Comparison of the membrane-related effects of cytarabine and other agents on model membranes

Karl A. Koehler; John Hines; Edward G. Mansour; Yousef M. Rustum; Dattatreya V. Jahagirdar; Mahendra K. Jain

doi:10.1016/0006-2952(85)90383-1

Back

Comparison of the membrane-related effects of cytarabine and other agents on model membranes

Journal article

Peer reviewed

Comparison of the membrane-related effects of cytarabine and other agents on model membranes

Karl A. Koehler, John Hines, Edward G. Mansour, Yousef M. Rustum, Dattatreya V. Jahagirdar and Mahendra K. Jain

Biochemical pharmacology, Vol.34(22), pp.4025-4031

1985

DOI: 10.1016/0006-2952(85)90383-1

PMID: 4062974

View Online

Abstract

The membrane-associated effects of a series of chemotherapeutic and other drugs were examined via differential scanning calorimetry and by their modulation of the action of porcine phospholipase A 2 (PLA 2) on bilayer substrates. The drugs examined included: cytarabine, amino-glycoside antibiotics, adriamycin, dibucaine, butacaine, and VP-16. The bilayers employed were phase-separated ternary lipid mixtures containing dimyristoylphosphatidylcholine: palmitoyllysolecithin: and either hexadecanoic acid (fatty acid ternary mixture) or hexadecanol (alcohol ternary mixture). Effects of the more hydrophilic drugs (cytarabine and aminoglycoside antibiotics) on the calorimetric profiles of the negatively charged (fatty acid-containing) and the neutral (hexadecanol-containing) ternary lipid mixtures indicate that the interaction of these drugs with biomembranes is likely to be dominated by electrostatic interactions. All of the drugs investigated, including the more hydrophobic adriamycin, dibucaine, butacaine, and VP-16, affected the phase equilibrium in the membrane and exhibited apparent noncompetitive inhibition of the action of PLA 2 on bilayers composed of ternary lipid substrates. In addition, cytarabine inhibited fusion of fatty acid-containing ternary mixtures. Conclusions: These drug: membrane interactions leading to a shift in the phase equilibria were apparently regiospecific. Hydrophilic drug: membrane interactions included an important electrostatic component. The effects of all of the drugs employed in this study on the action of PLA 2 on a bilayer substrate (fatty acid-containing ternary lipid mixture) are hypothesized to be a result of the drug-mediated shift in phase equilibria away from the optimally active phase distribution. As a result, PLA 2 binds with normal affinity to the membrane, but its membrane substrate is not catalytically turned over. It is evident that these drugs can directly affect cellular homeostasis in a manner that can show a dependence on the nature of the membrane surface.

LPC 16

adriamycin, doxorubicin

FA 16

OL 16

DSC

VP-16

fatty acid ternary mixture, 20% LPC + 10% hexadecanoic acid + PC 14

alcohol ternary mixture, 20% LPC + 10% hexadecanol + PC 14

AraC

DMPC

PLA 2

Details

Title: Subtitle: Comparison of the membrane-related effects of cytarabine and other agents on model membranes
Creators: Karl A. Koehler - Case Western Reserve University
John Hines - Case Western Reserve University
Edward G. Mansour - Case Western Reserve University
Yousef M. Rustum - Roswell Park Cancer Institute
Dattatreya V. Jahagirdar - University of Delaware
Mahendra K. Jain - University of Delaware
Resource Type: Journal article
Publication Details: Biochemical pharmacology, Vol.34(22), pp.4025-4031
Publisher: Elsevier Inc
DOI: 10.1016/0006-2952(85)90383-1
PMID: 4062974
ISSN: 0006-2952
eISSN: 1873-2968
Language: English
Date published: 1985
Academic Unit: Hematology, Oncology, and Blood & Marrow Transplantation; Internal Medicine
Record Identifier: 9984359951902771

Metrics

19 Record Views

12 Times Cited - Web of Science