[Mitral endocarditis caused by Staphylococcus aureus resistant to methicillin, aminoglucosides and rifampicin: description of 2 cases with fatal course].

Two patients with infectious endocarditis (IE) by Staphylococcus aureus resistant to methicillin, aminoglucosides and rifampicin (SARMAR) acquired in hospital during the course of an epidemic outbreak of this microorganism in the Hospital Clínic i Provincial of Barcelona. Both patients had undergone surgery of the lower limbs. The entrance of the microorganism was the infection of the surgical wound, with bacteriemia, followed by mitral IE after a short time interval (20 days).

Salt tolerance and methionine biosynthesis in Saccharomyces cerevisiae involve a putative phosphatase gene.

The progressive salinization of irrigated land poses a threat to the future of agriculture in arid regions. The identification of crucial metabolic steps in salt tolerance is important for the understanding of stress physiology and may provide the tools for its genetic engineering. In the yeast Saccharomyces cerevisiae we have isolated a gene, HAL2, which upon increase in gene dosage improves growth under NaCl and LiCl stresses.

Structure, function and regulation of plasma membrane H(+)-ATPase.

Most antigenic determinants of yeast ATPase are located within its N-terminal part. Amino acids 24-56, required for insertion at the plasma membrane, are highly accessible. The C-terminus behaves as a modulable auto-inhibitory domain in both yeast and plant ATPases.

Epitope mapping and accessibility of immunodominant regions of yeast plasma membrane H(+)-ATPase.

Immunodominant regions of yeast plasma membrane H(+)-ATPase have been mapped by two different approaches. A rabbit polyclonal antibody was used to screen a library of random fragments of the ATPase gene in a bacterial expression plasmid. In addition, the epitopes recognized by a panel of mouse monoclonal antibodies against the ATPase were mapped by reactions with defined fragments of the enzyme expressed in Escherichia coli.

High level expression of streptokinase in Escherichia coli.

Streptokinase (SK), which activates human plasminogen by promoting its conversion to plasmin, is normally obtained from beta-hemolytic streptococci. Treatment with SK is an effective therapy for improving survival and preserving left ventricular function after coronary thrombosis. We report the cloning, expression in E.

A novel and conserved salt-induced protein is an important determinant of salt tolerance in yeast.

We have isolated a novel yeast gene, HAL1, which upon overexpression improves growth under salt stress. In addition, disruption of this gene decreases salt tolerance. Therefore HAL1 constitutes a rate-limiting determinant for halotolerance.

Functional expression of plant plasma membrane H(+)-ATPase in yeast endoplasmic reticulum.

Recombinant plant plasma membrane H(+)-ATPase has been produced in a yeast expression system comprising a multicopy plasmid and the strong promoter of the yeast PMA1 gene. Western blotting with a specific monoclonal antibody showed that the plant ATPase is one of the major membrane proteins made by the transformed cells, accounting for about 1% of total yeast protein. The plant ATPase synthesized in yeast is fully active.

The regulatory domain of fungal and plant plasma membrane H(+)-ATPase.

The activity of fungal and plant plasma membrane H(+)-ATPases seems to be regulated by modulation of the interaction of an inhibitory domain at the C-terminus with the active site. In the yeast ATPase, a mutation at the active site (Ala547- > Val) and a deletion of the C-terminus result in constitutive activation. A double Ser911- > Ala, Thr912- > Ala mutation at the C-terminus (defining putative phosphorylation sites) locks the enzyme in the inhibited state and can be suppressed by the Ala547- > Val mutation at the active site.

Auxin induces exocytosis and the rapid synthesis of a high-turnover pool of plasma-membrane H(+)-ATPase.

Auxin causes elongation growth of plant cells by increasing the plastic extensibility of the cell wall. Putative cellular events involved in this hormone action were studied using maize (Zea mays L.) coleoptiles with the following results: (i) Auxin enhances membrane flow from the endoplasmic reticulum to the plasma membrane (PM).

Immunocytolocalization of plasma-membrane H(+)-ATPase in maize coleoptiles and enclosed leaves.

The plasma-membrane H(+)-ATPase (EC 3.6.1.

Identification of an autoinhibitory domain in the C-terminal region of the plant plasma membrane H(+)-ATPase.

Proteolytic (trypsin) treatment removes a small terminal segment from the 100-kDa plant plasma membrane H(+)-ATPase. This results in activation of H+ pumping across the plasma membrane, suggesting that an inhibitory domain is located in one of the terminal regions of the enzyme (Palmgren, M.G.

Immunological approaches to the transmembrane topology and conformational changes of the carboxyl-terminal regulatory domain of yeast plasma membrane H(+)-ATPase.

Molecular genetic experiments have suggested that the carboxyl terminus of the Saccharomyces cerevisiae plasma membrane H(+)-ATPase is an inhibitory domain involved in the "in vivo" regulation of the enzyme by glucose metabolism. An antibody prepared against a fusion protein including the last 59 amino acids of the ATPase sequence has been affinity purified to yield a preparation which requires the 18 carboxyl-terminal amino acids for recognition. Antibody binding experiments show that the carboxyl-terminal domain of the ATPase can be selectively exposed by concentrations of the detergent Tween-20 which do not break down the permeability barrier of the plasma membrane to the antibody.

Analysis of the regulatory domain of yeast plasma membrane H+-ATPase by directed mutagenesis and intragenic suppression.

The yeast plasma membrane H+-ATPase is activated in vivo by glucose metabolism, and previous deletion analysis has shown the C-terminus of the enzyme to be involved in this regulation. Site-directed mutagenesis demonstrates that Arg909 and Thr912 at the C-terminus are important for the increase in Vmax of the ATPase induced by glucose. Other changes in kinetic parameters induced by glucose are largely independent of these amino acids.

[Strongyloidiasis in patients with pemphigus foliaceus].

In 30 patients with foliaceus pemphigus the frequency of strongyloidiasis was 40%, by three Baermann-Moraes examination. In the "Hospital do Pênfigo", for patients with pemphigus of Uberaba, the frequencies of strongyloidiasis in the employees (n = 14) and students (n = 47), of the annexed nursery, also were high, respectively 35.7% and 23.

[Bacteremia in a community hospital. Review of 78 cases].

We analyze retrospectively all bacteremic episodes seen between January and December, 1987 in our institution. From a total number of blood cultures performed of 897, 145 were positive (16%), and 67 of them considered as contamination (7.5%).

Domains of yeast plasma membrane and ATPase-associated glycoprotein.

In yeast homogenates the plasma membrane H(+)-ATPase and a major surface glycoprotein of about 115 kDa are present in two membrane fractions with peak densities in sucrose gradients of 1.17 and 1.22.

Isolation of a novel tumor protein that induces resistance to natural killer cell lysis.

The human metastatic tumor cell line CAP-2, produces a soluble factor that induces resistance to NK lysis of K-562 susceptible leukemia cell line, and does not inhibit the cytotoxic capacity of effector cells. The use of sequential HPLC, hydrophobic interaction chromatography, and reverse phase chromatography, coupled with cytotoxic assays, resulted in the isolation and separation to homogeneity of a novel protein responsible for this biologic activity. Size estimation studies based on TSK HPLC columns showed that this protein has a mass of 8 to 12 kDa.

Natural killer susceptibility is independent of HLA class I antigen expression on cell lines obtained from human solid tumors.

The susceptibility to natural killer (NK) cell-mediated cytotoxicity of 20 cell lines obtained from human solid tumors and their class I histocompatibility antigen (HLA) levels were studied in an attempt to determine whether major histocompatibility complex (MHC) products expressed on cells derived from human solid tumors influence NK susceptibility. The effect of interferon-gamma (IFN-gamma) treatment on these elements was also analyzed. The MHC class I (HLA-ABC, HLA-A and HLA-B) antigen levels and degree of NK lysis were very heterogeneous and no correlation was found on comparison.

Analysis of the mechanisms involved in NK resistance induced by a new tumor factor NK-RIF.

The mechanisms involved in susceptibility or resistance of neoplasic cells to lysis by NK cells are not well known. We have recently described a 12-kDa factor (NK-RIF), produced and released by different tumor cell lines, making K562 resistant to NK lysis without affecting the cytotoxic function of NK effector cells. In this paper we further study the mechanism involved in NK resistance of K562 mediated by NK-RIF and its biological implications.

Tumorigenic 3T3 cells maintain an alkaline intracellular pH under physiological conditions.

One of the earliest events in the response of mammalian cells to mitogens is activation of Na+/H+ exchange, which increases intracellular pH (pHin) in the absence of HCO3- or at external pH values below 7.2. The proliferative response can be blocked by preventing the pHin increase; yet, the proliferative response cannot be stimulated by artificially raising pHin with weak bases or high medium pH.