A new study reveals a functional rule for N-terminal acetylation in higher eukaryotes called the (X)PX rule and describes a generic method that prevents this modification to allow the study of N-terminal acetylation in any given protein.
The influence of cell culture conditions and previous drug exposure on P-glycoprotein (P-gp) expression levels in Caco-2 cells was determined. In this study, the expression of P-gp is demonstrated (i) visually by confocal laser scanning microscopy (CLSM), (ii) functionally by transport studies with substrates of the efflux pump, and (iii) quantitatively by flow cytometry (FCM) analysis using specific monoclonal antibodies (anti P-gp MRK 16 as an external antibody and P-GlycoCheck C219 as an internal antibody). Trypsinization of the cells after reaching confluence led to a decrease of P-gp expression levels, while trypsinization before reaching confluence led to an increase after long-term cultivation. Culturing the cells on polycarbonate filters did not elicit a significant change of P-gp expression over time in culture, whereas in plastic flasks (polystyrene) a decrease was detected. Using CLSM a strong fluorescence on the apical side of Caco-2 cell monolayers was observed, as a result of incubation with MRK 16 as primary and IgG Cy5 as secondary antibody. Previous drug exposure of the cells showed that verapamil, celiprolol, and vinblastine induced the P-gp expression, while metkephamid (MKA) decreased the P-gp expression level as compared to the control. Permeation studies consolidated the theory that P-gp is expressed in the Caco-2 cells examined. For talinolol and MKA, a higher transport from basolateral to apical side than from apical to basolateral could be measured. Incubation of the cell monolayer with MRK 16 reduced the secretion process to the apical side, but did not influence [3H]mannitol flux. Caco-2 cells seem to be a suitable cell line model for P-gp-mediated secretion studies. However, the variability of the P-gp expression requires careful control when this model is to be used in quantitative structure/secretion studies.
Neutrophils play a key role in the pathophysiology of septic multiple organ dysfunction syndrome (MODS) through excessive release of toxic granule components and reactive oxygen metabolites with consequent tissue destruction. The increase of senescent neutrophils during sepsis indicates a potential breakdown of autoregulatory mechanisms including apoptotic processes to remove activated neutrophils from inflammatory sites. Therefore, neutrophil apoptosis of patients with severe sepsis and its regulatory mechanisms were investigated. Spontaneous neutrophil apoptosis from patients with severe sepsis was significantly reduced in comparison to healthy individuals. Cytokines detected in the circulation during sepsis (tumor necrosis factor-α [TNF-α], interferon-γ [IFN-γ], granulocyte colony-stimulating factor [G-CSF], granulocyte-macrophage colony-stimulating factor [GM-CSF]) inhibited neutrophil apoptosis in both groups, though the effect was more distinct in neutrophils from healthy humans. Addition of lipopolysaccharide (LPS) to neutrophils from healthy humans markedly (P < .05) reduced apoptosis which was partially restored through addition of anti–TNF-antibody. Interleukin-10 (IL-10) counteracted (P < .05) inhibition of neutrophil apoptosis induced by LPS, recombinant human (rh) TNF-α, rhIFN-γ, rhG-CSF, and rhGM-CSF, whereas rhIL-4 or rhIL-13 were ineffective. Reduced neutrophil apoptosis during sepsis was concomitant with increased tyrosine phosphorylation, while IL-10 markedly inhibited tyrosine phosphorylation in LPS-stimulated neutrophils. These results identify proinflammatory cytokines and IL-10 as strong regulators of spontaneous neutrophil apoptosis during sepsis. Inhibition as well as acceleration of neutrophil apoptosis seems to be associated with alterations of signal transduction pathways.
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