The Effect of Steric Constraints on the Adsorption of Phenyltin onto the Dipalmitoylphosphatidylcholine Bilayer

Hładyszowski, Jerzy; Gabrielska, Janina; Ordon, P.; Przestalski, S.; Langner, Marek

doi:10.1007/s00232-002-1016-6

Cited by 13 publications

(30 citation statements)

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“…Ph 2 SnCl 2 intercalates into the hydrophobic membrane interior, which has little effect on overall membrane properties, whereas Ph 3 SnCl affects the interface at the vicinity of glycerol. 28,41 Such location-activity correlation agrees with experimental evidence and theoretical predictions that the disturbances imposed on the lipid bilayer at the glycerol level affect membrane stability the most. 42 In conclusion, both compounds, Ph 3 SnCl and Ph 2 SnCl 2 , influence the osmotically induced erythrocyte haemolysis, but triphenyltin chloride acts more intensively, reducing erythrocyte plasma membrane mechanical strength.…”

Section: Resultssupporting

confidence: 83%

“…This toxicity was then correlated with compound's effect on model lipid bilayer properties. 28 These experiments showed that diphenyltin affects the lipid bilayer hydrophobic region, whereas the triphenyltin disturbs the membrane interphase. In addition, both compounds, being positively charged, change the membrane surface electrostatic potential.…”

Section: Resultsmentioning

confidence: 96%

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The effect of phenyltin chlorides on osmotically induced erythrocyte haemolysis

Miszta

Gabrielska

Przestalski

et al. 2005

Applied Organom Chemis

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The toxicity of many amphiphilic compounds may result from their effect on the lipid phase of biological membranes. Upon incorporation such compounds may change the properties of membranes in general and in particular alter the organization of membrane lipids. These changes should affect, among other things, the mechanical properties of membranes. We selected two amphiphilic compounds, diphenyltin dichloride (Ph 2 SnCl 2 ) and triphenyltin chloride (Ph 3 SnCl), which are known to be located at different regions of the lipid bilayer and to be toxic. As a model biological membrane the erythrocyte plasma membrane was used. Analysis of the haemolysis kinetics showed differences between the effect of the compound studied on mechanical properties at so-called non-lytic concentrations. Diphenyltin dichloride showed a limited effect on erythrocyte haemolysis, whereas triphenyltin chloride affected all the parameters measured (extent of initial haemolysis, extent of final haemolysis and membrane mechanical strength). We correlated these effects with the location of the investigated compounds in liposomes. The presented data show that triphenyltin chloride reduces the erythrocyte plasma membrane mechanical strength and increases the extent of haemolysis under osmotic stress conditions.

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Section: Resultssupporting

confidence: 83%

Section: Resultsmentioning

confidence: 96%

The effect of phenyltin chlorides on osmotically induced erythrocyte haemolysis

Miszta

Gabrielska

Przestalski

et al. 2005

Applied Organom Chemis

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“…This result agrees with literature data showing that Ph 2 SnCl 2 behaves like a simple detergent, intercalating within the lipid bilayer hydrocarbon chain region. 25 The results of similar experiments for Ph 3 SnCl are presented in Fig. 2.…”

Section: Resultsmentioning

confidence: 80%

“…We have shown previously that phenyltin adsorption depends on phosphatidylcholine membrane organization (gel versus liquid-crystal state) and cholesterol content. 24,25 In addition, the available experimental data and molecular simulations indicate that diphenyltin and triphenyltin adsorb onto the lipid bilayer surface differently. Diphenyltin penetrates deep into the hydrophobic membrane interior, whereas triphenyltin is located within the interface region.…”

Section: Bioorganometallic Chemistrymentioning

confidence: 97%

“…Diphenyltin penetrates deep into the hydrophobic membrane interior, whereas triphenyltin is located within the interface region. 25,26 Besides altering lipid bilayer packing, both compounds introduce positive charges onto the membrane surface, which may interfere with processes that rely on electrostatic interactions. In this paper, we present data showing that phenyltins have reduced affinity towards membranes formed from raft-like lipid mixtures.…”

Section: Bioorganometallic Chemistrymentioning

confidence: 99%

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The effect of cholesterol on the adsorption of phenyltin compounds onto phosphatidylcholine and sphingomyelin liposome membranes

Gabrielska

Przestalski

Miszta

et al. 2003

Applied Organom Chemis

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Di- and tri-phenyltin chlorides transfer across a model lipid bilayer

Olżyńska

Przybyło

Gabrielska

et al. 2005

Appl. Organometal. Chem.

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A compound's ability to penetrate the plasma membrane of a cell is the critical parameter that determines its potential to become a biologically potent factor. A well-known group of organotin compounds that exhibit toxic properties in relation to biological systems are phenyltins. There are as yet no studies that in a direct manner have established whether organotin compounds such as diphenyltin dichloride (DPhT) and triphenyltin chloride (TPhT) diffuse, or not, through the lipid bilayer, although we know that at least some organotins absorb in both liposome and biological membranes. In this paper we present a series of experiments that show transfer of these compounds across the lipid membrane using the stopped-flow technique. The results obtained demonstrate that DPhT and TPhT first adsorb onto the lipid bilayer surface, in a diffusion-controlled manner and within a very short time (0.05 s), whereas the membrane crossing was observed to be on the order of a minute. The adsorption process was easily fitted with a single exponential for both the compounds studied, indicating a single process phenomenon. The longer time kinetics (characteristic of membrane crossing) showed a complex dependence on compound concentration and the presence of cholesterol in the membrane. On passing from the outer to the inner surface of the bilayer, organotins undergo desorption and enter the liposome interior, which has been shown in lipid monolayer desorption studies. In conclusion, it can be stated that amphiphilic DPhT and TPhT permeate the liposome membrane.

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The Effect of Steric Constraints on the Adsorption of Phenyltin onto the Dipalmitoylphosphatidylcholine Bilayer

Cited by 13 publications

References 0 publications

The effect of phenyltin chlorides on osmotically induced erythrocyte haemolysis

The effect of phenyltin chlorides on osmotically induced erythrocyte haemolysis

The effect of cholesterol on the adsorption of phenyltin compounds onto phosphatidylcholine and sphingomyelin liposome membranes

Di- and tri-phenyltin chlorides transfer across a model lipid bilayer

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