Gea Speelmans scite author profile

The kinetics of passive transport of the anticancer drug doxorubicin were analyzed in relation to membrane composition in large unilamellar vesicles in which DNA was enclosed. Special attention was paid to lipids that are typical for the inner and outer leaflet of the plasma membrane of mammalian cells: Phosphatidylethanolamine and anionic phosphatidylserine versus phosphatidylcholine, sphingomyelin, and cholesterol, respectively. The presence of anionic phospholipids results in a highly efficient incorporation of the drug into biological and model membranes [de Wolf, F. A., et al. (1993) Biochemistry 32, 6688-6695]. Therefore, the effect of drug binding on the amount of free, transportable drug was explicitly taken into account. However, even after correction for binding the permeability coefficient was about 35% lower in membranes containing 50 mol % of the anionic phosphatidylserine than in membranes consisting only of zwitterionic phospholipids (0.71-0.79 versus 1.18-1.25 microns s-1). This shows that drug binding and insertion also affect the intrinsic transport characteristics of the membranes. As compared to pure phosphatidylcholine, binding was not influenced by the incorporation of sphingomyelin or cholesterol, but equimolar amounts of sphingomyelin and cholesterol in phosphatidylcholine membranes decreased the rate of doxorubicin transport by 60% and 80%, respectively. The inhibitory effect of these two lipids is probably due to a closer packing of the membranes. In accordance, after the acyl chain order was decreased by adding the anaesthetic-like phenethyl alcohol (0.5% v/v), transport was stimulated more than 4-fold. The implications of our findings for the functioning and rate of drug pumping by the multidrug resistance-conferring P-glycoprotein in cancer cells are discussed.

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Strain-Specific Effects of Probiotics on Gut Barrier Integrity following Hemorrhagic Shock

Luyer¹,

Buurman²,

Hadfoune³

et al. 2005

Infect Immun

101

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Probiotic therapy modulates the composition of the intestinal flora and inhibits the inflammatory response. These properties may be of benefit in the preservation of gut barrier integrity after injury or stress. In this study, we examined the effect of two Lactobacillus strains selected for their pathogen exclusion properties on intestinal barrier integrity following hemorrhagic shock. Additionally, the responsiveness of the macrophage cell line RAW 264.7 to combined exposure to Lactobacillus DNA or oligodeoxynucleotides containing CpG motifs (CpG-ODN) and endotoxin was assessed by measuring tumor necrosis factor alpha (TNF-␣) release. Rats were administered lactobacilli (5 ؋ 10 9 CFU) or vehicle for 7 days and were subjected subsequently to hemorrhagic shock by withdrawal of 2.1 ml blood/100 g tissue. Levels of plasma endotoxin, bacterial translocation to distant organs, and filamentous actin (F-actin) in the ileum were determined 24 h later. Rats treated with Lactobacillus rhamnosus showed reduced levels of plasma endotoxin (8 ؎ 2 pg/ml versus 24 ؎ 4 pg/ml; P ‫؍‬ 0.01), bacterial translocation (2 CFU/gram versus 369 CFU/gram; P < 0.01), and disruption of F-actin distribution following hemorrhagic shock compared with nontreated control rats. In contrast, pretreatment with Lactobacillus fermentum had no substantial effect on gut barrier integrity. Interestingly, DNA preparations from both lactobacilli reduced endotoxin-induced TNF-␣ release dose dependently, whereas CpG-ODN increased TNF-␣ release. In conclusion, the pathogen exclusion properties of both Lactobacillus strains and the reduction of endotoxin-induced inflammation by their DNA in vitro are not prerequisites for a beneficial effect of probiotic therapy on gut barrier function following hemorrhagic shock. Although pretreatment with Lactobacillus spp. may be useful to preserve gut barrier integrity following severe hypotension, a thorough assessment of specific strains seems to be essential.

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Cisplatin Complexes with Phosphatidylserine in Membranes

et al. 1997

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Upon incubation of the anticancer drug cisplatin [cis-diamminedichloroplatinum(II)] with model membranes composed of phosphatidylserine (PS), a stable product is formed that has been isolated after chloroform/methanol extraction of the sample. The product formation is specific for PS and does not occur with other major membrane phospholipids. The rate and extent of product formation is dependent on the pH, chloride ion concentration, and temperature, with the highest rate at pH 6.0, in the absence of Cl- and at 37 degrees C, indicating that positively charged aquated cisplatin is the reactive species. Over 80% of PS is converted within 15 h under these conditions with a halftime of 5 h. PS can be regenerated by an excess of glutathione. Mass spectrometry experiments demonstrate that interaction of cisplatin with PS involves a loss of two chloride ions and coordination of platinum to the amine and carboxyl group of the serine moiety. Cisplatin forms complexes specifically with PS not only in model membranes but also in the plasma membrane of human erythrocytes. Since PS is essential in several cellular processes, its interaction with cisplatin may have important physiological implications.

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The interaction of the anti-cancer drug cisplatin with phospholipids is specific for negatively charged phospholipids and takes place at low chloride ion concentration

Speelmans¹,

Sips²,

Grisel³

et al. 1996

Biochimica et Biophysica Acta (BBA) - Biomembranes

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The interaction of the anti-cancer drug cis-diamminedichloroplatinum(II) (cisPt) with model membranes was studied, with emphasis on the cisPt and phospholipid species involved. Binding studies using large unilamellar vesicles have revealed that: (i) Interaction involved negatively charged phospholipids only, and (ii) Interaction with negatively charged phospholipids was observed only in buffers with low Cl- concentration, indicating that aquated, positively charged cisPt is involved. Binding to all negatively charged phospholipids tested was highest at pH 6.0. At pH 7.4 a high and specific binding was observed with phosphatidic acid and phosphatidylserine. The consequences of cisPt binding on the organization of lipids was investigated with differential scanning calorimetry studies. These studies have indicated a higher ordering of dispersions of negatively charged phospholipids in the presence of divalent cationic cisPt. Summarizing, the interaction of positively charged cisPt species with negatively charged phospholipids is significant and should be considered in in vivo experiments.

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Limonene bioconversion to high concentrations of a single and stable product, perillic acid, by a solvent-resistant Pseudomonas putida strain

Speelmans

Bijlsma

Eggink

1998

Applied Microbiology and Biotechnology

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Gea Speelmans

Transport Studies of Doxorubicin in Model Membranes Indicate a Difference in Passive Diffusion across and Binding at the Outer and Inner Leaflet of the Plasma Membrane

Strain-Specific Effects of Probiotics on Gut Barrier Integrity following Hemorrhagic Shock

Cisplatin Complexes with Phosphatidylserine in Membranes

The interaction of the anti-cancer drug cisplatin with phospholipids is specific for negatively charged phospholipids and takes place at low chloride ion concentration

Limonene bioconversion to high concentrations of a single and stable product, perillic acid, by a solvent-resistant Pseudomonas putida strain

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