Klebsiella pneumoniae ESBL formando esferoplastos em sedimento urinário a fresco sem coloração / Klebsiella pneumoniae ESBL forming spheroplasts in the fresh and unstained urine sediment

Resumo Um homem de 60 anos de idade foi submetido a transplante renal em 2013 devido à insuficiência renal crônica causada por hipertensão. Ele teve episódios recorrentes de infecção do trato urinário e veio para o hospital devido a 4 dias de febre, dor abdominal, ardência para urinar e náusea. Análise do sedimento urinário revelou um quadro de infecção (> 50 leucócitos/campo de grande aumento associado à bacteriúria maciça). O sedimento urinário revelou elementos alongados com um alargamento na parte central do corpo da estrutura.

Abstract A 60 year-old man was submitted to kidney transplantation in 2013 due to chronic renal insufficiency caused by hypertension. He had recurrent episodes of urinary tract infection and came to the hospital due to a 4 day-long fever, abdominal pain, burning urination and nausea. Routine urinalysis revealed a picture of infection (> 50 leucocytes/high power field associated to massive bacteriuria). The urine sediment revealed elongated like elements with an enlarged part in the middle of the structure body.

Characterization of an Extracytoplasmic Chaperone Spy in Protecting Salmonella against Reactive Oxygen/Nitrogen Species

Antimicrobial actions of reactive oxygen/nitrogen species (ROS/RNS) derived from products of NADPH oxidase and inducible nitric oxide (NO) synthase in host phagocytes inactivate various bacterial macromolecules. To cope with these cytotoxic radicals, pathogenic bacteria have evolved to conserve systems necessary for detoxifying ROS/RNS and repairing damages caused by their actions. In response to these stresses, bacteria also induce expression of molecular chaperones to aid in ameliorating protein misfolding. In this study, we explored the function of a newly identified chaperone Spy, that is localized exclusively in the periplasm when bacteria exposed to conditions causing spheroplast formation, in the resistance of Salmonella Typhimurium to ROS/RNS. A spy deletion mutant was constructed in S. Typhimurium by a PCR-mediated method of one-step gene inactivation with lambda Red recombinase, and subjected to ROS/RNS stresses. The spy mutant Salmonella showed a modest decrease in growth rate in NO-producing cultures, and no detectable difference of growth rate in H2O2 containing cultures, compared with that of wild type Salmonella. Quantitative RT-PCR analysis showed that spy mRNA levels were similar regardless of both stresses, but were increased considerably in Salmonella mutants lacking the flavohemoglobin Hmp, which are incapable of NO detoxification, and lacking an alternative sigma factor RpoS, conferring hypersusceptibility to H2O2. Results demonstrate that Spy expression can be induced under extreme conditions of both stresses, and suggest that the protein may have supportive roles in maintaining proteostasis in the periplasm where various chaperones may act in concert with Spy, thereby protecting bacteria against toxicities of ROS/RNS.

Respiration, oxidative phosphorylation, and uncoupling protein in Candida albicans

The respiration, membrane potential (Dy), and oxidative phosphorylation of mitochondria in situ were determined in spheroplasts obtained from Candida albicans control strain ATCC 90028 by lyticase treatment. Mitochondria in situ were able to phosphorylate externally added ADP (200 µM) in the presence of 0.05 percent BSA. Mitochondria in situ generated and sustained stable mitochondrial Dy respiring on 5 mM NAD-linked substrates, 5 mM succinate, or 100 µM N,N,N',N'-tetramethyl-p-phenylenediamine dihydrochloride plus 1 mM ascorbate. Rotenone (4 µM) inhibited respiration by 30 percent and 2 µM antimycin A or myxothiazole and 1 mM cyanide inhibited it by 85 percent. Cyanide-insensitive respiration was partially blocked by 2 mM benzohydroxamic acid, suggesting the presence of an alternative oxidase. Candida albicans mitochondria in situ presented a carboxyatractyloside-insensitive increase of Dy induced by 5 mM ATP and 0.5 percent BSA, and Dy decrease induced by 10 µM linoleic acid, both suggesting the existence of an uncoupling protein. The presence of this protein was subsequently confirmed by immunodetection and respiration experiments with isolated mitochondria. In conclusion, Candida albicans ATCC 90028 possesses an alternative electron transfer chain and alternative oxidase, both absent in animal cells. These pathways can be exceptional targets for the design of new chemotherapeutic agents. Blockage of these respiratory pathways together with inhibition of the uncoupling protein (another potential target for drug design) could lead to increased production of reactive oxygen species, dysfunction of Candida mitochondria, and possibly to oxidative cell death.

extractability of inner-membrane proteins from Salmonella typhimurium intact cells, spheroplasts and inner-membrane fragments by non-denaturing detergents

The effect of Triton X-100, Na cholate and Tween 80 on the solubilization of integral membrane proteins in intact cells, spheroplasts and inner-membrane fragments of Salmonella typhimurium was studied. The detergents were used in various concentrations [1.6 to 64 mM] and cytochromes b and d were used as marker to monitor the solubilization of membrane-bound proteins. Results showed that no inner-membrane protein solubilization was detected after the treatment of intact cells with detergents. The effect of Na cholate and Tween 80 on spheroplasts and inner-membrane fragments was also negligible in comparison to Triton X-100. Triton X-100 solubilized cytochromes from inner-membrane fragments more efficiently than from spheroplasts. The ratio of total protein solubilization to solubilize cytochromes showed that in spheroplasts this ratio was maximum at 1.6 mM Triton X-100 while it was maximum at 16-32 mM Triton X-100 in inner-membrane fragments. This difference between spheroplasts and inner-membrane fragments may be due to the orientation of the inner- membrane in spheroplasts [right side out] and inner-membrane fragments [in-side out as well as right side out], and to the presence of peripheral proteins attached to cytoplasmic membrane in spheroplasts

Sphaeroplast formation process in the fungus humicola sp

A formaçäo de esferoplastos foi estudada um Humicola sp. Amostras foram retiradas a cada 30 minutos, e determinado o número de esferoplastos/ml, número de núcleos/célula e freqüências de regeneraçäo. Esta última diminuiu com tempo de tratamento, mas o número de esferoplastos/ml e de núcleos/esferoplasto aumentou com o tempo.

Catechol stimulation of ferricyanide Hill reaction by spheroplasts of cyanobacterium, Synechococcus cedrorum: effect of temperature on catechol-stimulated oxygen evolution.

Catechol(o-dihydroxybenzene) at low concentrations (20-100 microM) stimulates FeCN-dependent O2 evolution of spheroplasts isolated from the cyanobacterium Synechococcus both in the presence and absence of DBMIB, an inhibitor of electron flow from PSII to PSI, the stimulation being two-fold with saturating concentration of (60 microM) catechol. Catechol thus appears to mediate the acceptance of electrons at the reducing side of PSII. Similarly it may act on the component of electron donor to PSII and caused the photoreduction of FeCN when O2 evolution capacity of spheroplasts is damaged by heat treatment. Analysis of the temperature effect on FeCN-supported O2 evolution by spheroplasts suggests that catechol shifts the temperature maxima to a lower temperature and thereby hastens the decay of O2 evolution capacity by heat as compared to the normal spheroplasts. Catechol also induces a change in the magnitude of activation energy for ferricyanide Hill activity of spheroplasts and lowers the transition temperature. These results suggest that lipophilic catechol brings about an alteration in membrane fluidity in cyanobacterial spheroplasts. Catechol is involved in a thermotropic destabilization of the membrane of the cyanobacterium. However, Al3+ was found to stabilize the membrane and raise the phase transition temperature. Further increase in temperature caused a gradual decline in the rate of O2 evolution.

Cytological Study of the Introduction of Agrobacterium tumefaciens Spheroplasts into Nicotiana tabacum Protoplasts / 영남의대학술지

Agrobacterium tumefaciens induces cancerous growths called crown galls at wound sites on dicotyledonous plants. A large plasmid called T1 plasmid is responsible for virulence. Upon tumor induction, part of the plasmid, termed T-DNA, becomes integrated into plant genome and its genetic sequences are expressed. These properties allow T1 plasmids to be used as gene vectors in plants. Several in vitro methods for the transfer of T1 plasmid into plant cell have been developed. One of them is the treatment of bacterial spheroplasts and plant protoplasts mixture with polyethylene glycol that is generally used as fusogen in cell-to-cell fusion. Several workers investigated the interaction of bacterial spheroplasts with plant protoplasts in the presence of polyethylene glycol and suggested that the interaction is not fusion but endocytosis. In this report we observed the interaction of Agrobacterium tumefaciens spheroplasts with Nicotiana tabacum protoplasts by electron microscope. Agrobacterium tumefaciens spheroplasts with Nicotiana tabacum protoplasts were prepared and mixed in the presence of polyethylene glycol and high pH-high Ca²⁺ buffer. Then the interaction of the spheroplasts with the protoplasts was examined by transmission electron microscope. After the treatment of polyethylene glycol the spheroplasts adhered to the surface of the protoplasts and then they were engulfed by the protoplasts. After the high pH-high Ca²⁺ buffer treatment the engulfed spheroplasts lost their cell integrity. No fusion process was observed. Thus all these observation suggest that the introduction process of Agrobacterium tumefaciens spheroplasts into Nicotiana tabacum protoplasts with the aid of polyethylene glycol is endocytosis.