Literature DB >> 16040742

Molecular dynamics simulation studies of the effect of phosphocitrate on crystal-induced membranolysis.

Pranav Dalal1, Kimberly Zanotti, Andrzej Wierzbicki, Jeffry D Madura, Herman S Cheung.   

Abstract

In this study, following our earlier work on calcium pyrophosphate dihydrate (CPPD) crystal-induced membranolysis, we demonstrate, using the CHARMM method of molecular dynamics simulation, the protective role of phosphocitrate (PC) against solvated dimyristoyl phosphatidylcholine phospholipid bilayer disintegration on contact with the CPPD crystal. Our molecular dynamics simulations studies show that coverage of the CPPD crystal with a layer of phosphocitrate molecules results in the conservation of phospholipid bilayer integrity. We show that the rupture of the lipid bilayer in presence of CPPD and the protective effect of PC are primarily due to electrostatic interactions. The protective role of PC, which may also play an important and potentially therapeutic function against crystal-induced membranolysis is also discussed.

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Year:  2005        PMID: 16040742      PMCID: PMC1366727          DOI: 10.1529/biophysj.104.058503

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  13 in total

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Journal:  Calcif Tissue Int       Date:  1996-03       Impact factor: 4.333

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Journal:  Biochem Biophys Res Commun       Date:  1990-08-31       Impact factor: 3.575

Review 5.  The role of crystals in osteoarthritis.

Authors:  L M Ryan; H S Cheung
Journal:  Rheum Dis Clin North Am       Date:  1999-05       Impact factor: 2.670

6.  Adhesion of calcium oxalate monohydrate crystals to anionic sites on the surface of renal epithelial cells.

Authors:  J C Lieske; R Leonard; H Swift; F G Toback
Journal:  Am J Physiol       Date:  1996-01

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Authors:  J D Sallis; R Shankar; B Rees; R Thomson
Journal:  Biochem Med Metab Biol       Date:  1989-02

8.  Scanning electron microscopy and molecular modeling of inhibition of calcium oxalate monohydrate crystal growth by citrate and phosphocitrate.

Authors:  A Wierzbicki; C S Sikes; J D Sallis; J D Madura; E D Stevens; K L Martin
Journal:  Calcif Tissue Int       Date:  1995-04       Impact factor: 4.333

9.  Specific inhibition of basic calcium phosphate and calcium pyrophosphate crystal-induction of metalloproteinase synthesis by phosphocitrate.

Authors:  H S Cheung; J D Sallis; J A Struve
Journal:  Biochim Biophys Acta       Date:  1996-03-01

10.  Phosphocitrate and its analogue N-sulpho-2-amino tricarballylate inhibit aortic calcification.

Authors:  R Shankar; S Crowden; J D Sallis
Journal:  Atherosclerosis       Date:  1984-08       Impact factor: 5.162
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  3 in total

1.  Electrostatic interactions across a charged lipid bilayer.

Authors:  Alexander J Wagner; Sylvio May
Journal:  Eur Biophys J       Date:  2006-09-19       Impact factor: 2.095

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Authors:  M Foulon; M Robbe-Saule; J Manry; L Esnault; Y Boucaud; A Alcaïs; M Malloci; M Fanton d'Andon; T Beauvais; N Labarriere; P Jeannin; L Abel; J P Saint-André; A Croué; Y Delneste; I G Boneca; L Marsollier; E Marion
Journal:  PLoS Pathog       Date:  2020-12-18       Impact factor: 6.823

3.  Inflammatory Potential of Four Different Phases of Calcium Pyrophosphate Relies on NF-κB Activation and MAPK Pathways.

Authors:  Laure Campillo-Gimenez; Félix Renaudin; Maud Jalabert; Pierre Gras; Marjolaine Gosset; Christian Rey; Stéphanie Sarda; Corinne Collet; Martine Cohen-Solal; Christèle Combes; Frédéric Lioté; Hang-Korng Ea
Journal:  Front Immunol       Date:  2018-10-09       Impact factor: 7.561
  3 in total

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