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1.
Molecules ; 28(6)2023 Mar 14.
Artigo em Inglês | MEDLINE | ID: mdl-36985609

RESUMO

Crude olive pomace oil (OPO) is a by-product of olive oil extraction. In this study, low-calorie structured triacylglycerols (TAGs) were produced by acidolysis of crude OPO with medium-chain fatty acids (caprylic, C8:0; capric, C10:0) or interesterification with their ethyl ester forms (C8EE, C10EE). These new TAGs present long-chain fatty acids (L) at position sn-2 and medium-chain fatty acids (M) at positions sn-1,3 (MLM). Crude OPO exhibited a high acidity (12.05-28.75% free fatty acids), and high contents of chlorophylls and oxidation products. Reactions were carried out continuously in a packed-bed bioreactor for 70 h, using sn-1,3 regioselective commercial immobilized lipases (Thermomyces lanuginosus lipase, Lipozyme TL IM; and Rhizomucor miehei lipase, Lipozyme RM IM), in solvent-free media at 40 °C. Lipozyme RM IM presented a higher affinity for C10:0 and C10EE. Lipozyme TL IM preferred C10:0 over C8:0 but C8EE over C10EE. Both biocatalysts showed a high activity and operational stability and were not affected by OPO acidity. The New TAG yields ranged 30-60 and the specific productivity ranged 0.96-1.87 g NewTAG/h.g biocatalyst. Lipozyme RM IM cost is more than seven-fold the Lipozyme TL IM cost. Therefore, using Lipozyme TL IM and crude acidic OPO in a continuous bioreactor will contribute to process sustainability for structured lipid production by lowering the cost of the biocatalyst and avoiding oil refining.


Assuntos
Dietética , Olea , Olea/metabolismo , Óleos de Plantas , Gorduras na Dieta , Triglicerídeos , Ácidos Graxos , Azeite de Oliva , Lipase/metabolismo , Esterificação , Enzimas Imobilizadas/metabolismo
2.
BMC Genomics ; 23(1): 72, 2022 Jan 22.
Artigo em Inglês | MEDLINE | ID: mdl-35065607

RESUMO

BACKGROUND: Klebsiella pneumoniae are ubiquitous bacteria and recognized multidrug-resistant opportunistic pathogens that can be released into the environment, mainly through sewage, where they can survive even after wastewater treatment. A major question is if once released into wastewater, the selection of lineages missing clinically-relevant traits may occur. Wastewater (n = 25) and clinical (n = 34) 3rd generation cephalosporin-resistant K. pneumoniae isolates were compared based on phenotypic, genotypic and genomic analyses. RESULTS: Clinical and wastewater isolates were indistinguishable based on phenotypic and genotypic characterization. The analysis of whole genome sequences of 22 isolates showed that antibiotic and metal resistance or virulence genes, were associated with mobile genetic elements, mostly transposons, insertion sequences or integrative and conjugative elements. These features were variable among isolates, according to the respective genetic lineage rather than the origin. CONCLUSIONS: It is suggested that once acquired, clinically relevant features of K. pneumoniae may be preserved in wastewater, even after treatment. This evidence highlights the high capacity of K. pneumoniae for spreading through wastewater, enhancing the risks of transmission back to humans.


Assuntos
Infecções por Klebsiella , Klebsiella pneumoniae , Antibacterianos/farmacologia , Cefalosporinas , Farmacorresistência Bacteriana Múltipla/genética , Humanos , Klebsiella pneumoniae/genética , Testes de Sensibilidade Microbiana , Águas Residuárias , beta-Lactamases
3.
Cell Microbiol ; 23(8): e13340, 2021 08.
Artigo em Inglês | MEDLINE | ID: mdl-33822465

RESUMO

Trimeric Autotransporter Adhesins (TAA) found in Gram-negative bacteria play a key role in virulence. This is the case of Burkholderia cepacia complex (Bcc), a group of related bacteria able to cause infections in patients with cystic fibrosis. These bacteria use TAAs, among other virulence factors, to bind to host protein receptors and their carbohydrate ligands. Blocking such contacts is an attractive approach to inhibit Bcc infections. In this study, using an antibody produced against the TAA BCAM2418 from the epidemic strain Burkholderia cenocepacia K56-2, we were able to uncover its roles as an adhesin and the type of host glycan structures that serve as recognition targets. The neutralisation of BCAM2418 was found to cause a reduction in the adhesion of the bacteria to bronchial cells and mucins. Moreover, in vivo studies have shown that the anti-BCAM2418 antibody exerted an inhibitory effect during infection in Galleria mellonella. Finally, inferred by glycan arrays, we were able to predict for the first time, host glycan epitopes for a TAA. We show that BCAM2418 favoured binding to 3'sialyl-3-fucosyllactose, histo-blood group A, α-(1,2)-linked Fuc-containing structures, Lewis structures and GM1 gangliosides. In addition, the glycan microarrays demonstrated similar specificities of Burkholderia species for their most intensely binding carbohydrates.


Assuntos
Infecções por Burkholderia , Burkholderia cenocepacia , Adesinas Bacterianas , Aderência Bacteriana , Humanos , Polissacarídeos
4.
Mar Drugs ; 20(7)2022 Jun 28.
Artigo em Inglês | MEDLINE | ID: mdl-35877716

RESUMO

Two novel natural products, the polyketide cuniculene and the peptide antibiotic aquimarin, were recently discovered from the marine bacterial genus Aquimarina. However, the diversity of the secondary metabolite biosynthetic gene clusters (SM-BGCs) in Aquimarina genomes indicates a far greater biosynthetic potential. In this study, nine representative Aquimarina strains were tested for antimicrobial activity against diverse human-pathogenic and marine microorganisms and subjected to metabolomic and genomic profiling. We found an inhibitory activity of most Aquimarina strains against Candida glabrata and marine Vibrio and Alphaproteobacteria species. Aquimarina sp. Aq135 and Aquimarina muelleri crude extracts showed particularly promising antimicrobial activities, amongst others against methicillin-resistant Staphylococcus aureus. The metabolomic and functional genomic profiles of Aquimarina spp. followed similar patterns and were shaped by phylogeny. SM-BGC and metabolomics networks suggest the presence of novel polyketides and peptides, including cyclic depsipeptide-related compounds. Moreover, exploration of the 'Sponge Microbiome Project' dataset revealed that Aquimarina spp. possess low-abundance distributions worldwide across multiple marine biotopes. Our study emphasizes the relevance of this member of the microbial rare biosphere as a promising source of novel natural products. We predict that future metabologenomics studies of Aquimarina species will expand the spectrum of known secondary metabolites and bioactivities from marine ecosystems.


Assuntos
Anti-Infecciosos , Produtos Biológicos , Flavobacteriaceae , Staphylococcus aureus Resistente à Meticilina , Anti-Infecciosos/metabolismo , Anti-Infecciosos/farmacologia , Bacteroidetes/genética , Produtos Biológicos/metabolismo , Produtos Biológicos/farmacologia , Ecossistema , Flavobacteriaceae/genética , Humanos , Metaboloma , Filogenia
5.
Mar Drugs ; 21(1)2022 Dec 30.
Artigo em Inglês | MEDLINE | ID: mdl-36662207

RESUMO

Marine microbiomes are prolific sources of bioactive natural products of potential pharmaceutical value. This study inspected two culture collections comprising 919 host-associated marine bacteria belonging to 55 genera and several thus-far unclassified lineages to identify isolates with potentially rich secondary metabolism and antimicrobial activities. Seventy representative isolates had their genomes mined for secondary metabolite biosynthetic gene clusters (SM-BGCs) and were screened for antimicrobial activities against four pathogenic bacteria and five pathogenic Candida strains. In total, 466 SM-BGCs were identified, with antimicrobial peptide- and polyketide synthase-related SM-BGCs being frequently detected. Only 38 SM-BGCs had similarities greater than 70% to SM-BGCs encoding known compounds, highlighting the potential biosynthetic novelty encoded by these genomes. Cross-streak assays showed that 33 of the 70 genome-sequenced isolates were active against at least one Candida species, while 44 isolates showed activity against at least one bacterial pathogen. Taxon-specific differences in antimicrobial activity among isolates suggested distinct molecules involved in antagonism against bacterial versus Candida pathogens. The here reported culture collections and genome-sequenced isolates constitute a valuable resource of understudied marine bacteria displaying antimicrobial activities and potential for the biosynthesis of novel secondary metabolites, holding promise for a future sustainable production of marine drug leads.


Assuntos
Antozoários , Anti-Infecciosos , Poríferos , Animais , Humanos , Metabolismo Secundário/genética , Bactérias/metabolismo , Poríferos/genética , Família Multigênica , Candida , Anti-Infecciosos/farmacologia , Anti-Infecciosos/metabolismo , Antozoários/genética , Filogenia
6.
Int J Mol Sci ; 22(3)2021 Jan 29.
Artigo em Inglês | MEDLINE | ID: mdl-33573089

RESUMO

Candida glabrata is an emerging fungal pathogen whose success depends on its ability to resist antifungal drugs but also to thrive against host defenses. In this study, the predicted multidrug transporter CgTpo4 (encoded by ORF CAGL0L10912g) is described as a new determinant of virulence in C. glabrata, using the infection model Galleria mellonella. The CgTPO4 gene was found to be required for the C. glabrata ability to kill G. mellonella. The transporter encoded by this gene is also necessary for antimicrobial peptide (AMP) resistance, specifically against histatin-5. Interestingly, G. mellonella's AMP expression was found to be strongly activated in response to C. glabrata infection, suggesting AMPs are a key antifungal defense. CgTpo4 was also found to be a plasma membrane exporter of polyamines, especially spermidine, suggesting that CgTpo4 is able to export polyamines and AMPs, thus conferring resistance to both stress agents. Altogether, this study presents the polyamine exporter CgTpo4 as a determinant of C. glabrata virulence, which acts by protecting the yeast cells from the overexpression of AMPs, deployed as a host defense mechanism.


Assuntos
Candida glabrata/genética , Candidíase/microbiologia , Proteínas Fúngicas/genética , Proteínas Associadas à Resistência a Múltiplos Medicamentos/genética , Poliaminas/farmacologia , Proteínas Citotóxicas Formadoras de Poros/farmacologia , Antifúngicos/metabolismo , Antifúngicos/farmacologia , Candida glabrata/efeitos dos fármacos , Candida glabrata/metabolismo , Candida glabrata/patogenicidade , Candidíase/tratamento farmacológico , Candidíase/metabolismo , Farmacorresistência Fúngica , Proteínas Fúngicas/metabolismo , Regulação Fúngica da Expressão Gênica , Genes Fúngicos , Histatinas/metabolismo , Histatinas/farmacologia , Humanos , Proteínas Associadas à Resistência a Múltiplos Medicamentos/metabolismo , Poliaminas/metabolismo , Proteínas Citotóxicas Formadoras de Poros/metabolismo , Virulência
7.
Artigo em Inglês | MEDLINE | ID: mdl-30348666

RESUMO

Candida glabrata is an emerging fungal pathogen. Its increased prevalence is associated with its ability to rapidly develop antifungal drug resistance, particularly to azoles. In order to unravel new molecular mechanisms behind azole resistance, a transcriptomics analysis of the evolution of a C. glabrata clinical isolate (isolate 044) from azole susceptibility to posaconazole resistance (21st day), clotrimazole resistance (31st day), and fluconazole and voriconazole resistance (45th day), induced by longstanding incubation with fluconazole, was carried out. All the evolved strains were found to accumulate lower concentrations of azole drugs than the parental strain, while the ergosterol concentration remained mostly constant. However, only the population displaying resistance to all azoles was found to have a gain-of-function mutation in the C. glabrataPDR1 gene, leading to the upregulation of genes encoding multidrug resistance transporters. Intermediate strains, exhibiting posaconazole/clotrimazole resistance and increased fluconazole/voriconazole MIC levels, were found to display alternative ways to resist azole drugs. Particularly, posaconazole/clotrimazole resistance after 31 days was correlated with increased expression of adhesin genes. This finding led us to identify the Epa3 adhesin as a new determinant of azole resistance. Besides being required for biofilm formation, Epa3 expression was found to decrease the intracellular accumulation of azole antifungal drugs. Altogether, this work provides a glimpse of the transcriptomics evolution of a C. glabrata population toward multiazole resistance, highlighting the multifactorial nature of the acquisition of azole resistance and pointing out a new player in azole resistance.


Assuntos
Antifúngicos/farmacologia , Azóis/farmacologia , Candida glabrata/efeitos dos fármacos , Candida glabrata/genética , Farmacorresistência Fúngica/genética , Candida glabrata/isolamento & purificação , Clotrimazol/farmacologia , Ergosterol/metabolismo , Fluconazol/farmacologia , Regulação Fúngica da Expressão Gênica/efeitos dos fármacos , Humanos , Proteínas de Membrana Transportadoras/genética , Testes de Sensibilidade Microbiana , Fatores de Transcrição/genética , Transcriptoma/genética , Triazóis/farmacologia , Voriconazol/farmacologia
8.
Appl Environ Microbiol ; 85(17)2019 09 01.
Artigo em Inglês | MEDLINE | ID: mdl-31227554

RESUMO

Acinetobacter baumannii is emerging as a major nosocomial pathogen in intensive care units. The bacterial capsules are considered major virulence factors, and the particular A. baumannii capsular type K2 has been associated with high antibiotic resistance. In this study, we identified a K2 capsule-specific depolymerase in a bacteriophage tail spike C terminus, a fragment that was heterologously expressed, and its antivirulence properties were assessed by in vivo experiments. The K2 depolymerase is active under a broad range of environmental conditions and is highly thermostable, with a melting point (Tm ) at 67°C. In the caterpillar larva model, the K2 depolymerase protects larvae from bacterial infections, using either pretreatments or with single-enzyme injection after bacterial challenge, in a dose-dependent manner. In a mouse sepsis model, a single K2 depolymerase intraperitoneal injection of 50 µg is able to protect 60% of mice from an otherwise deadly infection, with a significant reduction in the proinflammatory cytokine profile. We showed that the enzyme makes bacterial cells fully susceptible to the host complement system killing effect. Moreover, the K2 depolymerase is highly refractory to resistance development, which makes these bacteriophage-derived capsular depolymerases useful antivirulence agents against multidrug-resistant A. baumannii infections.IMPORTANCEAcinetobacter baumannii is an important nosocomial pathogen resistant to many, and sometimes all, antibiotics. The A. baumannii K2 capsular type has been associated with elevated antibiotic resistance. The capsular depolymerase characterized here fits the new trend of alternative antibacterial agents needed against multidrug-resistant pathogens. They are highly specific, stable, and refractory to resistance, as they do not kill bacteria per se; instead, they remove bacterial surface polysaccharides, which diminish the bacterial virulence and expose them to the host immune system.


Assuntos
Infecções por Acinetobacter/microbiologia , Acinetobacter baumannii/fisiologia , Antibacterianos/farmacologia , Proteínas de Bactérias/genética , Glicosídeo Hidrolases/genética , Mariposas/microbiologia , Sepse/microbiologia , Acinetobacter baumannii/genética , Animais , Proteínas de Bactérias/metabolismo , Glicosídeo Hidrolases/metabolismo , Larva/crescimento & desenvolvimento , Larva/microbiologia , Camundongos , Mariposas/crescimento & desenvolvimento
9.
Appl Environ Microbiol ; 84(8)2018 04 15.
Artigo em Inglês | MEDLINE | ID: mdl-29439986

RESUMO

The intracellular pathogen Salmonella enterica serovar Typhimurium has emerged as a major cause of foodborne illness, representing a severe clinical and economic concern worldwide. The capacity of this pathogen to efficiently infect and survive inside the host depends on its ability to synchronize a complex network of virulence mechanisms. Therefore, the identification of new virulence determinants has become of paramount importance in the search of new targets for drug development. BolA-like proteins are widely conserved in all kingdoms of life. In Escherichia coli, this transcription factor has a critical regulatory role in several mechanisms that are tightly related to bacterial virulence. Therefore, in the present work we used the well-established infection model Galleria mellonella to evaluate the role of BolA protein in S Typhimurium virulence. We have shown that BolA is an important player in S Typhimurium pathogenesis. Specifically, the absence of BolA leads to a defective virulence capacity that is most likely related to the remarkable effect of this protein on S Typhimurium evasion of the cellular response. Furthermore, it was demonstrated that BolA has a critical role in bacterial survival under harsh conditions since BolA conferred protection against acidic and oxidative stress. Hence, we provide evidence that BolA is a determining factor in the ability of Salmonella to survive and overcome host defense mechanisms, and this is an important step in progress to an understanding of the pathways underlying bacterial virulence.IMPORTANCE BolA has been described as an important protein for survival in the late stages of bacterial growth and under harsh environmental conditions. High levels of BolA in stationary phase and under stresses have been connected with a plethora of phenotypes, strongly suggesting its important role as a master regulator. Here, we show that BolA is a determining factor in the ability of Salmonella to survive and overcome host defense mechanisms, and this is an important step in progress to an understanding of the pathways underlying bacterial virulence. This work constitutes a relevant step toward an understanding of the role of BolA protein and may have an important impact on future studies in other organisms. Therefore, this study is of utmost importance for understanding the genetic and molecular bases involved in the regulation of Salmonella virulence and may contribute to future industrial and public health care applications.


Assuntos
Proteínas de Bactérias/genética , Aptidão Genética , Mariposas/microbiologia , Salmonella typhimurium/patogenicidade , Animais , Proteínas de Bactérias/metabolismo , Larva/crescimento & desenvolvimento , Larva/microbiologia , Mariposas/crescimento & desenvolvimento , Salmonella typhimurium/genética , Virulência/genética
10.
Cell Microbiol ; 19(4)2017 04.
Artigo em Inglês | MEDLINE | ID: mdl-27684048

RESUMO

Chronic lung disease caused by persistent bacterial infections is a major cause of morbidity and mortality in patients with cystic fibrosis (CF). CF pathogens acquire antibiotic resistance, overcome host defenses, and impose uncontrolled inflammation that ultimately may cause permanent damage of lungs' airways. Among the multiple CF-associated pathogens, Burkholderia cenocepacia and other Burkholderia cepacia complex bacteria have become prominent contributors of disease progression. Here, we demonstrate that BcaA, a trimeric autotransporter adhesin (TAA) from the epidemic strain B. cenocepacia K56-2, is a tumor necrosis factor receptor 1-interacting protein able to regulate components of the tumor necrosis factor signaling pathway and ultimately leading to a significant production of the proinflammatory cytokine IL-8. Notably, this study is the first to demonstrate that a protein belonging to the TAA family is involved in the induction of the inflammatory response during B. cenocepacia infections, contributing to the success of the pathogen. Moreover, our results reinforce the relevance of the TAA BcaA as a multifunctional protein with a major role in B. cenocepacia virulence.


Assuntos
Adesinas Bacterianas/química , Infecções por Burkholderia/microbiologia , Burkholderia cenocepacia/fisiologia , Pneumonia/microbiologia , Receptores Tipo I de Fatores de Necrose Tumoral/química , Adesinas Bacterianas/metabolismo , Aderência Bacteriana , Linhagem Celular , Células Epiteliais/metabolismo , Células Epiteliais/microbiologia , Interações Hospedeiro-Patógeno , Humanos , Ligação Proteica , Receptores Tipo I de Fatores de Necrose Tumoral/metabolismo , Transdução de Sinais
11.
Cell Microbiol ; 19(5)2017 05.
Artigo em Inglês | MEDLINE | ID: mdl-27780306

RESUMO

The mechanisms of persistence and virulence associated with Candida glabrata infections are poorly understood, limiting the ability to fight this fungal pathogen. In this study, the multidrug resistance transporters CgTpo1_1 and CgTpo1_2 are shown to play a role in C. glabrata virulence. The survival of the infection model Galleria mellonella, infected with C. glabrata, was found to increase upon the deletion of either CgTPO1_1 or CgTPO1_2. The underlying mechanisms were further explored. In the case of CgTpo1_1, this phenotype was found to be consistent with the observation that it confers resistance to antimicrobial peptides (AMP), such as the human AMP histatin-5. The deletion of CgTPO1_2, on the other hand, was found to limit the survival of C. glabrata cells when exposed to phagocytosis and impair biofilm formation. Interestingly, CgTPO1_2 expression was found to be up-regulated during biofilm formation, but and its deletion leads to a decreased expression of adhesin-encoding genes during biofilm formation, which is consistent with a role in biofilm formation. CgTPO1_2 expression was further seen to decrease plasma membrane potential and affect ergosterol and fatty acid content. Altogether, CgTpo1_1 and CgTpo1_2 appear to play an important role in the virulence of C. glabrata infections, being at the cross-road between multidrug resistance and pathogenesis.


Assuntos
Biofilmes , Candida glabrata/fisiologia , Proteínas Fúngicas/fisiologia , Proteínas Associadas à Resistência a Múltiplos Medicamentos/fisiologia , Animais , Antifúngicos/farmacologia , Candida glabrata/efeitos dos fármacos , Candida glabrata/patogenicidade , Resistência a Múltiplos Medicamentos , Ergosterol/metabolismo , Ácidos Graxos/metabolismo , Expressão Gênica , Genes Fúngicos , Hemócitos/microbiologia , Histatinas/farmacologia , Humanos , Larva/microbiologia , Metabolismo dos Lipídeos , Potenciais da Membrana , Testes de Sensibilidade Microbiana , Viabilidade Microbiana , Mariposas , Fagocitose , Virulência
12.
Int J Mol Sci ; 19(12)2018 12 04.
Artigo em Inglês | MEDLINE | ID: mdl-30518103

RESUMO

Cancer is a multi-process disease where different mechanisms exist in parallel to ensure cell survival and constant adaptation to the extracellular environment. To adapt rapidly, cancer cells re-arrange their plasma membranes to sustain proliferation, avoid apoptosis and resist anticancer drugs. In this review, we discuss novel approaches based on the modifications and manipulations that new classes of molecules can exert in the plasma membrane lateral organization and order of cancer cells, affecting growth factor signaling, invasiveness, and drug resistance. Furthermore, we present azurin, an anticancer protein from bacterial origin, as a new approach in the development of therapeutic strategies that target the cell membrane to improve the existing standard therapies.


Assuntos
Membrana Celular/metabolismo , Terapia de Alvo Molecular , Neoplasias/patologia , Animais , Antineoplásicos/química , Antineoplásicos/farmacologia , Apoptose/efeitos dos fármacos , Fenômenos Biofísicos , Membrana Celular/efeitos dos fármacos , Humanos , Neoplasias/metabolismo
14.
J Bacteriol ; 196(11): 1968-79, 2014 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-24659767

RESUMO

Members of the trimeric autotransporter adhesin (TAA) family play a crucial role in adhesion of Gram-negative pathogens to host cells. Moreover, these proteins are multifunctional virulence factors involved in several other biological traits, including invasion into host cells and evasion of the host immune system. In cystic fibrosis epidemic Burkholderia cenocepacia strain J2315, we identified a unique TAA (BCAM0224)-encoding gene, previously described as being implicated in virulence. Here, we characterized this multifunctional protein, trying to establish its role in B. cenocepacia pathogenicity. We show that BCAM0224 occurs on the bacterial surface and adopts a trimeric conformation. Furthermore, we demonstrated that BCAM0224 is needed for earlier stages of biofilm formation and is required for swarming motility. In addition, BCAM0224 plays an important role in evasion of the human innate immune system, providing resistance against the bactericidal activity of serum via the complement classical pathway. Finally, BCAM0224 mediates bacterial adhesion to and invasion of cultured human bronchial epithelial cells. Together, these data reveal the high versatility of the BCAM0224 protein as a virulence factor in the pathogenic bacterium B. cenocepacia.


Assuntos
Proteínas de Bactérias/metabolismo , Burkholderia cenocepacia/metabolismo , Sequência de Aminoácidos , Proteínas de Bactérias/genética , Burkholderia cenocepacia/genética , Linhagem Celular , Regulação Bacteriana da Expressão Gênica/fisiologia , Humanos , Modelos Moleculares , Dados de Sequência Molecular , Conformação Proteica , Estrutura Terciária de Proteína , Fatores de Virulência
15.
Mol Microbiol ; 89(4): 649-59, 2013 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-23796134

RESUMO

Trimeric autotransporter adhesins (TAAs) are bacterial surface proteins that fulfil important functions in pathogenic Gram-negative bacteria. Prominent examples of TAAs are found in Burkholderia cepacia complex, a group of bacterial species causing severe infections in patients with cystic fibrosis. While there is strong evidence that Burkholderia cenocepacia TAAs mediate adhesion, aggregation and colonization of the respiratory epithelium, we still know very little about the molecular mechanisms behind these interactions. Here, we use single-molecule atomic force microscopy to unravel the binding mechanism of BCAM0224, a prototype TAA from B. cenocepacia K56-2. We show that the adhesin forms homophilic trans-interactions engaged in bacterial aggregation, and that it behaves as a spring capable to withstand high forces. We also find that BCAM0224 binds collagen, a major extracellular component of host epithelia. Both homophilic and heterophilic interactions display low binding affinity, which could be important for epithelium colonization. We then demonstrate that BCAM0224 recognizes receptors on living pneumocytes, and leads to the formation of membrane tethers that may play a role in promoting adhesion. Collectively, our results show that BCAM0224 is a multifunctional adhesin endowed with remarkable binding properties, which may represent a general mechanism among TAAs for strengthening bacterial adhesion.


Assuntos
Adesinas Bacterianas/metabolismo , Adesinas Bacterianas/ultraestrutura , Aderência Bacteriana , Burkholderia cenocepacia/fisiologia , Células Epiteliais Alveolares/microbiologia , Linhagem Celular , Colágeno/metabolismo , Humanos , Microscopia de Força Atômica , Ligação Proteica , Multimerização Proteica
16.
Biochem Biophys Res Commun ; 430(1): 218-24, 2013 Jan 04.
Artigo em Inglês | MEDLINE | ID: mdl-23137539

RESUMO

Metabolic enzymes are usually characterized to have one specific function, and this is the case of UDP-glucose dehydrogenase that catalyzes the twofold NAD(+)-dependent oxidation of UDP-glucose into UDP-glucuronic acid. We have determined that this enzyme is also capable of participating in other cellular processes. Here, we report that the bacterial UDP-glucose dehydrogenase (UgdG) from Sphingomonas elodea ATCC 31461, which provides UDP-glucuronic acid for the synthesis of the exopolysaccharide gellan, is not only able to bind RNA but also acts as a ribonuclease. The ribonucleolytic activity occurs independently of the presence of NAD(+) and the RNA binding site does not coincide with the NAD(+) binding region. We have also performed the kinetics of interaction between UgdG and RNA. Moreover, computer analysis reveals that the N- and C-terminal domains of UgdG share structural features with ancient mitochondrial ribonucleases named MAR. MARs are present in lower eukaryotic microorganisms, have a Rossmannoid-fold and belong to the isochorismatase superfamily. This observation reinforces that the Rossmann structural motifs found in NAD(+)-dependent dehydrogenases can have a dual function working as a nucleotide cofactor binding domain and as a ribonuclease.


Assuntos
Proteínas de Bactérias/metabolismo , RNA/metabolismo , Ribonucleases/metabolismo , Sphingomonas/enzimologia , Uridina Difosfato Glucose Desidrogenase/metabolismo , Motivos de Aminoácidos , Proteínas de Bactérias/química , Cinética , NAD/química , NAD/metabolismo , Dobramento de Proteína , RNA/química , Ribonucleases/química , Uridina Difosfato Glucose Desidrogenase/química
17.
Appl Environ Microbiol ; 79(19): 6124-33, 2013 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-23913419

RESUMO

Salmonella enterica serovar Typhimurium is a Gram-negative bacterium able to invade and replicate inside eukaryotic cells. To cope with the host defense mechanisms, the bacterium has to rapidly remodel its transcriptional status. Regulatory RNAs and ribonucleases are the factors that ultimately control the fate of mRNAs and final protein levels in the cell. There is growing evidence of the direct involvement of these factors in bacterial pathogenicity. In this report, we validate the use of a Galleria mellonela model in S. Typhimurium pathogenicity studies through the parallel analysis of a mutant with a mutation in hfq, a well-established Salmonella virulence gene. The results obtained with this mutant are similar to the ones reported in a mouse model. Through the use of this insect model, we demonstrate a role for the main endoribonucleases RNase E and RNase III in Salmonella virulence. These ribonuclease mutants show an attenuated virulence phenotype, impairment in motility, and reduced proliferation inside the host. Interestingly, the two mutants trigger a distinct immune response in the host, and the two mutations seem to have an impact on distinct bacterial functions.


Assuntos
Endorribonucleases/metabolismo , Lepidópteros/microbiologia , Mutação , Ribonuclease III/metabolismo , Salmonella typhimurium/enzimologia , Salmonella typhimurium/patogenicidade , Animais , Endorribonucleases/genética , Locomoção , Modelos Animais , Ribonuclease III/genética , Salmonella typhimurium/genética , Salmonella typhimurium/fisiologia
18.
Appl Microbiol Biotechnol ; 97(12): 5189-99, 2013 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-23644748

RESUMO

The use of live bacteria in cancer therapies offers exciting possibilities. Nowadays, an increasing number of genetically engineered bacteria are emerging in the field, with applications both in therapy and diagnosis. In parallel, purified bacterial products are also gaining relevance as new classes of bioactive products to treat and prevent cancer growth and metastasis. In the first part of the article, we review the latest findings regarding the use of live bacteria and products as anti-cancer agents, paying special attention to immunotoxins, proteins, and peptides. In particular, we focus on the recent results of using azurin or its derived peptide as anticancer therapeutic agents. In the second part, we discuss the challenges of using metagenomic techniques as a distinctive approach for discovering new anti-cancer agents from bacterial origin.


Assuntos
Antineoplásicos/metabolismo , Bactérias/metabolismo , Terapia Biológica/métodos , Engenharia Metabólica/métodos , Redes e Vias Metabólicas/genética , Neoplasias/diagnóstico , Neoplasias/terapia , Antineoplásicos/isolamento & purificação , Antineoplásicos/uso terapêutico , Azurina/metabolismo , Bactérias/genética , Proteínas de Bactérias/metabolismo , Toxinas Bacterianas/metabolismo , Biotecnologia/métodos , Biologia Computacional , Imunotoxinas/metabolismo , Metagenômica , Tecnologia Farmacêutica/métodos
19.
Microorganisms ; 11(5)2023 Apr 25.
Artigo em Inglês | MEDLINE | ID: mdl-37317093

RESUMO

Burkholderia cenocepacia is a multi-drug-resistant lung pathogen. This species synthesizes various virulence factors, among which cell-surface components (adhesins) are critical for establishing the contact with host cells. This work in the first part focuses on the current knowledge about the adhesion molecules described in this species. In the second part, through in silico approaches, we perform a comprehensive analysis of a group of unique bacterial proteins possessing collagen-like domains (CLDs) that are strikingly overrepresented in the Burkholderia species, representing a new putative class of adhesins. We identified 75 CLD-containing proteins in Burkholderia cepacia complex (Bcc) members (Bcc-CLPs). The phylogenetic analysis of Bcc-CLPs revealed the evolution of the core domain denominated "Bacterial collagen-like, middle region". Our analysis remarkably shows that these proteins are formed by extensive sets of compositionally biased residues located within intrinsically disordered regions (IDR). Here, we discuss how IDR functions may increase their efficiency as adhesion factors. Finally, we provided an analysis of a set of five homologs identified in B. cenocepacia J2315. Thus, we propose the existence in Bcc of a new type of adhesion factors distinct from the described collagen-like proteins (CLPs) found in Gram-positive bacteria.

20.
Microbiol Spectr ; 11(4): e0066723, 2023 08 17.
Artigo em Inglês | MEDLINE | ID: mdl-37284774

RESUMO

Organic pollutants are omnipresent and can penetrate all environmental niches. We evaluated the hypothesis that short-term (acute) exposure to aromatic hydrocarbon pollutants could increase the potential for fungal virulence. Specifically, we analyzed whether pentachlorophenol and triclosan pollution results in the production of airborne fungal spores with greater virulence than those derived from an unpolluted (Control) condition. Each pollutant altered the composition of the community of airborne spores compared to the control, favoring an increase in strains with in vivo infection capacity (the wax moth Galleria mellonella was used as an infection model). Fungi subsisting inside larvae at 72 h postinjection with airborne spore inocula collected in polluted and unpolluted conditions exhibited comparable diversity (mainly within Aspergillus fumigatus). Several virulent Aspergillus strains were isolated from larvae infected with the airborne spores produced in a polluted environment. Meanwhile, strains isolated from larvae injected with spores from the control, including one A. fumigatus strain, showed no virulence. Potential pathogenicity increased when two Aspergillus virulent strains were assembled, suggesting the existence of synergisms that impact pathogenicity. None of the observed taxonomic or functional traits could separate the virulent from the avirulent strains. Our study emphasizes pollution stress as a possible driver of phenotypic adaptations that increase Aspergillus pathogenicity, as well as the need to better understand the interplay between pollution and fungal virulence. IMPORTANCE Fungi colonizing soil and organic pollutants often meet. The consequences of this encounter constitute an outstanding question. We scrutinized the potential for virulence of airborne fungal spores produced under unpolluted and polluted scenarios. The airborne spores showed increased diversity of strains with higher infection capacity in Galleria mellonella whenever pollution is present. Inside the larvae injected with either airborne spore community, the surviving fungi demonstrated a similar diversity, mainly within Aspergillus fumigatus. However, the isolated Aspergillus strains greatly differ since virulence was only observed for those associated with a polluted environment. The interplay between pollution and fungal virulence still hides many unresolved questions, but the encounter is costly: pollution stress promotes phenotypic adaptations that may increase Aspergillus pathogenicity.


Assuntos
Aspergilose , Poluentes Ambientais , Mariposas , Animais , Esporos Fúngicos , Aspergilose/microbiologia , Solo , Aspergillus fumigatus , Aspergillus , Mariposas/microbiologia , Larva/microbiologia
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