Your search keyword '"LACTONASE"' showing total 962 results

1. Substrate specificity study of zearalenone lactonase by analyzing interaction networks of residues near the β6-α6 region

Author

Xu, Wei, Yao, Jiayi, Ouyang, Binbin, Huang, Zhaolin, Zhang, Wenli, and Mu, Wanmeng

Published

2025

2. Action enhancement of antimicrobial peptides by their combination with enzymes hydrolyzing fungal quorum molecules

Author

Aslanli, Aysel, Domnin, Maksim, Stepanov, Nikolay, Senko, Olga, and Efremenko, Elena

Published

2024

3. Relationship of paraoxonase-1 and paraoxonase-3 with routine laboratory tests and oxidative stress in type 2 diabetes mellitus

Author

Ucar Yagcı Yagmur, Yılmaz Bulbul Buket, Sut Necdet, and Ozgun Eray

Subjects

hemoglobin a1c, lactonase, paraoxonase-1, paraoxonase-1 status, paraoxonase-3, type 2 diabetes mellitus, Biochemistry, QD415-436

Abstract

We aimed to investigate the relationship between serum paraoxonase-1 (PON1) and paraoxonase-3 (PON3) levels and activities with hemoglobin A1c (HbA1c), serum fasting blood glucose, lipid profile, and oxidative stress in patients with type 2 diabetes mellitus (T2DM). Also, we aimed to examine PON1 and PON3 levels and activities in these patients according to the HbA1c goal in diabetes treatment and PON1192 phenotypes.

Published

2024

4. Comparison of the protective effects of vanillic and rosmarinic acid on cardiac tissue: Lower limb ischemia-reperfusion model in rats.

Author

Huseyin, Serhat, Reyhancan, Adem, Halici, Umit, Guclu, Orkut, Tuysuz, Salih, Oztorun, Burcak, and Canbaz, Suat

Subjects

THERAPEUTIC use of antioxidants, ISCHEMIA prevention, BIOLOGICAL models, REPERFUSION injury, LEG, ROSMARINIC acid, CARDIOTONIC agents, TREATMENT effectiveness, OXIDATIVE stress, TUMOR markers, DESCRIPTIVE statistics, PLANT extracts, RATS, MEDICINAL plants, HYDROXY acids, MYOCARDIUM, ANIMAL experimentation, ABDOMINAL aorta, STAINS & staining (Microscopy), DATA analysis software, COMPARATIVE studies, MUSCLES

Abstract

BACKGROUND: Ischemia/reperfusion injury is one of the most challenging postoperative situations in vascular surgery, both in elective procedures with prolonged clamping time and in delayed emergency cases with vascular occlusion. The inflammatory response that develops during ischemia and the oxygen-free radicals that proliferate during reperfusion have detrimental effects on the brain, heart, and kidneys. In this study, we aimed to compare the effects of vanillic and rosmarinic acid in preventing ischemia/reperfusion injury in a lower limb ischemia-reperfusion model in rats. METHODS: Thirty-two female Sprague-Dawley rats weighing 185-240 g were randomly divided into four groups of eight animals each. Group 1 was designated as the control, Group 2 as ischemia/reperfusion (I/R), Group 3 as ischemia/reperfusion + vanillic acid (I/R + VA), and Group 4 as ischemia/reperfusion + rosmarinic acid (I/R + RA). In all groups except the control, the infrarenal abdominal aorta was clamped, and 60 minutes of ischemia followed by 120 minutes of reperfusion was performed. Vanillic acid was administered intra-abdominally 15 minutes before the start of reperfusion in Group 3, and rosmarinic acid in Group 4. At the end of the reperfusion phase, blood samples and hearts were collected, and the rats were euthanized. Histopathologically, myofibrillar edema, myocytolysis, focal hemorrhages, and infiltration of polymorphonuclear leukocytes (PMNL) in cardiac tissue were examined. Total antioxidant capacity (TAC), total oxidative status (TOS), oxidative stress index (OSI), 8-OH-deoxyguanosine, lactonase, and arylesterase activity were measured in blood samples. RESULTS: Myofibrillar edema was most pronounced in the I/R group and less pronounced in the I/R + VA and I/R + RA groups (p=0.005 and p=0.066, respectively). There was no difference between the ischemia/reperfusion groups regarding myocytolysis, focal hemorrhage, and PMNL infiltration (p>0.99). Among all groups, TOS and OSI were lowest in the control group, while TAC was highest. TAC was similar in the I/R + VA and I/R + RA groups but was significantly higher in these two groups than in the I/R group. The lactonase activity in the I/R + VA group was similar to that in the control group but was significantly higher compared to the I/R and I/R + RA groups. CONCLUSION: Our study shows that vanillic and rosmarinic acids reduce myofibrillar edema in the heart after lower limb ischemia and increase TAC. However, vanillic acid increases the activity of lactonase, an enzyme known for its antioxidant effect, more than rosmarinic acid. [ABSTRACT FROM AUTHOR]

Published

2024

5. Unraveling the role of UilS, a urea-induced acyl-homoserine lactonase that enhances Serratia marcescens fitness, interbacterial competition, and urinary tract infection

Author

Marisel R. Tuttobene, Brayan S. Arango Gil, Gisela Di Venanzio, Javier F. Mariscotti, Rodrigo Sieira, Mario F. Feldman, María Soledad Ramirez, and Eleonora García Véscovi

Subjects

Serratia marsescens, lactonase, quorum quenching, pathogenesis, bacterial virulence, Microbiology, QR1-502

Abstract

ABSTRACT Serratia marcescens, a member of the Enterobacteriaceae family, is an opportunistic human pathogen and a frequent cause of urinary tract infections. Clinical isolates often exhibit resistance to multiple antibiotics, posing challenges for successful treatment. Understanding its pathogenic mechanisms is crucial for elucidating new potential targets to develop effective therapeutic interventions and manage S. marcescens infections. This work identifies urea-induced lactonase of Serratia (UilS), a lactonase encoded in the S. marcescens RM66262 strain isolated from a patient with a urinary tract infection. The study explores the bacterium’s response to urea, a major component of urine, and its impact on uilS expression. We found that UilS degrades acyl-homoserine lactones (AHL) autoinducers traditionally associated with quorum sensing mechanisms. Surprisingly, UilS is able to degrade self and non-self AHL, exhibiting quorum-quenching activity toward Pseudomonas aeruginosa. We found that LuxR regulates uilS expression that is enhanced in the presence of AHL. In addition, urea-dependent induction of UilS expression is controlled by the transcriptional response regulator CpxR. UilS confers fitness advantage to S. marcescens, especially in the presence of urea, emphasizing the adaptive plasticity of strains to modulate gene expression based on environmental signals and population density. We also discovered a novel bacterial killing capacity of S. marcescens that involves UilS, indicating its importance in the interspecies interaction of Serratia. Finally, we found that a uilS mutant strain displays attenuated colonization in a mouse model of catheter-associated urinary tract infection. uilS is present in clinical but absent in environmental isolates, suggesting an evolutionary adaptation to host-specific selective pressures.IMPORTANCEThis work reveals the acyl-homoserine lactonase urea-induced lactonase of Serratia as a novel virulence factor of Serratia marcescens, unraveling a potential target to develop antimicrobial strategies and shedding light on the complex regulatory network governing pathogenicity and adaptation to host environments.

Published

2024

6. The Human Paraoxonase 2: An Optimized Procedure for Refolding and Stabilization Facilitates Enzyme Analyses and a Proteomics Approach.

Author

Lampitella, Eros A., Marone, Maria, Achanta, Nagendra S. K., Porzio, Elena, Trepiccione, Francesco, and Manco, Giuseppe

Subjects

*PARAOXONASE, *PROTEOMICS, *ENZYMES, *POST-translational modification, *HELA cells, *RHAMNOLIPIDS, *BIOCATALYSIS

Abstract

The human paraoxonase 2 (PON2) is the oldest member of a small family of arylesterase and lactonase enzymes, representing the first line of defense against bacterial infections and having a major role in ROS-associated diseases such as cancer, cardiovascular diseases, neurodegeneration, and diabetes. Specific Post-Translational Modifications (PTMs) clustering nearby two residues corresponding to pon2 polymorphic sites and their impact on the catalytic activity are not yet fully understood. Thus, the goal of the present study was to develop an improved PON2 purification protocol to obtain a higher amount of protein suitable for in-depth biochemical studies and biotechnological applications. To this end, we also tested several compounds to stabilize the active monomeric form of the enzyme. Storing the enzyme at 4 °C with 30 mM Threalose had the best impact on the activity, which was preserved for at least 30 days. The catalytic parameters against the substrate 3-Oxo-dodecanoyl-Homoserine Lactone (3oxoC12-HSL) and the enzyme ability to interfere with the biofilm formation of Pseudomonas aeruginosa (PAO1) were determined, showing that the obtained enzyme is well suited for downstream applications. Finally, we used the purified rPON2 to detect, by the direct molecular fishing (DMF) method, new putative PON2 interactors from soluble extracts of HeLa cells. [ABSTRACT FROM AUTHOR]

Published

2024

7. Identification and characterization of novel N-acylhomoserine lactonase from nonpathogenic Allorhizobium vitis, a candidate for biocontrol agent.

Author

Morohoshi, Tomohiro, Hirose, Koki, and Someya, Nobutaka

Subjects

*GRAPES, *BIOLOGICAL pest control agents, *PHYTOPATHOGENIC bacteria, *GRAPE diseases & pests, *WHOLE genome sequencing, *QUORUM sensing, *ESCHERICHIA coli, *ERWINIA

Abstract

Some strains of nonpathogenic Allorhizobium vitis can control crown gall disease in grapevines caused by pathogenic A. vitis and are considered candidates for biocontrol agents. Many plant pathogenic bacteria regulate the expression of their virulence genes via quorum sensing using N -acylhomoserine lactone (AHL) as a signaling compound. The eight nonpathogenic A. vitis strains used in this study showed AHL-degrading activity. The complete genome sequence of A. vitis MAFF 212306 contained three AHL lactonase gene homologs. When these genes were cloned and transformed into Escherichia coli DH5α, E. coli harboring the aiiV gene (RvVAR031_27660) showed AHL-degrading activity. The aiiV coding region was successfully amplified by polymerase chain reaction from the genomes of all eight strains of nonpathogenic A. vitis. Purified His-tagged AiiV exhibited AHL lactonase activity by hydrolyzing the lactone ring of AHL. AiiV had an optimal temperature of approximately 30 °C; however, its thermostability decreased above 40 °C. When the AiiV-expressing plasmid was transformed into Pectobacterium carotovorum subsp. carotovorum NBRC 3830, AHL production by NBRC 3830 decreased below the detection limit, and its maceration activity, which was controlled by quorum sensing, almost disappeared. These results suggest the potential use of AHL-degrading nonpathogenic A. vitis for the inhibition of crown gall disease in grapevines and other plant diseases controlled by quorum sensing. [ABSTRACT FROM AUTHOR]

Published

2024

8. Bacterial-fungal crosstalk is defined by a fungal lactone mycotoxin and its degradation by a bacterial lactonase.

Author

Dor, Shlomit, Nudel, Keren, Eagan, Justin L., Cohen, Rami, Hull, Christina M., Keller, Nancy P., Prusky, Dov, and Afriat-Jurnou, Livnat

Subjects

*APPLE blue mold, *FRUIT trees, *ERWINIA amylovora, *QUORUM sensing, *BACTERIAL genes, *GENE expression, *GRAM-negative bacteria

Abstract

Bacteria, fungi, and mammals contain lactonases that can degrade the Gram-negative bacterial quorum sensing (QS) molecules N-acyl homoserine lactones (AHLs). AHLs are critical for bacteria to coordinate gene expression and pathogenicity with population density. However, AHL-degrading lactonases present variable substrate ranges, including degradation of the Pencillium expansum lactone mycotoxin patulin. We selected Erwinia spp. as our model bacteria to further investigate this interaction. We find both native apple microbiome Erwinia spp. and the fruit tree pathogen Erwinia amylovora to be inhibited by patulin. At patulin concentrations that inhibited E. amylovora growth, expression of E. amylovora lactonase encoded by EaaiiA was increased. EaAiiA demonstrated the ability to degrade patulin in vitro, as well, as in vivo where it reduced apple disease and patulin production by P. expansum. Fungal-bacterial co-cultures revealed that the E. amylovora Δeaaiia strain failed to protect apples from P. expansum infections, which contained significant amounts of patulin. Our results suggest that bacterial lactonase production can modulate the pathogenicity of P. expansum in response to the secretion of toxic patulin. [ABSTRACT FROM AUTHOR]

Published

2024

9. Quorum Quenching Potential of Reyranella sp. Isolated from Riverside Soil and Description of Reyranella humidisoli sp. nov.

Author

Lee, Dong Hyeon and Kim, Seung Bum

Abstract

Quorum quenching refers to any mechanism that inhibits quorum sensing processes. In this study, quorum quenching activity among bacteria inhabiting riverside soil was screened, and a novel Gram-stain-negative, rod shaped bacterial strain designated MMS21-HV4-11T, which showed the highest level of quorum quenching activity, was isolated and subjected to further analysis. Strain MMS21-HV4-11T could be assigned to the genus Reyranella of Alphaproteobacteria based on the 16S rRNA gene sequence, as the strain shared 98.74% sequence similarity with Reyranella aquatilis seoho-37T, and then 97.87% and 97.80% sequence similarity with Reyranella soli KIS14-15T and Reyranella massiliensis 521T, respectively. The decomposed N-acyl homoserine lactone was restored at high concentrations under acidic conditions, implying that lactonase and other enzyme(s) are responsible for quorum quenching. The genome analysis indicated that strain MMS21-HV4-11T had two candidate genes for lactonase and one for acylase, and expected protein structures were confirmed. In the quorum sensing inhibition assay using a plant pathogen Pectobacterium carotovorum KACC 14888, development of soft rot was significantly inhibited by strain MMS21-HV4-11T. Besides, the swarming motility by Pseudomonas aeruginosa PA14 was significantly inhibited in the presence of strain MMS21-HV4-11T. Since the isolate did not display direct antibacterial activity against either of these species, the inhibition was certainly due to quorum quenching activity. In an extended study with the type strains of all known species of Reyranella, all strains were capable of degrading N-acyl homoserine lactones (AHLs), thus showing quorum quenching potential at the genus level. This is the first study on the quorum quenching potential and enzymes responsible in Reyranella. In addition, MMS21-HV4-11T could be recognized as a new species through taxonomic characterization, for which the name Reyranella humidisoli sp. nov. is proposed (type strain = MMS21-HV4-11 T = KCTC 82780 T = LMG 32365T). [ABSTRACT FROM AUTHOR]

Published

2024

10. MzmL, a novel marine derived N-acyl homoserine lactonase from Mesoflavibacter zeaxanthinifaciens that attenuates Pectobacterium carotovorum subsp. carotovorum virulence.

Author

Lingyun Hao, Jinyou Liang, Shuotian Chen, Junliang Zhang, Yu Zhang, and Ying Xu

Subjects

N-acyl-L-homoserine lactone, ERWINIA, LIQUID chromatography-mass spectrometry, PLANT cell walls, WHOLE genome sequencing, QUORUM sensing, INTERTIDAL zonation

Abstract

Quorum sensing (QS) is a conserved cell-cell communication mechanism widely distributed in bacteria, and is oftentimes tightly correlated with pathogen virulence. Quorum quenching enzymes, which interfere with QS through degrading the QS signaling molecules, could attenuate virulence instead of killing the pathogens, and thus are less likely to induce drug resistance. Many Gram-negative bacteria produce N-acyl homoserine lactones (AHLs) for interspecies communication. In this study, we isolated and identified a bacterial strain, Mesoflavibacter zeaxanthinifaciens XY-85, from an Onchidium sp. collected from the intertidal zone of Dapeng Reserve in Shenzhen, China, and found it had strong AHL degradative activity. Whole genome sequencing and blast analysis revealed that XY-85 harbors an AHL lactonase (designated MzmL), which is predicted to have an N-terminal signal peptide and share the "HXHXDH" motif with known AHL lactonases belonging to the Metallo-ß-lactamase superfamily. Phylogenetic studies showed MzmL was closest to marine lactonase cluster members, MomL and Aii20J, instead of the AiiA type lactonases. Ultra performance liquid chromatography-mass spectrometry analysis confirmed that MzmL functions as an AHL lactonase catalyzing AHL degradation through lactone hydrolysis. MzmL could degrade both short- and long-chain AHLs with or without a substitution of oxo-group at the C-3 position, and retained full bioactivity under a wide range of temperatures (28-100°C) and pHs (4-11). Furthermore, MzmL significantly reduced Pectobacterium carotovorum subsp. carotovorum virulence factor production in vitro, such as biofilm formation and plant cell wall degrading enzyme production, and inhibited soft rot development on potato slices. These results demonstrated that MzmL may be a novel type of AHL lactonase with good environmental stability, and has great potential to be developed into a novel biological control agent for bacterial disease management. [ABSTRACT FROM AUTHOR]

Published

2024

11. Enzymes with Lactonase Activity against Fungal Quorum Molecules as Effective Antifungals.

Author

Efremenko, Elena, Aslanli, Aysel, Domnin, Maksim, Stepanov, Nikolay, and Senko, Olga

Subjects

*QUORUM sensing, *ENZYMES, *MOLECULES, *FUNGAL growth, *ANTIFUNGAL agents, *MOLECULAR docking, *FUNGICIDES, *COMPUTATIONAL neuroscience

Abstract

Since the growing number of fungi resistant to the fungicides used is becoming a serious threat to human health, animals, and crops, there is a need to find other effective approaches in the eco-friendly suppression of fungal growth. One of the main mechanisms of the development of resistance in fungi, as well as in bacteria, to antimicrobial agents is quorum sensing (QS), in which various lactone-containing compounds participate as signaling molecules. This work aimed to study the effectiveness of action of enzymes exhibiting lactonase activity against fungal signaling molecules. For this, the molecular docking method was used to estimate the interactions between these enzymes and different lactone-containing QS molecules of fungi. The catalytic characteristics of enzymes such as lactonase AiiA, metallo-β-lactamase NDM-1, and organophosphate hydrolase His6-OPH, selected for wet experiments based on the results of computational modeling, were investigated. QS lactone-containing molecules (butyrolactone I and γ-heptalactone) were involved in the experiments as substrates. Further, the antifungal activity of the enzymes was evaluated against various fungal and yeast cells using bioluminescent ATP-metry. The efficient hydrolysis of γ-heptalactone by all three enzymes and butyrolactone I by His6-OPH was demonstrated for the first time. The high antifungal efficacy of action of AiiA and NDM-1 against most of the tested fungal cells was revealed. [ABSTRACT FROM AUTHOR]

Published

2024

12. Abnormal paraoxonase-1 (PON1) enzyme activity in idiopathic inflammatory myopathies

Author

Bae, Sangmee Sharon, Shahbazian, Ani, Wang, Jennifer, Golub, Ilana, Oganesian, Buzand, Dowd, Tyler, Vayngortin, Beata, Wang, Ryan, Elashoff, David, Reddy, Srinivasa T, and Charles-Schoeman, Christina

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Autoimmune Disease, Genetics, Clinical Research, 2.1 Biological and endogenous factors, Inflammatory and immune system, Good Health and Well Being, Aryldialkylphosphatase, Genotype, Humans, Lung Diseases, Interstitial, Myositis, Polymorphism, Single Nucleotide, idiopathic inflammatory myopathy, dermatomyositis, polymyositis, inclusion body myositis, paraoxonase1, PON1, paraoxonase, arylesterase, lactonase, Immunology, Public Health and Health Services, Arthritis & Rheumatology, Clinical sciences

Abstract

ObjectivesPatients with idiopathic inflammatory myopathies (IIM) have severe vascular involvement, which contributes to disease morbidity and mortality. Paraoxonase-1 (PON1) is a high-density lipoprotein (HDL) associated protein that protects the vascular endothelium from oxidative injury and damage. The current work assessed the functional and genetic determinants of PON1 activity in IIM patients.MethodsA total of 184 IIM patients and 112 healthy controls (HC) were included. PON1 enzyme activity was assessed by paraoxonase, arylesterase and lactonase assays, and the Q192R PON1 single nucleotide polymorphism (SNP) was analysed. Multivariate regression models examined associations of PON1 activity with IIM diagnosis and myositis disease outcomes.ResultsThe arylesterase and lactonase activities of PON1 were significantly lower in IIM patients compared with HC. Higher myositis disease activity, the presence of severe IIM-associated interstitial lung disease (ILD), and the presence of MDA5 or anti-synthetase antibodies were significantly associated with lower PON1 activity. The PON1 Q192R polymorphism was strongly linked to the paraoxonase activity of PON1 in IIM, and patients with the PON1 QQ genotype had better IIM disease outcomes compared with patients with the QR or RR genotypes.ConclusionsThe arylesterase and lactonase activities of PON1 are significantly impaired in IIM patients compared with HC, and inversely associate with IIM disease activity and the presence of severe ILD. The PON1 QQ genotype associates with more favourable disease outcomes in IIM patients. Large prospective studies are needed to further evaluate the role of PON1 and PON1 genetic polymorphisms in the development and propagation of IIM and IIM-ILD.

Published

2022

13. Disrupting quorum sensing as a strategy to inhibit bacterial virulence in human, animal, and plant pathogens.

Author

Gonzales, Mélanie, Kergaravat, Baptiste, Jacquet, Pauline, Billot, Raphaël, Grizard, Damien, Chabrière, Éric, Plener, Laure, and Daudé, David

Subjects

*PHYTOPATHOGENIC microorganisms, *VIBRIO harveyi, *ANIMAL health, *BURKHOLDERIA cepacia, *PLANT cell walls, *ACINETOBACTER baumannii

Abstract

The development of sustainable alternatives to conventional antimicrobials is needed to address bacterial virulence while avoiding selecting resistant strains in a variety of fields, including human, animal, and plant health. Quorum sensing (QS), a bacterial communication system involved in noxious bacterial phenotypes such as virulence, motility, and biofilm formation, is of utmost interest. In this study, we harnessed the potential of the lactonase Sso Pox to disrupt QS of human, fish, and plant pathogens. Lactonase treatment significantly alters phenotypes including biofilm formation, motility, and infection capacity. In plant pathogens, Sso Pox decreased the production of plant cell wall degrading enzymes in Pectobacterium carotovorum and reduced the maceration of onions infected by Burkholderia glumae. In human pathogens, lactonase treatment significantly reduced biofilm formation in Acinetobacter baumannii, Burkholderia cepacia , and Pseudomonas aeruginosa , with the cytotoxicity of the latter being reduced by Sso Pox treatment. In fish pathogens, lactonase treatment inhibited biofilm formation and bioluminescence in Vibrio harveyi and affected QS regulation in Aeromonas salmonicida. QS inhibition can thus be used to largely impact the virulence of bacterial pathogens and would constitute a global and sustainable approach for public, crop, and livestock health in line with the expectations of the One Health initiative. [ABSTRACT FROM AUTHOR]

Published

2024

14. Efficacy of ceftiofur N-acyl homoserine lactonase niosome in the treatment of multi-resistant Klebsiella pneumoniae in broilers.

Author

Hosny, Reham A., El-badiea, Zeinab A., Elmasry, Dalia M. A., and Fadel, Mai A.

Abstract

In this study, the efficiency of the ceftiofur N-acyl homoserine lactonase niosome against multi-resistant Klebsiella pneumoniae in broilers was evaluated. Fifty-six K. pneumoniae isolates previously recovered from different poultry and environmental samples were screened for the ahlK gene. The lactonase enzyme was extracted from eight quorum-quenching isolates. The niosome was formulated, characterized, and tested for minimal inhibitory concentration (MIC) and cytotoxicity. Fourteen-day-old chicks were assigned to six groups: groups Ӏ and П served as negative and positive controls, receiving saline and K. pneumoniae solutions, respectively. In groups Ш and IV, ceftiofur and niosome were administrated intramuscularly at a dose of 10 mg/kg body weight for five consecutive days, while groups V and VI received the injections following the K. pneumoniae challenge. Signs, mortality, and gross lesions were recorded. Tracheal swabs were collected from groups П, V, and VI for counting K. pneumoniae. Pharmacokinetic parameters were evaluated in four treated groups at nine-time points. The niosome was spherical and 56.5 ± 4.41 nm in size. The viability of Vero cells was unaffected up to 5 × MIC (2.4 gml−1). The niosome-treated challenged group showed mild signs and lesions with lower mortality and colony count than the positive control group. The maximum ceftiofur serum concentrations in treated groups were observed 2 h following administration. The elimination half-life in niosome-treated groups was longer than that reported in ceftiofur-treated groups. This is the first report of the administration of N-acyl homoserine lactonase for the control of multi-resistant K. pneumoniae infections in poultry. [ABSTRACT FROM AUTHOR]

Published

2023

15. Serum Arylesterase, Paraoxonase, and Lactonase Activities and Paraoxonase-1 Concentrations in Morbidly Obese Patients and Their Relationship with Non-Alcoholic Steatohepatitis.

Author

Castañé, Helena, Jiménez-Franco, Andrea, Martínez-Navidad, Cristian, Placed-Gallego, Cristina, Cambra-Cortés, Vicente, Perta, Adelina-Miruna, París, Marta, Castillo, Daniel del, Arenas, Meritxell, Camps, Jordi, and Joven, Jorge

Subjects

NON-alcoholic fatty liver disease, PARAOXONASE, OBESITY, HIGH density lipoproteins, TYPE 2 diabetes, HDL cholesterol

Abstract

Paraoxonase-1 (PON1) is an antioxidant enzyme associated with high-density lipoproteins (HDL). Reduced serum PON1 activity is found in diseases marked by oxidative stress and inflammation, but its role in obesity remains unclear. This study investigated PON1 activities and concentrations in morbidly obese individuals and explored the impacts of the genetic polymorphism PON1 rs662 and non-alcoholic fatty liver disease on enzymatic properties. We recruited 1349 morbidly obese patients undergoing bariatric surgery and 823 non-obese volunteers. PON1-related variables, including arylesterase, paraoxonase, and lactonase activities and PON1 concentrations, were examined. Our results showed that morbidly obese individuals exhibited higher PON1 concentrations but lower enzymatic activities than non-obese individuals. We observed inverse associations of arylesterase and paraoxonase activities with waist circumference (rho = −0.24, p < 0.001, and rho = −0.30, p < 0.001, respectively) and body mass index (rho = −0.15, p = 0.001, and rho = −0.23, p < 0.001), as well as direct associations of arylesterase, paraoxonase, and lactonase activities with HDL cholesterol (rho = 0.11, p = 0.005, rho = 0.20, p < 0.001, and rho = 0.20, p < 0.001). No significant differences were observed regarding metabolic syndrome, type 2 diabetes mellitus, hypertension, dyslipidemia, rs662 polymorphism allele frequencies, or the diagnosis of non-alcoholic steatohepatitis. Nevertheless, correlations were found between certain PON1-related variables, steatosis, and ballooning. In conclusion, changes in PON1-related variables in morbidly obese patients are dependent on the disease itself and HDL levels. The relationships between these variables and specific liver histological changes raise intriguing questions for consideration in future studies. [ABSTRACT FROM AUTHOR]

Published

2023

16. PON2 subverts metabolic gatekeeper functions in B cells to promote leukemogenesis

Author

Pan, Lili, Hong, Chao, Chan, Lai N, Xiao, Gang, Malvi, Parmanand, Robinson, Mark E, Geng, Huimin, Reddy, Srinivasa T, Lee, Jaewoong, Khairnar, Vishal, Cosgun, Kadriye Nehir, Xu, Liang, Kume, Kohei, Sadras, Teresa, Wang, Shaoyuan, Wajapeyee, Narendra, and Müschen, Markus

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Immunology, Pediatric, Pediatric Cancer, Orphan Drug, Rare Diseases, Hematology, Diabetes, Childhood Leukemia, Cancer, Aetiology, 2.1 Biological and endogenous factors, Generic health relevance, Adenosine Triphosphate, Animals, Aryldialkylphosphatase, B-Lymphocytes, Carcinogenesis, Cell Line, Tumor, Cells, Cultured, Glucose, Glucose Transporter Type 1, Humans, Membrane Proteins, Mice, Mice, Inbred C57BL, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Protein Binding, B cell leukemia, paraoxonase 2, glucose transport, lactonase

Abstract

Unlike other cell types, developing B cells undergo multiple rounds of somatic recombination and hypermutation to evolve high-affinity antibodies. Reflecting the high frequency of DNA double-strand breaks, adaptive immune protection by B cells comes with an increased risk of malignant transformation. B lymphoid transcription factors (e.g., IKZF1 and PAX5) serve as metabolic gatekeepers by limiting glucose to levels insufficient to fuel transformation. We here identified aberrant expression of the lactonase PON2 in B cell acute lymphoblastic leukemia (B-ALL) as a mechanism to bypass metabolic gatekeeper functions. Compared to normal pre-B cells, PON2 expression was elevated in patient-derived B-ALL samples and correlated with poor clinical outcomes in pediatric and adult cohorts. Genetic deletion of Pon2 had no measurable impact on normal B cell development. However, in mouse models for BCR-ABL1 and NRASG12D-driven B-ALL, deletion of Pon2 compromised proliferation, colony formation, and leukemia initiation in transplant recipient mice. Compromised leukemogenesis resulted from defective glucose uptake and adenosine triphosphate (ATP) production in PON2-deficient murine and human B-ALL cells. Mechanistically, PON2 enabled glucose uptake by releasing the glucose-transporter GLUT1 from its inhibitor stomatin (STOM) and genetic deletion of STOM largely rescued PON2 deficiency. While not required for glucose transport, the PON2 lactonase moiety hydrolyzes the lactone-prodrug 3OC12 to form a cytotoxic intermediate. Mirroring PON2 expression levels in B-ALL, 3OC12 selectively killed patient-derived B-ALL cells but was well tolerated in transplant recipient mice. Hence, while B-ALL cells critically depend on aberrant PON2 expression to evade metabolic gatekeeper functions, PON2 lactonase activity can be leveraged as synthetic lethality to overcome drug resistance in refractory B-ALL.

Published

2021

17. The Human Paraoxonase 2: An Optimized Procedure for Refolding and Stabilization Facilitates Enzyme Analyses and a Proteomics Approach

Author

Eros A. Lampitella, Maria Marone, Nagendra S. K. Achanta, Elena Porzio, Francesco Trepiccione, and Giuseppe Manco

Subjects

paraoxonase, lactonase, enzyme kinetics, biofilm, quorum quenching, Organic chemistry, QD241-441

Abstract

The human paraoxonase 2 (PON2) is the oldest member of a small family of arylesterase and lactonase enzymes, representing the first line of defense against bacterial infections and having a major role in ROS-associated diseases such as cancer, cardiovascular diseases, neurodegeneration, and diabetes. Specific Post-Translational Modifications (PTMs) clustering nearby two residues corresponding to pon2 polymorphic sites and their impact on the catalytic activity are not yet fully understood. Thus, the goal of the present study was to develop an improved PON2 purification protocol to obtain a higher amount of protein suitable for in-depth biochemical studies and biotechnological applications. To this end, we also tested several compounds to stabilize the active monomeric form of the enzyme. Storing the enzyme at 4 °C with 30 mM Threalose had the best impact on the activity, which was preserved for at least 30 days. The catalytic parameters against the substrate 3-Oxo-dodecanoyl-Homoserine Lactone (3oxoC12-HSL) and the enzyme ability to interfere with the biofilm formation of Pseudomonas aeruginosa (PAO1) were determined, showing that the obtained enzyme is well suited for downstream applications. Finally, we used the purified rPON2 to detect, by the direct molecular fishing (DMF) method, new putative PON2 interactors from soluble extracts of HeLa cells.

Published

2024

18. Light‐driven redox biocatalysis on gram‐scale in Synechocystis sp. PCC 6803 via an in vivo cascade.

Author

Tüllinghoff, Adrian, Djaya‐Mbissam, Harcel, Toepel, Jörg, and Bühler, Bruno

Subjects

*BIOCATALYSIS, *SYNECHOCYSTIS, *OXIDATION-reduction reaction, *SYNTHETIC products, *ELECTRON sources, *CYANOBACTERIAL toxins

Abstract

Summary: The photosynthetic light reaction in cyanobacteria constitutes a highly attractive tool for productive biocatalysis, as it can provide redox reactions with high‐energy reduction equivalents using sunlight and water as sources of energy and electrons, respectively. Here, we describe the first artificial light‐driven redox cascade in Synechocystis sp. PCC 6803 to convert cyclohexanone to the polymer building block 6‐hydroxyhexanoic acid (6‐HA). Co‐expression of a Baeyer‐Villiger monooxygenase (BVMO) and a lactonase, both from Acidovorax sp. CHX100, enabled this two‐step conversion with an activity of up to 63.1 ± 1.0 U/gCDW without accumulating inhibitory ε‐caprolactone. Thereby, one of the key limitations of biocatalytic reactions, that is, reactant inhibition or toxicity, was overcome. In 2 L stirred‐tank‐photobioreactors, the process could be stabilized for 48 h, forming 23.50 ± 0.84 mm (3.11 ± 0.12 g/L) 6‐HA. The high specificity enabling a product yield (YP/S) of 0.96 ± 0.01 mol/mol and the remarkable biocatalyst‐related yield of 3.71 ± 0.21 g6‐HA/gCDW illustrate the potential of producing this non‐toxic product in a synthetic cascade. The fine‐tuning of the energy burden on the catalyst was found to be crucial, which indicates a limitation by the metabolic capacity of the cells possibly being compromised by biocatalysis‐related reductant withdrawal. Intriguingly, energy balancing revealed that the biotransformation could tap surplus electrons derived from the photosynthetic light reaction and thereby relieve photosynthetic sink limitation. This study shows the feasibility of light‐driven biocatalytic cascade operation in cyanobacteria and highlights respective metabolic limitations and engineering targets to unleash the full potential of photosynthesis. [ABSTRACT FROM AUTHOR]

Published

2023

19. Antibiofilm Activity of the Marine Probiotic Bacillus subtilis C3 Against the Aquaculture-Relevant Pathogen Vibrio harveyi

Author

Petit, Coraline, Caudal, Flore, Taupin, Laure, Dufour, Alain, Le Ker, Carine, Giudicelli, Fanny, Rodrigues, Sophie, and Bazire, Alexis

Published

2024

20. Structure and function of aldopentose catabolism enzymes involved in oxidative non-phosphorylative pathways

Author

Yaxin Ren, Veikko Eronen, Martina Blomster Andberg, Anu Koivula, and Nina Hakulinen

Subjects

Aldopentose, Non-phosphorylative pathways, Pentose catabolism, Aldose-1-dehydrogenase, Lactonase, Sugar acid dehydratase, Biotechnology, TP248.13-248.65, Fuel, TP315-360

Abstract

Abstract Platform chemicals and polymer precursors can be produced via enzymatic pathways starting from lignocellulosic waste materials. The hemicellulose fraction of lignocellulose contains aldopentose sugars, such as d-xylose and l-arabinose, which can be enzymatically converted into various biobased products by microbial non-phosphorylated oxidative pathways. The Weimberg and Dahms pathways convert pentose sugars into α-ketoglutarate, or pyruvate and glycolaldehyde, respectively, which then serve as precursors for further conversion into a wide range of industrial products. In this review, we summarize the known three-dimensional structures of the enzymes involved in oxidative non-phosphorylative pathways of pentose catabolism. Key structural features and reaction mechanisms of a diverse set of enzymes responsible for the catalytic steps in the reactions are analysed and discussed.

Published

2022

21. Field testing of an enzymatic quorum quencher coating additive to reduce biocorrosion of steel

Author

Siqian Huang, Celine Bergonzi, Sherry Smith, Randall E. Hicks, and Mikael H. Elias

Subjects

microbiologically influenced corrosion, biocorrosion, quorum sensing, enzymatic quorum quencher, lactonase, community editing, Microbiology, QR1-502

Abstract

ABSTRACT Microbial colonization can be detrimental to the integrity of metal surfaces and lead to microbiologically influenced corrosion. Biocorrosion is a serious problem for aquatic and marine industries in the world and severely affects the maritime transportation industry by destroying port infrastructure and increasing fuel usage and the time and cost required for maintenance of transport vessels. Here, we evaluate the potential of a stable quorum quenching lactonase enzyme to reduce biocorrosion in the field. Over the course of 21 months, steel samples coated with lactonase-containing acrylic paint were submerged at two different sites and depths in the Duluth-Superior Harbor (Lake Superior, MN, USA) and benchmarked against controls, including the biological biocide surfactin. In this experiment, the lactonase treatment outperformed the surfactin biocide treatment and significantly reduced the number of corrosion tubercles (37%; P < 0.01) and the corroded surface area (39%; P < 0.01) as compared to the acrylic-coated control coupons. In an attempt to evaluate the effects of signal disruption of surface microbial communities and the reasons for lower corrosion levels, 16S rRNA sequencing was performed and community populations were analyzed. Interestingly, surface communities were similar between all treatments, and only minor changes could be observed. Among these changes, several groups, including sulfate-reducing bacteria (SRB), appeared to correlate with corrosion levels, and more specifically, SRB abundance levels were lower on lactonase-treated steel coupons. We surmise that these minute community changes may have large impacts on corrosion rates. Overall, these results highlight the potential use of stable quorum quenching lactonases as an eco-friendly antifouling coating additive. IMPORTANCE Biocorrosion severely affects the maritime transportation industry by destroying port infrastructure and increasing fuel usage and the time and cost required to maintain transport vessels. Current solutions are partly satisfactory, and the antifouling coating still largely depends on biocide-containing products that are harmful to the environment. The importance of microbial signaling in biofouling and biocorrosion is not elucidated. We here take advantage of a highly stable lactonase that can interfere with N-acyl homoserine lactone-based quorum sensing and remain active in a coating base. The observed results show that an enzyme-containing coating can reduce biocorrosion over 21 months in the field. It also reveals subtle changes in the abundance of surface microbes, including sulfate-reducing bacteria. This work may contribute to pave the way for strategies pertaining to surface microbiome changes to reduce biocorrosion.

Published

2023

22. Origin, Diversity, and Multiple Roles of Enzymes with Metallo-β-Lactamase Fold from Different Organisms.

Author

Diene, Seydina M., Pontarotti, Pierre, Azza, Saïd, Armstrong, Nicholas, Pinault, Lucile, Chabrière, Eric, Colson, Philippe, Rolain, Jean-Marc, and Raoult, Didier

Subjects

*PROTEIN folding, *GLYOXALASE, *VITAMIN C, *BIOLOGICAL transport, *RIBONUCLEASES, *ANTINEOPLASTIC agents, *PHYTASES

Abstract

β-lactamase enzymes have generated significant interest due to their ability to confer resistance to the most commonly used family of antibiotics in human medicine. Among these enzymes, the class B β-lactamases are members of a superfamily of metallo-β-lactamase (MβL) fold proteins which are characterised by conserved motifs (i.e., HxHxDH) and are not only limited to bacteria. Indeed, as the result of several barriers, including low sequence similarity, default protein annotation, or untested enzymatic activity, MβL fold proteins have long been unexplored in other organisms. However, thanks to search approaches which are more sensitive compared to classical Blast analysis, such as the use of common ancestors to identify distant homologous sequences, we are now able to highlight their presence in different organisms including Bacteria, Archaea, Nanoarchaeota, Asgard, Humans, Giant viruses, and Candidate Phyla Radiation (CPR). These MβL fold proteins are multifunctional enzymes with diverse enzymatic or non-enzymatic activities of which, at least thirteen activities have been reported such as β-lactamase, ribonuclease, nuclease, glyoxalase, lactonase, phytase, ascorbic acid degradation, anti-cancer drug degradation, or membrane transport. In this review, we (i) discuss the existence of MβL fold enzymes in the different domains of life, (ii) present more suitable approaches to better investigating their homologous sequences in unsuspected sources, and (iii) report described MβL fold enzymes with demonstrated enzymatic or non-enzymatic activities. [ABSTRACT FROM AUTHOR]

Published

2023

23. Lactonase-mediated inhibition of quorum sensing largely alters phenotypes, proteome, and antimicrobial activities in Burkholderia thailandensis E264.

Author

Gonzales, Mélanie, Plener, Laure, Armengaud, Jean, Armstrong, Nicholas, Chabrière, Éric, and Daudé, David

Subjects

ACYL-homoserine lactones, QUORUM sensing, BURKHOLDERIA, BURKHOLDERIA pseudomallei, CHROMOBACTERIUM violaceum, ANTI-infective agents, ASPERGILLUS niger

Abstract

Introduction: Burkholderia thailandensis is a study model for Burkholderia pseudomallei, a highly virulent pathogen, known to be the causative agent of melioidosis and a potential bioterrorism agent. These two bacteria use an (acylhomoserine lactone) AHL-mediated quorum sensing (QS) system to regulate different behaviors including biofilm formation, secondary metabolite productions, and motility. Methods: Using an enzyme-based quorum quenching (QQ) strategy, with the lactonase SsoPox having the best activity on B. thailandensis AHLs, we evaluated the importance of QS in B. thailandensis by combining proteomic and phenotypic analyses. Results: We demonstrated that QS disruption largely affects overall bacterial behavior including motility, proteolytic activity, and antimicrobial molecule production. We further showed that QQ treatment drastically decreases B. thailandensis bactericidal activity against two bacteria (Chromobacterium violaceum and Staphylococcus aureus), while a spectacular increase in antifungal activity was observed against fungi and yeast (Aspergillus niger, Fusarium graminearum and Saccharomyces cerevisiae). Discussion: This study provides evidence that QS is of prime interest when it comes to understanding the virulence of Burkholderia species and developing alternative treatments. [ABSTRACT FROM AUTHOR]

Published

2023

24. EXPRESSION OF PARAOXONASE 1 IN HEK293 CELLS AND ITS EFFECT ON LACTONASE AND ARYLESTERASE ACTIVITY IN SAMPLES CONTAINING HUMAN SERUM AND/OR PROOXIDANT OR ANTIOXIDANT AGENTS - A PRELIMINARY STUDY.

Author

BIZOŃ, ANNA and PIWOWAR, AGNIESZKA

Subjects

PARAOXONASE, LACTONASE, COPPER ions, LIPOPROTEINS, THERAPEUTICS

Abstract

Expression of recombinant paraoxonase 1 (PON1) in the human embryonic kidney (HEK293F) cell line was evaluated. Two recombinant human PON1 proteins were investigated: PON1-Fc, which has an Fc-tag on its C-terminal, and His-PON1-Fc, which has an Fc-tag on its C-terminal and histidine on its N-terminal. The influence of high and low-density lipoproteins, copper ions, iron ions, and thiolactone homocysteine, on arylesterase and lactonase activities of PON1 in human serum was examined. Two activities of PON1, arylesterase and lactonase, were measured using an earlier elaborated kinetic spectrophotometric method with temperature control at 37°C using the water thermostated cuvette holder. It was demonstrated that the HEK293F expression platform is useful for obtaining recombinant human PON1 protein. Also, the addition of high-density lipoprotein increased serum arylesterase and lactonase activity of PON1 to a greater extent than the addition of PON1-Fc or HisPON1-Fc recombinant proteins. In contrast, the addition of high-density lipoprotein to samples containing PON1-Fc or His-PON1-Fc did not increase PON1 activities, while low-density lipoprotein, copper ions, and iron ions, depressed PON1 arylesterase and lactonase activity. Obtained results indicated that it may be advantageous to stimulate PON1 activities rather than supplement with endogenous PON1 protein and HDL, which could be an interesting direction for further study. Furthermore, the work has highlighted some potential research directions for the use of PON1 as a therapeutic molecule. Nevertheless, the study had some limitations and should therefore be treated as a preliminary study. [ABSTRACT FROM AUTHOR]

Published

2023

25. Enzymes with Lactonase Activity against Fungal Quorum Molecules as Effective Antifungals

Author

Elena Efremenko, Aysel Aslanli, Maksim Domnin, Nikolay Stepanov, and Olga Senko

Subjects

lactamase, lactonase, organophosphate hydrolase, butyrolactone I, γ-heptalactone, ATP concentration, Microbiology, QR1-502

Abstract

Since the growing number of fungi resistant to the fungicides used is becoming a serious threat to human health, animals, and crops, there is a need to find other effective approaches in the eco-friendly suppression of fungal growth. One of the main mechanisms of the development of resistance in fungi, as well as in bacteria, to antimicrobial agents is quorum sensing (QS), in which various lactone-containing compounds participate as signaling molecules. This work aimed to study the effectiveness of action of enzymes exhibiting lactonase activity against fungal signaling molecules. For this, the molecular docking method was used to estimate the interactions between these enzymes and different lactone-containing QS molecules of fungi. The catalytic characteristics of enzymes such as lactonase AiiA, metallo-β-lactamase NDM-1, and organophosphate hydrolase His6-OPH, selected for wet experiments based on the results of computational modeling, were investigated. QS lactone-containing molecules (butyrolactone I and γ-heptalactone) were involved in the experiments as substrates. Further, the antifungal activity of the enzymes was evaluated against various fungal and yeast cells using bioluminescent ATP-metry. The efficient hydrolysis of γ-heptalactone by all three enzymes and butyrolactone I by His6-OPH was demonstrated for the first time. The high antifungal efficacy of action of AiiA and NDM-1 against most of the tested fungal cells was revealed.

Published

2024

26. Lactonase-mediated inhibition of quorum sensing largely alters phenotypes, proteome, and antimicrobial activities in Burkholderia thailandensis E264

Author

Mélanie Gonzales, Laure Plener, Jean Armengaud, Nicholas Armstrong, Éric Chabrière, and David Daudé

Subjects

quorum sensing, Burkholderia thailandensis, quorum quenching, lactonase, Acyl-homoserine lactone, Microbiology, QR1-502

Abstract

IntroductionBurkholderia thailandensis is a study model for Burkholderia pseudomallei, a highly virulent pathogen, known to be the causative agent of melioidosis and a potential bioterrorism agent. These two bacteria use an (acyl-homoserine lactone) AHL-mediated quorum sensing (QS) system to regulate different behaviors including biofilm formation, secondary metabolite productions, and motility.MethodsUsing an enzyme-based quorum quenching (QQ) strategy, with the lactonase SsoPox having the best activity on B. thailandensis AHLs, we evaluated the importance of QS in B. thailandensis by combining proteomic and phenotypic analyses.ResultsWe demonstrated that QS disruption largely affects overall bacterial behavior including motility, proteolytic activity, and antimicrobial molecule production. We further showed that QQ treatment drastically decreases B. thailandensis bactericidal activity against two bacteria (Chromobacterium violaceum and Staphylococcus aureus), while a spectacular increase in antifungal activity was observed against fungi and yeast (Aspergillus niger, Fusarium graminearum and Saccharomyces cerevisiae).DiscussionThis study provides evidence that QS is of prime interest when it comes to understanding the virulence of Burkholderia species and developing alternative treatments.

Published

2023

27. Serum Arylesterase, Paraoxonase, and Lactonase Activities and Paraoxonase-1 Concentrations in Morbidly Obese Patients and Their Relationship with Non-Alcoholic Steatohepatitis

Author

Helena Castañé, Andrea Jiménez-Franco, Cristian Martínez-Navidad, Cristina Placed-Gallego, Vicente Cambra-Cortés, Adelina-Miruna Perta, Marta París, Daniel del Castillo, Meritxell Arenas, Jordi Camps, and Jorge Joven

Subjects

arylesterase, lactonase, morbid obesity, non-alcoholic fatty liver disease, non-alcoholic steatohepatitis, obesity, Therapeutics. Pharmacology, RM1-950

Abstract

Paraoxonase-1 (PON1) is an antioxidant enzyme associated with high-density lipoproteins (HDL). Reduced serum PON1 activity is found in diseases marked by oxidative stress and inflammation, but its role in obesity remains unclear. This study investigated PON1 activities and concentrations in morbidly obese individuals and explored the impacts of the genetic polymorphism PON1 rs662 and non-alcoholic fatty liver disease on enzymatic properties. We recruited 1349 morbidly obese patients undergoing bariatric surgery and 823 non-obese volunteers. PON1-related variables, including arylesterase, paraoxonase, and lactonase activities and PON1 concentrations, were examined. Our results showed that morbidly obese individuals exhibited higher PON1 concentrations but lower enzymatic activities than non-obese individuals. We observed inverse associations of arylesterase and paraoxonase activities with waist circumference (rho = −0.24, p < 0.001, and rho = −0.30, p < 0.001, respectively) and body mass index (rho = −0.15, p = 0.001, and rho = −0.23, p < 0.001), as well as direct associations of arylesterase, paraoxonase, and lactonase activities with HDL cholesterol (rho = 0.11, p = 0.005, rho = 0.20, p < 0.001, and rho = 0.20, p < 0.001). No significant differences were observed regarding metabolic syndrome, type 2 diabetes mellitus, hypertension, dyslipidemia, rs662 polymorphism allele frequencies, or the diagnosis of non-alcoholic steatohepatitis. Nevertheless, correlations were found between certain PON1-related variables, steatosis, and ballooning. In conclusion, changes in PON1-related variables in morbidly obese patients are dependent on the disease itself and HDL levels. The relationships between these variables and specific liver histological changes raise intriguing questions for consideration in future studies.

Published

2023

28. Structure and function of aldopentose catabolism enzymes involved in oxidative non-phosphorylative pathways.

Author

Ren, Yaxin, Eronen, Veikko, Blomster Andberg, Martina, Koivula, Anu, and Hakulinen, Nina

Subjects

*CATABOLISM, *MICROBIAL products, *HEMICELLULOSE, *ENZYMES, *CHEMICAL precursors, *WASTE products, *LIGNOCELLULOSE

Abstract

Platform chemicals and polymer precursors can be produced via enzymatic pathways starting from lignocellulosic waste materials. The hemicellulose fraction of lignocellulose contains aldopentose sugars, such as d-xylose and l-arabinose, which can be enzymatically converted into various biobased products by microbial non-phosphorylated oxidative pathways. The Weimberg and Dahms pathways convert pentose sugars into α-ketoglutarate, or pyruvate and glycolaldehyde, respectively, which then serve as precursors for further conversion into a wide range of industrial products. In this review, we summarize the known three-dimensional structures of the enzymes involved in oxidative non-phosphorylative pathways of pentose catabolism. Key structural features and reaction mechanisms of a diverse set of enzymes responsible for the catalytic steps in the reactions are analysed and discussed. [ABSTRACT FROM AUTHOR]

Published

2022

29. Zearalenone lactonase: characteristics, modification, and application.

Author

Fang, Yuanyuan, Zhang, Zhenxia, Xu, Wei, Zhang, Wenli, Guang, Cuie, and Mu, Wanmeng

Subjects

*MYCOTOXINS, *FUNGAL remediation, *FUSARIUM toxins, *ZEARALENONE, *FOOD security, *ZEN Buddhism

Abstract

Zearalenone (ZEN) and its derivatives are one of the most contaminated fungal toxins worldwide, posing a severe threat to food security and human life. Traditional physical and chemical detoxifying methods are unsatisfactory due to incomplete detoxification, nutrient loss, and secondary pollutants. In recent years, bioremediation for eliminating fungal toxins has been gradually investigated. ZEN lactone hydrolase (lactonase) has been widely studied because of its high activity, mild conditions, and non-toxic product property. This review comprehensively represents the gene mining, characterization, molecular modification, and application of microbial-derived ZEN lactonases. It is aimed to elucidate the advantages and challenges of ZEN lactonases in industrial application, which also provides perspectives on obtaining innovative and promising biocatalysts for ZEN degradation. Key points: • A timely and concise review related to enzymatic elimination towards ZEN is shown. • The catalytic conditions and mechanism of ZEN lactonase is presented. • The modification and application of ZEN lactonase are exhibited also. [ABSTRACT FROM AUTHOR]

Published

2022

30. Unraveling the role of UilS, a urea-induced acyl-homoserine lactonase that enhances Serratia marcescens fitness, interbacterial competition, and urinary tract infection.

Author

Tuttobene MR, Arango Gil BS, Di Venanzio G, Mariscotti JF, Sieira R, Feldman MF, Ramirez MS, and García Véscovi E

Subjects

Animals, Mice, Humans, Carboxylic Ester Hydrolases genetics, Carboxylic Ester Hydrolases metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Gene Expression Regulation, Bacterial, Pseudomonas aeruginosa genetics, Pseudomonas aeruginosa drug effects, Pseudomonas aeruginosa enzymology, Female, Acyl-Butyrolactones metabolism, Microbial Interactions, Serratia marcescens genetics, Serratia marcescens enzymology, Serratia marcescens drug effects, Serratia marcescens physiology, Urinary Tract Infections microbiology, Urea pharmacology, Urea metabolism, Serratia Infections microbiology, Quorum Sensing

Abstract

Serratia marcescens , a member of the Enterobacteriaceae family, is an opportunistic human pathogen and a frequent cause of urinary tract infections. Clinical isolates often exhibit resistance to multiple antibiotics, posing challenges for successful treatment. Understanding its pathogenic mechanisms is crucial for elucidating new potential targets to develop effective therapeutic interventions and manage S. marcescens infections. This work identifies u rea- i nduced l actonase of S erratia (UilS), a lactonase encoded in the S. marcescens RM66262 strain isolated from a patient with a urinary tract infection. The study explores the bacterium's response to urea, a major component of urine, and its impact on uilS expression. We found that UilS degrades acyl-homoserine lactones (AHL) autoinducers traditionally associated with quorum sensing mechanisms. Surprisingly, UilS is able to degrade self and non-self AHL, exhibiting quorum-quenching activity toward Pseudomonas aeruginosa . We found that LuxR regulates uilS expression that is enhanced in the presence of AHL. In addition, urea-dependent induction of UilS expression is controlled by the transcriptional response regulator CpxR. UilS confers fitness advantage to S. marcescens , especially in the presence of urea, emphasizing the adaptive plasticity of strains to modulate gene expression based on environmental signals and population density. We also discovered a novel bacterial killing capacity of S. marcescens that involves UilS, indicating its importance in the interspecies interaction of Serratia . Finally, we found that a uilS mutant strain displays attenuated colonization in a mouse model of catheter-associated urinary tract infection. uilS is present in clinical but absent in environmental isolates, suggesting an evolutionary adaptation to host-specific selective pressures., Importance: This work reveals the acyl-homoserine lactonase u rea- i nduced l actonase of S erratia as a novel virulence factor of Serratia marcescens , unraveling a potential target to develop antimicrobial strategies and shedding light on the complex regulatory network governing pathogenicity and adaptation to host environments., Competing Interests: The authors declare no conflict of interest.

Published

2024

31. Quorum Quenching Lactonase Alters Virulence of Pectobacterium atrosepticum and Reduces Maceration in Potatoes.

Author

Kergaravat B, Kielbasa M, Chabrière É, Armengaud J, Plener L, and Daudé D

Subjects

Virulence, Carboxylic Ester Hydrolases metabolism, Carboxylic Ester Hydrolases genetics, Polysaccharide-Lyases metabolism, Polysaccharide-Lyases genetics, Polygalacturonase metabolism, Plant Tubers microbiology, Solanum tuberosum microbiology, Pectobacterium pathogenicity, Pectobacterium genetics, Pectobacterium drug effects, Pectobacterium enzymology, Quorum Sensing drug effects, Plant Diseases microbiology, Bacterial Proteins metabolism, Bacterial Proteins genetics

Abstract

Pectobacterium atrosepticum is a soft rot phytopathogenic bacterium mainly infecting potatoes. The virulence of P. atrosepticum is controlled by quorum sensing (QS), a communication mechanism which enables bacteria to coordinate their behavior in a population density-dependent manner. Inhibiting QS has gained interest as a sustainable alternative to conventional treatments to control pathogens in agriculture. Here, we investigate the potential of a robust lactonase to inhibit P. atrosepticum virulence in vitro, combining phenotypic and proteomic studies. We report that exogenous lactonase treatment reduced the secretion of pectate lyase, cellulase, and polygalacturonase enzymes, leading to decreased virulence on potato tubers. Major changes in the P. atrosepticum proteome revealed that lactonase affects the abundance of proteins with various functions, including virulence. Taken as a whole, these results suggest that lactonase-mediated disruption of QS in P. atrosepticum is a promising strategy to limit P. atrosepticum infections.

Published

2024

32. Evidence for Complex Interplay between Quorum Sensing and Antibiotic Resistance in Pseudomonas aeruginosa

Author

Rakesh Sikdar and Mikael H. Elias

Subjects

Pseudomonas aeruginosa, antibiotic resistance, lactonase, quorum sensing, Microbiology, QR1-502

Abstract

ABSTRACT Quorum sensing (QS) is a cell-density-dependent, intercellular communication system mediated by small diffusible signaling molecules. QS regulates a range of bacterial behaviors, including biofilm formation, virulence, drug resistance mechanisms, and antibiotic tolerance. Enzymes capable of degrading signaling molecules can interfere in QS—a process termed as quorum quenching (QQ). Remarkably, previous work reported some cases where enzymatic interference in QS was synergistic to antibiotics against Pseudomonas aeruginosa. The premise of combination therapy is attractive to fight against multidrug-resistant bacteria, yet comprehensive studies are lacking. Here, we evaluate the effects of QS signal disruption on the antibiotic resistance profile of P. aeruginosa by testing 222 antibiotics and antibacterial compounds from 15 different classes. We found compelling evidence that QS signal disruption does indeed affect antibiotic resistance (40% of all tested compounds; 89/222), albeit not always synergistically (not synergistic for 19% of compounds; 43/222). For some tested antibiotics, such as sulfathiazole and trimethoprim, we were able to relate the changes in resistance caused by QS signal disruption to the modulation of the expression of key genes of the folate biosynthetic pathway. Moreover, using a P. aeruginosa-based Caenorhabditis elegans killing model, we confirmed that enzymatic QQ modulates the effects of antibiotics on P. aeruginosa’s pathogenicity in vivo. Altogether, these results show that signal disruption has profound and complex effects on the antibiotic resistance profile of P. aeruginosa. This work suggests that combination therapy including QQ and antibiotics should be discussed not globally but, rather, in case-by-case studies. IMPORTANCE Quorum sensing (QS) is a cell-density-dependent communication system used by a wide range of bacteria to coordinate behaviors. Strategies pertaining to the interference in QS are appealing approaches to control microbial behaviors that depend on QS, including virulence and biofilms. Interference in QS was previously reported to be synergistic with antibiotics, yet no systematic assessment exists. Here, we evaluate the potential of combination treatments using the model opportunistic human pathogen Pseudomonas aeruginosa PA14. In this model, collected data demonstrate that QS largely modulates the antibiotic resistance profile of PA14 (for more than 40% of the tested drugs). However, the outcome of combination treatments is synergistic for only 19% of them. This research demonstrates the complex relationship between QS and antibiotic resistance and suggests that combination therapy including QS inhibitors and antibiotics should be discussed not globally but, rather, in case-by-case studies.

Published

2022

33. Origin, Diversity, and Multiple Roles of Enzymes with Metallo-β-Lactamase Fold from Different Organisms

Author

Seydina M. Diene, Pierre Pontarotti, Saïd Azza, Nicholas Armstrong, Lucile Pinault, Eric Chabrière, Philippe Colson, Jean-Marc Rolain, and Didier Raoult

Subjects

metallo-β-lactamase (MβL) fold proteins, multifunctional enzymes, antibiotic-hydrolysing activity, nuclease, ribonuclease, lactonase, Cytology, QH573-671

Abstract

β-lactamase enzymes have generated significant interest due to their ability to confer resistance to the most commonly used family of antibiotics in human medicine. Among these enzymes, the class B β-lactamases are members of a superfamily of metallo-β-lactamase (MβL) fold proteins which are characterised by conserved motifs (i.e., HxHxDH) and are not only limited to bacteria. Indeed, as the result of several barriers, including low sequence similarity, default protein annotation, or untested enzymatic activity, MβL fold proteins have long been unexplored in other organisms. However, thanks to search approaches which are more sensitive compared to classical Blast analysis, such as the use of common ancestors to identify distant homologous sequences, we are now able to highlight their presence in different organisms including Bacteria, Archaea, Nanoarchaeota, Asgard, Humans, Giant viruses, and Candidate Phyla Radiation (CPR). These MβL fold proteins are multifunctional enzymes with diverse enzymatic or non-enzymatic activities of which, at least thirteen activities have been reported such as β-lactamase, ribonuclease, nuclease, glyoxalase, lactonase, phytase, ascorbic acid degradation, anti-cancer drug degradation, or membrane transport. In this review, we (i) discuss the existence of MβL fold enzymes in the different domains of life, (ii) present more suitable approaches to better investigating their homologous sequences in unsuspected sources, and (iii) report described MβL fold enzymes with demonstrated enzymatic or non-enzymatic activities.

Published

2023

34. Structural characteristics of YtnP lactonase originating from Stenotrophomonas maltophilia 6960

Author

Curčić, Jovana, Malešević, Milka, Jovčić, Branko, Curčić, Jovana, Malešević, Milka, and Jovčić, Branko

Abstract

Antibiotic resistance represents a serious global health threat. Available antibiotics progressively lose efficacy against many bacterial pathogens. This phenomenon underscores the urgent need for alternative strategies to combat bacterial infections. Progress in understanding the regulation of bacterial pathogenicity has prompted researchers to explore potential antivirulence drugs as a promising alternative. Quorum quenching enzymes capable of degrading N-acyl homoserine lactones can impede bacterial virulence and biofilm formation by disrupting cell-to-cell communication. In this study, we employed in silico structural characterization of YtnP lactonase originating from Stenotrophomonas maltophilia 6960, utilizing various online software tools, including AlphaFold2, I-TASSER, PSIPRED, Phyre2, and SWISS-MODEL algorithms. The results obtained from these programs were compared to each other. The analysis revealed a 278 amino acid residue protein with a molecular weight of 31.02 kDa, predicted to be a transmembrane protein with an N-terminal extracellular domain and a C-terminal cytoplasmic domain, predominantly comprised of extracellular amino acid residues. Experimental validation demonstrated the quorum quenching activity of S. maltophilia 6960 towards exogenous AHLs, supporting the predicted role of YtnP lactonase in modulating quorum sensing of the surrounding bacteria. Furthermore, the observation of QQ activity in the crude extract and not in the cell-free supernatant of bacterial strain 6960 indicates that the YtnP lactonase is active within the bacterial cells. Secondary structure predictions revealed a balanced distribution of alpha-helices and beta-sheets, while tertiary structure predictions suggested a homodimeric configuration with four Zn2+ binding sites. These findings, which combine in silico predictions with experimental validation, provide a solid foundation for further exploration in the development of effective antivirulence therapeutics. Leverag

Published

2024

35. LACTONASE MEDIATED QUORUM QUENCHING OF PSEUDOMONAS AERUGINOSA VIRULENCE

Author

Malešević, Milka, Ćurčić, Jovana, Jovčić, Branko, Malešević, Milka, Ćurčić, Jovana, and Jovčić, Branko

Abstract

Solving the problem of the antimicrobial resistance crisis is one of the primary challenges currently confronting the healthcare system. One of the most promising new strategies to combat antimicrobial resistance is the antivirulence therapy, based on silencing bacterial cell-to-cell communication (quorum quenching - QQ). QQ enzymes lactonases represent a diverse group of enzymes capable of inactivating signaling molecules of bacterial communication – N-acyl homoserine lactones (AHLs), resulting in alterations ofbacterial virulence. The numerous virulence factors and resistance to most conventional antibiotics have led to Pseudomonas aeruginosa being listed as one of the top-priority pathogens on the ESCAPE pathogen list, highlighting the urgent need for the development of new therapies to combat this pathogen. P. aeruginosauses cell-to-cell communication known as quorum sensing (QS) that allows bacteria to monitor their own population density via signal molecules and subsequently control bacterial pathogenesis. Our hypothesis was that bacterial pathogens which share the same ecological niche with P. aeruginosa during infection have developed a system to disrupt its QS system, in order to survive in polymicrobial communities alongside this successful pathogen. In our research we identified QQ enzymes lactonases originating from two Gramnegative bacterial pathogens Burkholderiacepacia and Stenotrophomonas maltophilia. The genes encoding for the enzymes were cloned and expressed in pQE30 expression vector. B. cepacia BCC4135 synthesizes two lactonases YtnP and Y2-aiiA, that have the different cellular localization, but also different substrate specificity, which could imply the difference in their biological roles. S. maltophilia 6960 YtnP lactonase has several advantageous biotechnological properties, such as high thermostability, activity in a wide pH range, and no cytotoxic microscopy analysis showed a strong effect of analyzed lactonases on preventing biofilm form

Published

2024

36. YTNP LACTONASE IMPROVES THE ABILITY OF CAENORHABDITIS ELEGANS TO SURVIVE PSEUDOMONAS AERUGINOSA MMA83 INFECTION

Author

Ćurčić, Jovana, Malešević, Milka, Dinić, Miroslav, Novović, Katarina, Vasiljević, Zorica, Stanisavljević, Nemanja, Jovčić, Branko, Ćurčić, Jovana, Malešević, Milka, Dinić, Miroslav, Novović, Katarina, Vasiljević, Zorica, Stanisavljević, Nemanja, and Jovčić, Branko

Abstract

Pseudomonas aeruginosa is a Gram-negative pathogen responsible for frequent hospital-acquired infections of the bloodstream, the respiratory tract, and the urinary tract. Quorum quenching enzymes are recognized as an alternative antivirulence approach targeting pathogenic bacteria. The efficacy of YtnP lactonase in reducing the virulence of P. aeruginosa MMA83 in vivo using Caenorhabditis elegans as a model system was investigated. The recombinant YtnP lactonase exhibits no cytotoxicity, demonstrated by its lack of harmful effects on both the immortalized human HaCaT cell line and two strains of C. elegans (AU37 and N2 wild-type). In a toxin-mediated killing liquid assay, the survival rates of C. elegans AU37 mutant and N2 wildtype strains infected with the clinical isolate P. aeruginosa MMA83 significantly increased when pre-treated with YtnP lactonase, compared to untreated controls. Considering that virulence factors expression is regulated by quorum sensing (QS) signaling it is hypothesized that YtnP lactonase prolongs the life span of C. elegans by downregulating the QS and expression of virulence factors of MMA83. The protective effects of YtnP lactonase against MMA83-induced pathogenicity in C. elegans, coupled with its absence of cytotoxicity, position YtnP lactonase as a promising prophylactic agent with antivirulence properties.

Published

2024

37. Sensitive Assay for the Lactonase Activity of Serum Paraoxonase 1 (PON1) by Harnessing the Fluorescence Turn-On Characteristics of Bioorthogonally Synthesized and Geometrically Controlled Chemical Probes.

Author

Fang, Bo-Kai, Dai, Chia-Yen, Severance, Scott, Hwang, Chi-Ching, Huang, Chien-Hui, Hou, Sin-Yu, Yeh, Bao-Lin, Gong, Ming-Mao, Chou, Yun-Hao, Wang, Jeh-Jeng, and Wang, Tzu-Pin

Subjects

*PARAOXONASE, *FLUORESCENCE, *BASE catalysts, *FLUORESCENCE quenching, *RHODAMINE B, *SERUM albumin, *FLUORESCEIN, *THIOLS

Abstract

The lactonase activity of paraoxonase 1 (PON1) has a crucial antiatherogenic function, and also serves as an important biochemical marker in human blood because the aberrant lactonase activity of PON1 is a key indicator for a number of diverse human diseases. However, no sensitive fluorescence assays that detect PON1 lactonase activity are available. We report the synthesis of two fluorescence turn-on chemical probes 16a and 16b (16) able to quantify PON1 lactonase activity. The chemical probes were constructed utilizing a disulfide-containing bicyclononyne, derivatives of rhodamine B and carboxyfluorescein, and reactions including copper-free azide–alkyne cycloaddition. Fluorescence quenching in 16 was characterized by spectroscopic studies and was mainly attributed to the effect of contact quenching. Kinetic analysis of 16b confirmed the outstanding reactivity and specificity of 16b with thiols in the presence of general base catalysts. The 16b-based assay was employed to determine PON1 lactonase activity, with a linear range of 10.8–232.1 U L−1 and detection limit (LOD) of 10.8 U L−1, to quantify serum PON1 activity in human sera, and to determine the Ki of 20.9 μM for the 2-hydroxyquinoline inhibition of PON1 lactonase. We are employing 16b to develop high-throughput assays for PON1 lactonase activity. [ABSTRACT FROM AUTHOR]

Published

2022

38. Targeting Acyl Homoserine Lactones (AHLs) by the quorum quenching bacterial strains to control biofilm formation in Pseudomonas aeruginosa.

Author

Khalid, Syeda Javariya, Ain, Quratul, Khan, Sher Jamal, Jalil, Amna, Siddiqui, Muhammad Faisal, Ahmad, Tahir, Badshah, Malik, and Adnan, Fazal

Abstract

Navigating novel biological strategies to mitigate bacterial biofilms have great worth to combat bacterial infections. Bacterial infections caused by the biofilm forming bacteria are 1000 times more resistant to antibiotics than the planktonic bacteria. Among the known bacterial infections, more than 70% involve biofilms which severely complicates treatment options. Biofilm formation is mainly regulated by the Quorum sensing (QS) mechanism. Interference with the QS system by the quorum quenching (QQ) enzyme is a potent strategy to mitigate biofilm. In this study, bacterial strains with QQ activity were identified and their anti-biofilm potential was investigated against the Multidrug Resistant (MDR) Pseudomonas aeruginosa. A Chromobacterium violaceum CV026 and Agrobacterium tumefaciens A136-based bioassays were used to confirm the degradation of different Acyl Homoserine Lactones (AHLs) by QQ isolates. The 16S rRNA gene sequencing of the isolated strains identified them as Bacillus cereus strain QSP03, B. subtilis strain QSP10, Pseudomonas putida strain QQ3 and P. aeruginosa strain QSP01. Biofilm mitigation potential of QQ isolates was tested against MDR P. aeruginosa and the results suggested that 50% biofilm reduction was observed by QQ3 and QSP01 strains, and around 60% reduction by QSP10 and QSP03 bacterial isolates. The presence of AHL degrading enzymes, lactonases and acylases, was confirmed by PCR based screening and sequencing of the already annotated genes aiiA , pvdQ and quiP. Altogether, these results exhibit that QQ bacterial strains or their products could be useful to control biofilm formation in P.aeruginosa. [ABSTRACT FROM AUTHOR]

Published

2022

39. Insights into the role of paraoxonase 2 in human pathophysiology.

Author

Parween, Fauzia and Gupta, Rinkoo Devi

Subjects

*PARAOXONASE, *ENDOENZYMES, *OXIDATIVE stress, *PATHOLOGICAL physiology, *BACTERIAL diseases

Abstract

Paraoxonase 2 (PON2) is a ubiquitously expressed intracellular enzyme that is known to have a protective role from oxidative stress. Clinical studies have also demonstrated the significance of PON2 in the manifestation of cardiovascular and several other diseases, and hence, it is considered an important biomarker. Recent findings of its expression in brain tissue suggest its potential protective effect on oxidative stress and neuroinflammation. Polymorphisms of PON2 in humans are a risk factor in many pathological conditions, suggesting a possible mechanism of its anti-oxidative property probably through lactonase activity. However, exogenous factors may also modulate the expression and activity of PON2. Hence, this review aims to report the mechanism by which PON2 expression is regulated and its role in oxidative stress disorders such as neurodegeneration and tumor formation. The role of PON2 owing to its lactonase activity in bacterial infectious diseases and association of PON2 polymorphism with pathological conditions are also highlighted. [ABSTRACT FROM AUTHOR]

Published

2022

40. Histidine protonation states are key in the LigI catalytic reaction mechanism.

Author

Zhao, Li Na, Mondal, Dibyendu, Li, Weifeng, Mu, Yuguang, and Kaldis, Philipp

Abstract

Lignin is one of the world's most abundant organic polymers, and 2‐pyrone‐4,6‐dicarboxylate lactonase (LigI) catalyzes the hydrolysis of 2‐pyrone‐4,6‐dicarboxylate (PDC) in the degradation of lignin. The pH has profound effects on enzyme catalysis and therefore we studied this in the context of LigI. We found that changes of the pH mostly affects surface residues, while the residues at the active site are more subject to changes of the surrounding microenvironment. In accordance with this, a high pH facilitates the deprotonation of the substrate. Detailed free energy calculations by the empirical valence bond (EVB) approach revealed that the overall hydrolysis reaction is more likely when the three active site histidines (His31, His33 and His180) are protonated at the ɛ site, however, protonation at the δ site may be favored during specific steps of the reaction. Our studies have uncovered the determinant role of the protonation state of the active site residues His31, His33 and His180 in the hydrolysis of PDC. [ABSTRACT FROM AUTHOR]

Published

2022

41. Bacterial Quorum-Quenching Lactonase Hydrolyzes Fungal Mycotoxin and Reduces Pathogenicity of Penicillium expansum—Suggesting a Mechanism of Bacterial Antagonism.

Author

Dor, Shlomit, Prusky, Dov, and Afriat-Jurnou, Livnat

Subjects

*LACTONASE, *MYCOTOXINS, *MICROBIAL virulence, *APPLE blue mold, *ANTIBIOSIS

Abstract

Penicillium expansum is a necrotrophic wound fungal pathogen that secrets virulence factors to kill host cells including cell wall degrading enzymes (CWDEs), proteases, and mycotoxins such as patulin. During the interaction between P. expansum and its fruit host, these virulence factors are strictly modulated by intrinsic regulators and extrinsic environmental factors. In recent years, there has been a rapid increase in research on the molecular mechanisms of pathogenicity in P. expansum; however, less is known regarding the bacteria–fungal communication in the fruit environment that may affect pathogenicity. Many bacterial species use quorum-sensing (QS), a population density-dependent regulatory mechanism, to modulate the secretion of quorum-sensing signaling molecules (QSMs) as a method to control pathogenicity. N-acyl homoserine lactones (AHLs) are Gram-negative QSMs. Therefore, QS is considered an antivirulence target, and enzymes degrading these QSMs, named quorum-quenching enzymes, have potential antimicrobial properties. Here, we demonstrate that a bacterial AHL lactonase can also efficiently degrade a fungal mycotoxin. The mycotoxin is a lactone, patulin secreted by fungi such as P. expansum. The bacterial lactonase hydrolyzed patulin at high catalytic efficiency, with a kcat value of 0.724 ± 0.077 s−1 and KM value of 116 ± 33.98 μM. The calculated specific activity (kcat/KM) showed a value of 6.21 × 10³ s−1M−1. While the incubation of P. expansum spores with the purified lactonase did not inhibit spore germination, it inhibited colonization by the pathogen in apples. Furthermore, adding the purified enzyme to P. expansum culture before infecting apples resulted in reduced expression of genes involved in patulin biosynthesis and fungal cell wall biosynthesis. Some AHL-secreting bacteria also express AHL lactonase. Here, phylogenetic and structural analysis was used to identify putative lactonase in P. expansum. Furthermore, following recombinant expression and purification of the newly identified fungal enzyme, its activity with patulin was verified. These results indicate a possible role for patulin and lactonases in inter-kingdom communication between fungi and bacteria involved in fungal colonization and antagonism and suggest that QQ lactonases can be used as potential antifungal post-harvest treatment. [ABSTRACT FROM AUTHOR]

Published

2021

42. Quorum quenching activity of Bacillus cereus isolate 30b confers antipathogenic effects in Pseudomonas aeruginosa

Author

Raafat MM, Ali-Tammam M, and Ali AE

Subjects

lactonase, antivirulence, Pseudomonas aeruginosa, biofilm, cytotoxicity, quorum quenching, AHL, Infectious and parasitic diseases, RC109-216

Abstract

Marwa M Raafat,1 Marwa Ali-Tammam,1 Amal E Ali11Department of Microbiology & Immunology, Faculty of Pharmaceutical Sciences & Pharmaceutical Industries, Future University in Egypt (FUE), New Cairo, EgyptBackground: Quorum quenching, the interference of a Quorum sensing (QS) system that contributes to the pathogenesis through triggering the production of various virulence determinants, is among the newly suggested antivirulence strategies.Purpose: This study aimed at screening of N-Acyl homoserine lactonase activity from local bacterial isolate, and investigating its effect on Pseudomonas aeruginosa (P. aeruginosa) virulence and biofilm formation.Materials and methods: Soil bacteria were screened for aiiA gene coding for lactonase enzyme by Polymerase Chain reaction and sequencing of aiiA gene homologs. Lactonase activity and spectrum were assessed in the cell-free lysate by well diffusion assay using Agrobacterium tumafaciens KYC55. A bacterial isolate showing the highest N-acyl-homoserine lactones degradation percentage was identified by gene amplification and sequencing of the 16S rRNA gene and its aiiA gene homolog. High performance liquid chromatography was used to confirm N-acyl-homoserine lactone degradation. The effect of cell-free lysate on the biofilm formation ability and cytotoxicity of P. aeruginosa PAO1 and P. aeruginosa clinical isolates from different clinical sources were assessed by static microtiter plate and viability assay, respectivelyResults: Lactonase gene and activity were identified in three Bacillus spp. isolates. They showed broad catalytic activities against tested N-acyl-homoserine lactones. However, The lactonase activity in the cell-free lysate of isolate 30b showed the highest significant degradation percentage on all tested signals; N-butanoyl-L-homoserine lactone (71%), N-hexanoyl-l-homoserine lactone (100%), N-decanoyl-homoserine lactone (100%), N-(3-oxohexanoyl)-L-homoserine lactone (37.5%), N-(oxodecanoyl)-L-homoserine lactone (100%), and N-(3-oxododecanoyl)-L-homoserine lactone (100%). Alignment of the amino acid sequences of AiiA protein of isolate 30b showed 96% identity with Bacillus cereus (B. cereus) homologous lactonases in the GenBank database, and the isolate was designated as B. cereus isolate 30b. Cell-free lysate of B. cereus isolate 30b reduced biofilm formation significantly in 93% of P. aeruginosa isolates. The highest mean percentage of reduction in the biofilm was 86%. Moreover, the viability percentage of human lung carcinoma A549 cells infected by P. aeruginosa and treated with cell-free lysate of B. cereus isolate 30b increased up to 15%.Conclusion: The results of this study highlight the potential of lactonases as a promising strategy to combat Pseudomonas aeruginosa virulence.Keywords: lactonase, antivirulence, Pseudomonas aeruginosa, biofilm, cytotoxicity, quorum quenching, AHL

Published

2019

43. In vitro reconstitution and characterisation of the oxidative d-xylose pathway for production of organic acids and alcohols

Author

Harry Boer, Martina Andberg, Robert Pylkkänen, Hannu Maaheimo, and Anu Koivula

Subjects

Dahms pathway, In vitro enzyme pathway, Glycolate, Ethylene glycol, Lactate, Lactonase, Biotechnology, TP248.13-248.65, Microbiology, QR1-502

Abstract

Abstract The oxidative d-xylose pathway, i.e. Dahms pathway, can be utilised to produce from cheap biomass raw material useful chemical intermediates. In vitro metabolic pathways offer a fast way to study the rate-limiting steps and find the most suitable enzymes for each reaction. We have constructed here in vitro multi-enzyme cascades leading from d-xylose or d-xylonolactone to ethylene glycol, glycolic acid and lactic acid, and use simple spectrophotometric assays for the read-out of the efficiency of these pathways. Based on our earlier results, we focussed particularly on the less studied xylonolactone ring opening (hydrolysis) reaction. The bacterial Caulobacter crescentus lactonase (Cc XylC), was shown to be a metal-dependent enzyme clearly improving the formation of d-xylonic acid at pH range from 6 to 8. The following dehydration reaction by the ILVD/EDD family d-xylonate dehydratase is a rate-limiting step in the pathway, and an effort was made to screen for novel enolase family d-xylonate dehydratases, however, no suitable replacing enzymes were found for this reaction. Concerning the oxidation of glycolaldehyde to glycolic acid, several enzyme candidates were also tested. Both Escherichia coli aldehyde dehydrogenase (Ec AldA) and Azospirillum brasilense α-ketoglutarate semialdehyde dehydrogenase (Ab AraE) proved to be suitable enzymes for this reaction.

Published

2019

44. Investigation of Serum Paraoxonase 1 (PON1) Activities in Postprandial Lipemia

Author

Yahya Altınkaynak, Asım Örem, Buket Akcan Altınkaynak, Birgül Kural, Fulya Balaban Yücesan, and Cihan Örem

Subjects

arilesteraz, dislipidemi, laktonaz, paraoksonaz, yüksek yağlı diyet, arilesterase, dyslipidemia, high fat diet, lactonase, paraoxonase, Medicine

Abstract

Aim: Paraoxonase-1 (PON1) whic is present in HDL structure, is an enzyme that decreases the oxidative stress in atherosclerotic lesions by preventing the HDL and LDL against to ox-idation. Thu study aims to determine the paraoxonase, arylesterase and lactonease activities of PON1 enzyme, taking into account the response of healthy subjects to the oral triglyceride tolerance test (OTTT). Material and Method: Study group included 96 healthy subjects (45 female and 51 male with age range of 18-55 years). Study group was divided into three groups according to the area under curve (AUC) values calculated by using triglyceride levels at the fasting state and at 2nd, 4th and 6th hours after the high fat diet (OTTT). PON1 enzyme activity levels were determined by spectrofotometric methods. PON1 enzyme activities and other parameters in lower OTTT response group were compared to that of the upper group. Results: Atherogenic lipid profile, increased total cholesterol and LDL-C and decreased HDL-C levels, was observed in subjects with the upper group men when compared to the lower group. PON1 lactonase activity was significantly lower in men than that of women (P

Published

2019

45. Corrigendum: Signal Disruption Leads to Changes in Bacterial Community Population

Author

Michael Schwab, Celine Bergonzi, Jonathan Sakkos, Christopher Staley, Qian Zhang, Michael J. Sadowsky, Alptekin Aksan, and Mikael Elias

Subjects

quorum sensing, lactonase, biofilm, microbial community, silica encapsulation, Microbiology, QR1-502

Published

2021

46. PON2 subverts metabolic gatekeeper functions in B cells to promote leukemogenesis.

Author

Lili Pan, Chao Hong, Chan, Lai N., Gang Xiao, Malvi, Parmanand, Robinson, Mark E., Geng, Huimin, Reddy, Srinivasa T., Jaewoong Lee, Khairnar, Vishal, Cosgun, Kadriye Nehir, Liang Xu, Kohei Kume, Sadras, Teresa, Shaoyuan Wang, Wajapeyee, Narendra, and Müschen, Markus

Subjects

*B cells, *CELL physiology, *ADENOSINE triphosphate, *LYMPHOBLASTIC leukemia

Abstract

Unlike other cell types, developing B cells undergo multiple rounds of somatic recombination and hypermutation to evolve highaffinity antibodies. Reflecting the high frequency of DNA doublestrand breaks, adaptive immune protection by B cells comes with an increased risk of malignant transformation. B lymphoid transcription factors (e.g., IKZF1 and PAX5) serve as metabolic gatekeepers by limiting glucose to levels insufficient to fuel transformation. We here identified aberrant expression of the lactonase PON2 in B cell acute lymphoblastic leukemia (B-ALL) as a mechanism to bypass metabolic gatekeeper functions. Compared to normal pre-B cells, PON2 expression was elevated in patient-derived B-ALL samples and correlated with poor clinical outcomes in pediatric and adult cohorts. Genetic deletion of Pon2 had no measurable impact on normal B cell development. However, in mouse models for BCRABL1 and NRASG12D-driven B-ALL, deletion of Pon2 compromised proliferation, colony formation, and leukemia initiation in transplant recipient mice. Compromised leukemogenesis resulted from defective glucose uptake and adenosine triphosphate (ATP) production in PON2-deficient murine and human B-ALL cells. Mechanistically, PON2 enabled glucose uptake by releasing the glucosetransporter GLUT1 from its inhibitor stomatin (STOM) and genetic deletion of STOM largely rescued PON2 deficiency. While not required for glucose transport, the PON2 lactonase moiety hydrolyzes the lactone-prodrug 3OC12 to form a cytotoxic intermediate. Mirroring PON2 expression levels in B-ALL, 3OC12 selectively killed patient-derived B-ALL cells but was well tolerated in transplant recipient mice. Hence, while B-ALL cells critically depend on aberrant PON2 expression to evade metabolic gatekeeper functions, PON2 lactonase activity can be leveraged as synthetic lethality to overcome drug resistance in refractory B-ALL. [ABSTRACT FROM AUTHOR]

Published

2021

47. A critical review on human serum Paraoxonase-1 in the literature: truths and misconceptions.

Author

Mackness, Michael and Sozmen, Eser Yildirim

Subjects

*RHEUMATISM, *PARAOXONASE, *NEUROLOGICAL disorders, *HEART diseases

Abstract

Human serum paraoxonase 1 (PON1) appears to play an important role in the development of a large variety of diseases with an inflammatory component including heart disease, diabetes, rheumatic diseases, neurological diseases and cancer. As such PON1 research is rapidly expanding into new biomedical fields. Unfortunately, this rapid expansion has resulted in a number of problems due to poor experimental design and the spreading of misconceptions in the literature. This review seeks to describe the basic properties of PON1 and the problems and misconceptions that have arisen. [ABSTRACT FROM AUTHOR]

Published

2021

48. Anti-quorum sensing activity of some marine bacteria isolated from different marine resources in Egypt.

Author

El-Kurdi, Najat, Abdulla, Hesham, and Hanora, Amro

Subjects

MARINE bacteria, MARINE resources, AEROMONAS hydrophila, CORAL communities, ENTEROBACTER, VIBRIO alginolyticus, MICROBIAL communities

Abstract

Objectives: To screen for a variety of marine bacteria with anti-quorum sensing and anti-biofilm activities. Results: Among 188 bacterial isolates from water, sediment, and corals in the Red Sea region, approximately 35% (65 isolates) of the isolates displayed a significant degradation in the purple pigment of the bioreporter strain without affecting cell growth. The quorum quenching bacteria obtained from coral-associated bacteria were 66.2% out of the total isolates. The PCR amplification results revealed that the recorded Acyl Homoserine lactone (AHL) inhibition by 91% of the anti-QS marine bacteria was not due to lactonase activity. On the other hand, lactonase genes were recorded only in the remaining 9% (6 isolates) and those were belonging to genus Bacillus, Nocardiopsis, and Enterobacter based on 16S rRNA gene sequences. The results also showed that marine bacteria with anti-QS activity inhibited 67% of the biofilm formed by Aeromonas hydrophila, Pseudomonas aeruginosa, and Vibrio alginolyticus. The computational profiling analysis confirmed the presence of the functional region in the detected genes. Conclusion: Coral microbial communities are rich sources for pharmacologically important natural products with anti-quorum sensing and anti-biofilm activities. [ABSTRACT FROM AUTHOR]

Published

2021

49. MzmL, a novel marine derived N -acyl homoserine lactonase from Mesoflavibacter zeaxanthinifaciens that attenuates Pectobacterium carotovorum subsp. carotovorum virulence.

Author

Hao L, Liang J, Chen S, Zhang J, Zhang Y, and Xu Y

Abstract

Quorum sensing (QS) is a conserved cell-cell communication mechanism widely distributed in bacteria, and is oftentimes tightly correlated with pathogen virulence. Quorum quenching enzymes, which interfere with QS through degrading the QS signaling molecules, could attenuate virulence instead of killing the pathogens, and thus are less likely to induce drug resistance. Many Gram-negative bacteria produce N -acyl homoserine lactones (AHLs) for interspecies communication. In this study, we isolated and identified a bacterial strain, Mesoflavibacter zeaxanthinifaciens XY-85, from an Onchidium sp. collected from the intertidal zone of Dapeng Reserve in Shenzhen, China, and found it had strong AHL degradative activity. Whole genome sequencing and blast analysis revealed that XY-85 harbors an AHL lactonase (designated MzmL), which is predicted to have an N -terminal signal peptide and share the "HXHXDH" motif with known AHL lactonases belonging to the Metallo- β -lactamase superfamily. Phylogenetic studies showed MzmL was closest to marine lactonase cluster members, MomL and Aii20J, instead of the AiiA type lactonases. Ultra performance liquid chromatography-mass spectrometry analysis confirmed that MzmL functions as an AHL lactonase catalyzing AHL degradation through lactone hydrolysis. MzmL could degrade both short- and long-chain AHLs with or without a substitution of oxo-group at the C-3 position, and retained full bioactivity under a wide range of temperatures (28-100°C) and pHs (4-11). Furthermore, MzmL significantly reduced Pectobacterium carotovorum subsp. carotovorum virulence factor production in vitro , such as biofilm formation and plant cell wall degrading enzyme production, and inhibited soft rot development on potato slices. These results demonstrated that MzmL may be a novel type of AHL lactonase with good environmental stability, and has great potential to be developed into a novel biological control agent for bacterial disease management., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Hao, Liang, Chen, Zhang, Zhang and Xu.)

Published

2024

50. Sensitive Assay for the Lactonase Activity of Serum Paraoxonase 1 (PON1) by Harnessing the Fluorescence Turn-On Characteristics of Bioorthogonally Synthesized and Geometrically Controlled Chemical Probes

Author

Bo-Kai Fang, Chia-Yen Dai, Scott Severance, Chi-Ching Hwang, Chien-Hui Huang, Sin-Yu Hou, Bao-Lin Yeh, Ming-Mao Gong, Yun-Hao Chou, Jeh-Jeng Wang, and Tzu-Pin Wang

Subjects

fluorescence turn-on, chemical probe, bicyclononyne, paraoxonase 1, lactonase, Organic chemistry, QD241-441

Abstract

The lactonase activity of paraoxonase 1 (PON1) has a crucial antiatherogenic function, and also serves as an important biochemical marker in human blood because the aberrant lactonase activity of PON1 is a key indicator for a number of diverse human diseases. However, no sensitive fluorescence assays that detect PON1 lactonase activity are available. We report the synthesis of two fluorescence turn-on chemical probes 16a and 16b (16) able to quantify PON1 lactonase activity. The chemical probes were constructed utilizing a disulfide-containing bicyclononyne, derivatives of rhodamine B and carboxyfluorescein, and reactions including copper-free azide–alkyne cycloaddition. Fluorescence quenching in 16 was characterized by spectroscopic studies and was mainly attributed to the effect of contact quenching. Kinetic analysis of 16b confirmed the outstanding reactivity and specificity of 16b with thiols in the presence of general base catalysts. The 16b-based assay was employed to determine PON1 lactonase activity, with a linear range of 10.8–232.1 U L−1 and detection limit (LOD) of 10.8 U L−1, to quantify serum PON1 activity in human sera, and to determine the Ki of 20.9 μM for the 2-hydroxyquinoline inhibition of PON1 lactonase. We are employing 16b to develop high-throughput assays for PON1 lactonase activity.

Published

2022