scholarly journals Involvement of potD in Streptococcus pneumoniae Polyamine Transport and Pathogenesis

2006 ◽  
Vol 74 (1) ◽  
pp. 352-361 ◽  
Author(s):  
D. Ware ◽  
Y. Jiang ◽  
W. Lin ◽  
E. Swiatlo
Keyword(s):  
Streptococcus Pneumoniae ◽  
De Novo ◽  
Optimal Growth ◽  
Wild Type ◽  
Polyamine Biosynthesis ◽  
Transport Pathways ◽  
Rich Media ◽  
Polyamine Transport ◽  
Inoculation Route

ABSTRACT Polyamines such as putrescine, spermidine, and cadaverine are small, polycationic molecules that are required for optimal growth in all cells. The intracellular concentrations of these molecules are maintained by de novo synthesis and transport pathways. The human pathogen Streptococcus pneumoniae possesses a putative polyamine transporter (pot) operon that consists of the four pot-specific genes potABCD. The studies presented here examined the involvement of potD in polyamine transport and in pneumococcal pathogenesis. A potD-deficient mutant was created in the mouse-virulent serotype 3 strain WU2 by insertion duplication mutagenesis. The growth of the WU2ΔpotD mutant was identical to that of the wild-type strain WU2 in vitro in rich media. However, WU2ΔpotD possessed severely delayed growth compared to wild-type WU2 in the presence of the polyamine biosynthesis inhibitors DFMO (α-dimethyl-fluroornitithine) and MGBG [methylgloxal-bis (guanyl hydrazone)]. The mutant strain also showed a significant attenuation in virulence within murine models of systemic and pulmonary infection regardless of the inoculation route or location. These data suggest that potD is involved in pneumococcal polyamine transport and is important for pathogenesis within various infection models.

scholarly journals Polyamine biosynthesis and transport mechanisms are crucial for fitness and pathogenesis of Streptococcus pneumoniae

Microbiology ◽  
2011 ◽  
Vol 157 (2) ◽  
pp. 504-515 ◽  
Author(s):  
Pratik Shah ◽  
Bindu Nanduri ◽  
Edwin Swiatlo ◽  
Yinfa Ma ◽  
Ken Pendarvis
Keyword(s):  
Streptococcus Pneumoniae ◽  
Invasive Disease ◽  
Therapeutic Interventions ◽  
Transport Mechanisms ◽  
Wild Type ◽  
Polyamine Biosynthesis ◽  
Transport Pathways ◽  
Polyamine Transport ◽  
Mutant Strains ◽  
Pneumococcal Colonization

Polyamines such as cadaverine, putrescine and spermidine are polycationic molecules that have pleiotropic effects on cells via their interaction with nucleic acids. Streptococcus pneumoniae (the pneumococcus) is a Gram-positive pathogen capable of causing pneumonia, septicaemia, otitis media and meningitis. Pneumococci have a polyamine transport operon (potABCD) responsible for the binding and transport of putrescine and spermidine, and can synthesize cadaverine and spermidine using their lysine decarboxylase (cad) and spermidine synthase (speE) enzymes. Previous studies from our laboratory have shown that an increase in PotD expression is seen following exposure to various stresses, while during infection, potD inactivation significantly attenuates pneumococcal virulence, and anti-PotD immune responses are protective in mice. In spite of their relative importance, not much is known about the global contribution of polyamine biosynthesis and transport pathways to pneumococcal disease. Mutants deficient in polyamine biosynthesis (ΔspeE or Δcad) or transport genes (ΔpotABCD) were constructed and were found to be attenuated in murine models of pneumococcal colonization and pneumonia, either alone or in competition with the wild-type strain. The ΔspeE mutant was also attenuated during invasive disease, while the potABCD and cad genes seemed to be dispensable. HPLC analyses showed reduced intracellular polyamine levels in all mutant strains compared with wild-type bacteria. High-throughput proteomic analyses indicated reduced expression of growth, replication and virulence factors in mutant strains. Thus, polyamine biosynthesis and transport mechanisms are intricately linked to the fitness, survival and pathogenesis of the pneumococcus in host microenvironments, and may represent important targets for prophylactic and therapeutic interventions.

scholarly journals In Vitro Infection Model Characterizing the Effect of Efflux Pump Inhibition on Prevention of Resistance to Levofloxacin and Ciprofloxacin in Streptococcus pneumoniae

2007 ◽  
Vol 51 (11) ◽  
pp. 3988-4000 ◽  
Author(s):  
Arnold Louie ◽  
David L. Brown ◽  
Weiguo Liu ◽  
Robert W. Kulawy ◽  
Mark R. Deziel ◽  
...  
Keyword(s):  
Streptococcus Pneumoniae ◽  
Efflux Pump ◽  
Community Acquired Pneumonia ◽  
Fluoroquinolone Resistance ◽  
Infection Model ◽  
Wild Type ◽  
Efflux Pump Inhibition ◽  
Short Term Exposure ◽  
Emergence Of Resistance

ABSTRACT The prevalence of fluoroquinolone-resistant Streptococcus pneumoniae is slowly rising as a consequence of the increased use of fluoroquinolone antibiotics to treat community-acquired pneumonia. We tested the hypothesis that increased efflux pump (EP) expression by S. pneumoniae may facilitate the emergence of fluoroquinolone resistance. By using an in vitro pharmacodynamic infection system, a wild-type S. pneumoniae strain (Spn-058) and an isogenic strain with EP overexpression (Spn-RC2) were treated for 10 days with ciprofloxacin or levofloxacin in the presence or absence of the EP inhibitor reserpine to evaluate the effect of EP inhibition on the emergence of resistance. Cultures of Spn-058 and Spn-RC2 were exposed to concentration-time profiles simulating those in humans treated with a regimen of ciprofloxacin at 750 mg orally once every 12 h and with regimens of levofloxacin at 500 and 750 mg orally once daily (QD; with or without continuous infusions of 20 μg of reserpine/ml). The MICs of ciprofloxacin and levofloxacin for Spn-058 were both 1 μg/ml when susceptibility testing was conducted with each antibiotic alone and with each antibiotic in the presence of reserpine. For Spn-RC2, the MIC of levofloxacin alone and with reserpine was also 1 μg/ml; the MICs of ciprofloxacin were 2 and 1 μg/ml, respectively, when determined with ciprofloxacin alone and in combination with reserpine. Reserpine, alone, had no effect on the growth of Spn-058 and Spn-RC2. For Spn-058, simulated regimens of ciprofloxacin at 750 mg every 12 h or levofloxacin at 500 mg QD were associated with the emergence of fluoroquinolone resistance. However, the use of ciprofloxacin at 750 mg every 12 h and levofloxacin at 500 mg QD in combination with reserpine rapidly killed Spn-058 and prevented the emergence of resistance. For Spn-RC2, levofloxacin at 500 mg QD was associated with the emergence of resistance, but again, the resistance was prevented when this levofloxacin regimen was combined with reserpine. Ciprofloxacin at 750 mg every 12 h also rapidly selected for ciprofloxacin-resistant mutants of Spn-RC2. However, the addition of reserpine to ciprofloxacin therapy only delayed the emergence of resistance. Levofloxacin at 750 mg QD, with and without reserpine, effectively eradicated Spn-058 and Spn-RC2 without selecting for fluoroquinolone resistance. Ethidium bromide uptake and efflux studies demonstrated that, at the baseline, Spn-RC2 had greater EP expression than Spn-058. These studies also showed that ciprofloxacin was a better inducer of EP expression than levofloxacin in both Spn-058 and Spn-RC2. However, in these isolates, the increase in EP expression by short-term exposure to ciprofloxacin and levofloxacin was transient. Mutants of Spn-058 and Spn-RC2 that emerged under suboptimal antibiotic regimens had a stable increase in EP expression. Levofloxacin at 500 mg QD in combination with reserpine, an EP inhibitor, or at 750 mg QD alone killed wild-type S. pneumoniae and strains that overexpressed reserpine-inhibitable EPs and was highly effective in preventing the emergence of fluoroquinolone resistance in S. pneumoniae during therapy. Ciprofloxacin at 750 mg every 12 h, as monotherapy, was ineffective for the treatment of Spn-058 and Spn-RC2. Ciprofloxacin in combination with reserpine prevented the emergence of resistance in Spn-058 but not in Spn-RC2, the EP-overexpressing strain.

scholarly journals Glutathione Synthesis Contributes to Virulence of Streptococcus agalactiae in a Murine Model of Sepsis

2019 ◽  
Vol 201 (20) ◽  
Author(s):  
Elizabeth A. Walker ◽  
Gary C. Port ◽  
Michael G. Caparon ◽  
Blythe E. Janowiak
Keyword(s):  
Streptococcus Agalactiae ◽  
De Novo ◽  
Single Gene ◽  
Neonatal Meningitis ◽  
Deletion Mutants ◽  
Wild Type ◽  
Glutathione Synthesis ◽  
Content Type ◽  
Resistance Pathway

ABSTRACT Streptococcus agalactiae, a leading cause of sepsis and meningitis in neonates, utilizes multiple virulence factors to survive and thrive within the human host during an infection. Unique among the pathogenic streptococci, S. agalactiae uses a bifunctional enzyme encoded by a single gene (gshAB) to synthesize glutathione (GSH), a major antioxidant in most aerobic organisms. Since S. agalactiae can also import GSH, similar to all other pathogenic streptococcal species, the contribution of GSH synthesis to the pathogenesis of S. agalactiae disease is not known. In the present study, gshAB deletion mutants were generated in strains representing three of the most prevalent clinical serotypes of S. agalactiae and were compared against isogenic wild-type and gshAB knock-in strains. When cultured in vitro in a chemically defined medium under nonstress conditions, each mutant and its corresponding wild type had comparable growth rates, generation times, and growth yields. However, gshAB deletion mutants were found to be more sensitive than wild-type or gshAB knock-in strains to killing and growth inhibition by several different reactive oxygen species. Furthermore, deletion of gshAB in S. agalactiae strain COH1 significantly attenuated virulence compared to the wild-type or gshAB knock-in strains in a mouse model of sepsis. Taken together, these data establish that GSH is a virulence factor important for resistance to oxidative stress and that de novo GSH synthesis plays a crucial role in S. agalactiae pathogenesis and further suggest that the inhibition of GSH synthesis may provide an opportunity for the development of novel therapies targeting S. agalactiae disease. IMPORTANCE Approximately 10 to 30% of women are naturally and asymptomatically colonized by Streptococcus agalactiae. However, transmission of S. agalactiae from mother to newborn during vaginal birth is a leading cause of neonatal meningitis. Although colonized mothers who are at risk for transmission to the newborn are treated with antibiotics prior to delivery, S. agalactiae is becoming increasingly resistant to current antibiotic therapies, and new treatments are needed. This research reveals a critical stress resistance pathway, glutathione synthesis, that is utilized by S. agalactiae and contributes to its pathogenesis. Understanding the role of this unique bifunctional glutathione synthesis enzyme in S. agalactiae during sepsis may help elucidate why S. agalactiae produces such an abundance of glutathione compared to other bacteria.

scholarly journals RegR, a Global LacI/GalR Family Regulator, Modulates Virulence and Competence in Streptococcus pneumoniae

2003 ◽  
Vol 71 (5) ◽  
pp. 2615-2625 ◽  
Author(s):  
Sabine Chapuy-Regaud ◽  
A. David Ogunniyi ◽  
Nicole Diallo ◽  
Yvette Huet ◽  
Jean-François Desnottes ◽  
...  
Keyword(s):  
Streptococcus Pneumoniae ◽  
Nadh Oxidase ◽  
Genetic Dissection ◽  
Loss Of Function ◽  
Global Regulator ◽  
Carbohydrate Utilization ◽  
Rich Media ◽  
Residual Virulence

ABSTRACT The homolactic and catalase-deficient pathogen Streptococcus pneumoniae is not only tolerant to oxygen but requires the activity of its NADH oxidase, Nox, to develop optimal virulence and competence for genetic transformation. In this work, we show that the global regulator RegR is also involved in these traits. Genetic dissection revealed that RegR regulates competence and the expression of virulence factors, including hyaluronidase. In bacteria grown in vitro, RegR represses hyaluronidase. At neutral pH, it increases adherence to A549 epithelial cells, and at alkaline pH, it acts upstream of the CiaRH two-component signaling system to activate competence. These phenotypes are not associated with changes in antibiotic resistance, central metabolism, and carbohydrate utilization. Although the RegR0 (where 0 indicates the loss of the protein) mutation is sufficient to attenuate experimental virulence of strain 23477 in mice, the introduction of an additional hyl0 (where 0 indicates the loss of function) mutation in the RegR0 strain 23302 dramatically reduces its virulence. This indicates that residual virulence of the RegR0 Hyl+ derivative is due to hyaluronidase and supports the dual role of RegR in virulence. This LacI/GalR regulator, not essential for in vitro growth in rich media, is indeed involved in the adaptive response of the pneumococcus via its control of competence, adherence, and virulence.

scholarly journals Mutations in PneumococcalcpsEGenerated viaIn VitroSerial Passaging Reveal a Potential Mechanism of Reduced Encapsulation Utilized by a Conjunctival Isolate

2015 ◽  
Vol 197 (10) ◽  
pp. 1781-1791 ◽  
Author(s):  
Mara G. Shainheit ◽  
Michael D. Valentino ◽  
Michael S. Gilmore ◽  
Andrew Camilli
Keyword(s):  
Streptococcus Pneumoniae ◽  
Invasive Disease ◽  
Adaptive Mutation ◽  
Specific Gene ◽  
High Dose ◽  
Wild Type ◽  
Single Nucleotide ◽  
Content Type ◽  
Sepsis Model

ABSTRACTThe polysaccharide capsule ofStreptococcus pneumoniaeis required for nasopharyngeal colonization and for invasive disease in the lungs, blood, and meninges. In contrast, the vast majority of conjunctival isolates are acapsular. The first serotype-specific gene in the capsule operon,cpsE, encodes the initiating glycosyltransferase and is one of the few serotype-specific genes that can tolerate null mutations. This report characterizes a spontaneously arising TIGR4 mutant exhibiting a reduced capsule, caused by a 6-nucleotide duplication incpsEwhich results in duplication of Ala and Ile at positions 45 and 46. This strain (AI45dup) possessed more exposed phosphorylcholine and was hypersusceptible to C3 complement deposition compared to the wild type. Accordingly, the mutant was significantly better at forming abiotic biofilms and binding epithelial cellsin vitrobut was avirulent in a sepsis model.In vitroserial passaging of the wild-type strain failed to reproduce the AI45dup mutation but instead led to a variety of mutants with reduced capsule harboring single nucleotide polymorphisms (SNPs) incpsE. A single passage in the sepsis model after high-dose inoculation readily yielded revertants of AI45dup with restored wild-type capsule level, but the majority of SNP alleles ofcpsEcould not revert, suppress, or bypass. Analysis ofcpsEin conjunctival isolates revealed a strain with a single missense mutation at amino acid position 377, which was responsible for reduced encapsulation. This study supports the hypothesis that spontaneous, nonreverting mutations incpsEserve as a form of adaptive mutation by providing a selective advantage toS. pneumoniaein niches where expression of capsule is detrimental.IMPORTANCEWhile the capsule ofStreptococcus pneumoniaeis required for colonization and invasive disease, most conjunctival isolates are acapsular by virtue of deletion of the entire capsular operon. We show that spontaneous acapsular mutants isolatedin vitroharbor mostly nonrevertible single nucleotide polymorphism (SNP) null mutations incpsE, encoding the initiating glycosyltransferase. From a small collection of acapsular conjunctival isolates, we identified one strain with a complete capsular operon but containing a SNP incpsEthat we show is responsible for the acapsular phenotype. We propose that acapsular conjunctival isolates may arise initially from such nonreverting SNP null mutations incpsE, which can be followed later by deletion of portions or all of thecpsoperon.

scholarly journals Complement Receptor 1 Expression on Mouse Erythrocytes Mediates Clearance of Streptococcus pneumoniae by Immune Adherence

2010 ◽  
Vol 78 (7) ◽  
pp. 3129-3135 ◽  
Author(s):  
Jie Li ◽  
Jennifer P. Wang ◽  
Ionita Ghiran ◽  
Anna Cerny ◽  
Alexander J. Szalai ◽  
...  
Keyword(s):  
Streptococcus Pneumoniae ◽  
Direct Evidence ◽  
Wild Type Mouse ◽  
Complement Receptor ◽  
Blood Clearance ◽  
Wild Type ◽  
Immune Adherence ◽  
Complement Receptor 1

ABSTRACT Complement-containing immune complexes can be presented to phagocytes by human erythrocytes bearing complement receptor 1 (CR1). Although this has long been assumed to be a mechanism by which humans are able to protect themselves from “extracellular” bacteria such as pneumococci, there is little direct evidence. In these studies we have investigated this question by comparing results for erythrocytes from transgenic mice expressing human CR1 on their erythrocytes to the results for wild-type mouse erythrocytes that do not express CR1. We demonstrate that human CR1 expression on murine erythrocytes allows immune adherence to beads opsonized with either mouse or human serum as a source of complement. The role of CR1 in immune adherence was supported by studies showing that it was blocked by the addition of antibody to human CR1. Furthermore, human CR1 expression enhances the immune adherence of opsonized pneumococci to erythrocytes in vitro, and the pneumococci attached to erythrocytes via CR1 can be transferred in vitro to live macrophages. Even more importantly, we observed that if complement-opsonized pneumococci are injected intravenously with CR1+ mouse erythrocytes into wild-type mice (after a short in vitro incubation), they are cleared faster than opsonized pneumococci similarly injected with wild-type mouse erythrocytes. Finally, we have shown that the intravenous (i.v.) injection of pneumococci into CR1+ mice also results in more rapid blood clearance than in wild-type mice. These data support that immune adherence via CR1 on erythrocytes likely plays an important role in the clearance of opsonized bacteria from human blood.

scholarly journals Characteristic Observation of Cordyceps Militaris (L) Wild Type Strain from Five Oil Palm Plantation in Muara Wahau East Borneo

2021 ◽  
Vol 29 (3) ◽  
pp. 167-175
Author(s):  
Edwin Aprianda ◽  
Gunawan Djajakirana ◽  
Darmawan Darmawan
Keyword(s):  
Oil Palm ◽  
Type Strain ◽  
Wild Type Strain ◽  
Wild Type ◽  
Colony Diameter ◽  
Virulence Potential ◽  
Rich Media ◽  
High Virulence ◽  
Incubation Method

Cordycep militaris (L) is known in oil palm plantations as a natural enemy of nettle caterpillars.  This fungus infects the caterpillars that descend down to become pupae around the palm circle, so that the pupae do not develop into imago and the pest's life cycle will be interrupted. This fungus is one of the 3 main entomopathogenic fungi used as bioinsecticides to control pests in oil palm plantations. In this study, the characteristics of C. militaris were observed from 5 oil palm plantations cultured in vitro using two types of media and two incubation methods. The results showed that there were mycelium pigmentation in nutrient-rich media Sabouraud Dextrose Agar plus Yeast extract (SDAY) when incubated with lighting.  Only one of five mycelium cultures using SDAY media showed pigmentation on the no-light incubation method. Pigmentation did not occur in nutrient-poor media such as agar (WA), either incubated with lighting or with no-light. The growth of isolates was generally higher on SDAY media than on WA media. This study showed that C. militaris is a facultative phagotrophic fungus. The highest growth of isolates cultured on SDAY media incubated with lighting was found in isolates A and C, with colony diameter 90 mm, high mycelium density (+++) and hairy texture like cotton at the end of the 3rd week after inoculation.  In the no-light incubation method, the highest growth was found in isolates B and C with colony diameter 90 mm, high mycelium density (+++) and hairy texture like cotton at the end of the 3rd week after inoculation. Isolates A and C showed high virulence potential to be used as bioinsecticides.

scholarly journals De novo disease-associated mutations in KIF1A dominant negatively inhibit axonal transport of synaptic vesicle precursors

2021 ◽  
Author(s):  
Yuzu Anazawa ◽  
Tomoki Kita ◽  
Kumiko Hayashi ◽  
Shinsuke Niwa
Keyword(s):  
Synaptic Vesicle ◽  
Axonal Transport ◽  
De Novo ◽  
Molecular Motor ◽  
Model Systems ◽  
In Vitro Assays ◽  
In Vivo Model ◽  
Wild Type

KIF1A is a kinesin superfamily molecular motor that transports synaptic vesicle precursors in axons. Mutations in Kif1a lead to a group of neuronal diseases called KIF1A-associated neuronal disorder (KAND). KIF1A forms a homodimer and KAND mutations are mostly de novo and autosomal dominant; however, it is not known whether the function of wild-type KIF1A is inhibited by disease-associated KIF1A. No reliable in vivo model systems to analyze the molecular and cellular biology of KAND have been developed; therefore, here, we established Caenorhabditis elegans models for KAND using CRISPR/cas9 technology and analyzed defects in axonal transport. In the C. elegans models, heterozygotes and homozygotes exhibited reduced axonal transport phenotypes. In addition, we developed in vitro assays to analyze the motility of single heterodimers composed of wild-type KIF1A and disease-associated KIF1A. Disease-associated KIF1A significantly inhibited the motility of wild-type KIF1A when heterodimers were formed. These data indicate the molecular mechanism underlying the dominant nature of de novo KAND mutations.

scholarly journals Contributions of the 8-Methoxy Group of Gatifloxacin to Resistance Selectivity, Target Preference, and Antibacterial Activity against Streptococcus pneumoniae

2001 ◽  
Vol 45 (6) ◽  
pp. 1649-1653 ◽  
Author(s):  
Hideyuki Fukuda ◽  
Ryuta Kishii ◽  
Masaya Takei ◽  
Masaki Hosaka
Keyword(s):  
Antibacterial Activity ◽  
Streptococcus Pneumoniae ◽  
Type Strain ◽  
Methoxy Group ◽  
Wild Type Strain ◽  
Dna Gyrase ◽  
Wild Type ◽  
Topoisomerase Iv ◽  
Mutant Strains

ABSTRACT Gatifloxacin (8-methoxy, 7-piperazinyl-3′-methyl) at the MIC selected mutant strains that possessed gyrA mutations at a low frequency (3.7 × 10−9) from wild-type strainStreptococcus pneumoniae IID553. AM-1147 (8-methoxy, 7-piperazinyl-3′-H) at the MIC or higher concentrations selected no mutant strains. On the other hand, the respective 8-H counterparts of these two compounds, AM-1121 (8-H, 7-piperazinyl-3′-methyl) and ciprofloxacin (8-H, 7-piperazinyl-3′-H), at one and two times the MIC selected mutant strains that possessed parC mutations at a high frequency (>2.4 × 10−6). The MIC of AM-1147 increased for the gyrA mutant strains but not for theparC mutant strains compared with that for the wild-type strain. These results suggest that fluoroquinolones that harbor 8-methoxy groups select mutant strains less frequently and prefer DNA gyrase, as distinct from their 8-H counterparts. The in vitro activities of gatifloxacin and AM-1147 are twofold higher against the wild-type strain, eight- and twofold higher against the first-stepparC and gyrA mutant strains, respectively, and two- to eightfold higher against the second-step gyrA andparC double mutant strains than those of their 8-H counterparts. These results indicate that the 8-methoxy group contributes to enhancement of antibacterial activity against target-altered mutant strains as well as the wild-type strain. It is hypothesized that the 8-methoxy group of gatifloxacin increases the level of target inhibition, especially against DNA gyrase, so that it is nearly the same as that for topoisomerase IV inhibition in the bacterial cell, leading to potent antibacterial activity and a low level of resistance selectivity.

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