linhagem PAO1 associarem σx à transcrição de oprF, que codifica a principal porina não específica de Pseudomonas, nas condições dos nossos ensaios em PA14 a expressão dessa porina não foi induzida pela superexpressão de σx. Assim, os efeitos observados nessa superexpressão também não podem ser atribuídos a OprF. A transcrição de oprF em PA14 mostrou-se majoritariamente dependente da região promotora a que se atribui a ligação de σ70, ao contrário dos relatos na literatura da dependência da região de ligação a σx. Análises proteômicas foram realizadas para investigar os elementos envolvidos nesses efeitos de superexpressão de σx, o que revelou a indução de diversas enzimas envolvidas na via de biossíntese de ácidos graxos. As células superexpressando σx apresentam uma maior proporção de ácidos hexadecanoico (C16) e hexadecenoico (C16:1) e dados de anisotropia mostram uma maior fluidez da(s) membrana(s). Este trabalho é o primeiro relato de um fator sigma ECF envolvido em biossíntese de lipídeos em P. aeruginosa. / Pseudomonas aeruginosa is a very versatile gammaproteobacteria, able to colonize different environments and to infect phylogenetically distinct hosts, including immunocompromised humans. The extracytoplasmic function sigma factors (ECFs) are members of cell signaling systems (CSS), abundant in P. aeruginosa. Twenty genes coding for ECF sigma factors are present in the sequenced genomes of P. aeruginosa, most of them being part of TonB systems related to iron uptake. In this work, six poorly characterized sigma factors were overexpressed in strain PA14 from an arabinose inducible promoter to investigate their role in the expression of the two-component systems PvrSR and RcsCB, which regulates CupD fimbria, and their influence in P. aeruginosa cultures growth. None of the tested sigma factors led to two-component systems upregulation and overexpression of five of them caused no change in the growth profile, but pyocyanin production was altered in PA14_55550 overexpression and PA14_26600 and PA14_46810 overexpression led to a slight increase in biofilm initiation in PA14. By the other side, cultures overexpressing σx (ALB04) presented an altered lipopolysaccharide profile and a biphasic growth curve, reaching an early stationary phase followed by a growth resuming untill a second stationary phase. During the early stationary phase, most cells swells and dies, but the remaining cells return to wild type morphology and proceed to the second exponential phase of growth. This is not due to compensatory mutations, since cells collected from late points of the curve and diluted in fresh medium repeat this behavior. Although studies with strain PAO1 associate σx with transcription of oprF, encoding the major nonspecific porin of Pseudomonas, under our experiments conditions with PA14, this porin expression is not induced by σx overexpression. Thus, the effects observed in this overexpression cannot be attributed to OprF. Transcription of oprF in PA14 proved to be mainly controlled by the σ70-dependent promoter region instead of the σx-dependent promoter region reported in the literature. Proteomic analyses were performed to investigate the elements involved in these effects of σx overexpression, which revealed the induction of several enzymes involved in fatty acids biosynthesis. Cells overexpressing σx exhibit a greater proportion of hexadecanoic (C16) and hexadecenoic (C16: 1) acids and anisotropy data show higher fluidity of the membrane (s). This work is the first report of an ECF sigma factor involved in lipid biosynthesis in P. aeruginosa.

Fatores sigma ECF

Fluidez de membrana

Lipídeos (Biossíntese)

Pseudomonas aeruginosa

ECF sigma factors

Lipid (Biosynthesis)

Membrane fluidity

Pseudomonas aeruginosa

Determining biological roles of four unique Vernicia fordii acyl-CoA Binding Proteins

Pastor, Steven

20 May 2011

High-value industrial oils are essential for many processes and have great economic and environmental impacts. The tung tree produces a high-value seed oil. Approximately 80% of tung oil is α-eleostearic acid, which has a high degree of unsaturation thus giving it properties as a drying oil. The identification of the biological components in tung is imperative to further the knowledge of its processes. Four unique tung acyl-CoA binding proteins, VfACBP3a, VfACBP3b, VfACBP4, and VfACBP6 were identified and the genes encoding them were cloned and analyzed to determine their biological roles. The VfACBPs were observed to be similar to other organisms' ACBPs, especially Arabidopsis thaliana. In addition, each gene was expressed in all tung tissues. They were shown to interact with VfDGAT1 and VfDGAT2, two known components of tung lipid metabolism. Finally, VfACBP3a and VfACBP6 were expressed in the seeds of transgenic plants to study the effects of VfACBP expression on seed lipid fatty acid content.

acyl-CoA binding protein

Vernicia fordii

Arabidopsis thaliana

lipid biosynthesis

lipid metabolism

eleostearic acid

tung

Kennedy pathway

biofuel

industrial feedstocks

qPCR

split ubiquitin

Molecular Mechanisms Underlying Phosphatidylinositol-Specific Phospholipase C Mediated Regulation Of Lipid Metabolism

Rupwate, Sunny Dinkar

05 1900

Phosphoinositide-specific phospholipase C (PLC) is involved in Ca2+ mediated signalling events that lead to altered cellular status. PLC activation causes hydrolysis of phosphatidylinositol 4,5-bisphosphate (PIP2) and generates two second messengers, inositol 1,4,5-trisphosphate (IP3) and 1,2-diacylglycerol. Each has distinct role in depending on the cell type in mammalian cells, IP3 binds to intracellular receptors, stimulating the release of sequestered Ca2+. DAG remains in the membrane, where it can activate members of the protein kinase C (PKC) family. In plant absence of PKC keeps the question open as to what is the role of DAG in plants. The role of IP3 apart form triggering calcium release is not known, although the phosphorylated product of IP3 by groups of kinases has been implicated in certain nuclear signalling pathway. Using various sequence-analysis methods on plant PLC sequences, we identified two conserved motifs in known PLC sequences. The identified motifs are located in the C2 domain of plant PLCs and are not found in any other protein. These motifs are specifically found in the Ca2+ binding loops and form adjoining beta strands. Further, we identified certain conserved residues that are highly distinct from corresponding residues of animal PLCs. The motifs reported here could be used to annotate plant-specific phospholipase C sequences. Furthermore, we demonstrated that the C2 domain alone is capable of targeting PLC to the membrane in response to a Ca2+ signal. We also showed that the binding event results from a change in the hydrophobicity of the C2 domain upon Ca2+ binding. Bioinformatic analyses revealed that all PLCs from Arabidopsis and rice lack a transmembrane domain, myristoylation and GPI-anchor protein modifications. Our bioinformatic study indicates that plant PLCs are located in the cytoplasm, the nucleus and the mitochondria. Our results suggest that there are no distinct isoforms of plant PLCs, as have been proposed to exist in the soluble and membrane associated fractions. The same isoform could potentially be present in both subcellular fractions, depending on the calcium level of the cytosol. we have used Saccharomyces cerevisiae as a model system to investigate physiological function of PLC in regulation of lipid metabolism. S. cerevisiae synthesizes membrane phospholipids via a pathway which appears to be similar to that of higher eukaryotes. The synthesis of glycerolipid begins with the formation of phosphatidic acid which is quantitatively a minor lipid but is responsible for the repression of UNAINO-containing phospholipid biosynthetic gene by governing localization of Opi1. When the levels of phosphatidic acid are lowered which causes translocation of Opi1 from endoplasmic reticulum membrane to nucleus, where it binds to INO2 of the INO2-INO4 activator complex thereby attenuating transcriptional activation. The expression of phospholipid biosynthetic gene is affected by many conditions which include carbon source, nutrient availability, growth stage, pH and temperature. The well studied conditions which regulate phospholipid biosynthetic genes transcription are through exogenous supplementation of inositol, which is achieved by lowering of phosphatidic acid levels by its utilization for the synthesis of phosphatidylinositol. Since inositol was able to change regulates phospholipid biosynthetic gene we proposed to investigate inositol triphosphate role in such regulation. We overexpressed a plant phospholipase C in yeast to study its effect on lipid biosynthesis. The overexpressed yeast cells were subjected to microarray analysis and the result were confirmed by Q-PCR. The result obtained indicated that there was decrease in the expression of UNAINO-containing genes. To further validate our observation we carried out an in vivo assay to determined activity of enzyme involved in phospholipid biosynthesis. These results were in accordance with our expression analysis further supporting our hypothesis. Our study indicates that phospholipase c regulates phospholipid biosynthesis at transcription level in response to various stimuli. Overall, these data suggest that the C2 domain of plant PLC plays a vital role in calcium signalling. Further it can be inferred from this study that PI-PLC regulates lipid metabolism in S. cerevisiae.

Lipid Metabolism

Calcium Signalling

Phosphatidylinositol

Lipid Biosynthesis - Regulation

Phospholipid Biosynthesis

PI-PLC

Biochemistry