Membrane Structure Modulation, Protein Kinase Cα Activation, and Anticancer Activity of Minerval

Most drugs currently used for human therapy interact with proteins, altering their activity to modulate the pathological cell physiology. In contrast, 2-hydroxy-9- cis -octadecenoic acid (Minerval) was designed to modify the lipid organization of the membrane. Its structure was deduced following the...

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Published in:Molecular pharmacology 2005-02, Vol.67 (2), p.531
Main Authors: Jordi Martínez, Oliver Vögler, Jesús Casas, Francisca BarcelÃ, Regina Alemany, Jesús Prades, Tünde Nagy, Carmela Baamonde, Philip G. Kasprzyk, Silvia Terés, Carlos Saus, Pablo V. EscribÃ
Format: Article
Language:English
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Summary:Most drugs currently used for human therapy interact with proteins, altering their activity to modulate the pathological cell physiology. In contrast, 2-hydroxy-9- cis -octadecenoic acid (Minerval) was designed to modify the lipid organization of the membrane. Its structure was deduced following the guidelines of the mechanism of action previously proposed by us for certain antitumor drugs. The antiproliferative activity of Minerval supports the above-mentioned hypothesis. This molecule augments the propensity of membrane lipids to organize into nonlamellar (hexagonal H II ) phases, promoting the subsequent recruitment of protein kinase C (PKC) to the cell membrane. The binding of the enzyme to membranes was marked and significantly elevated by Minerval in model (liposomes) and cell (A549) membranes and in heart membranes from animals treated with this drug. In addition, Minerval induced increased PKCα expression (mRNA and protein levels) in A549 cells. This drug also induced PKC activation, which led to a p53-independent increase in p21 CIP expression, followed by a decrease in the cellular concentrations of cyclins A, B, and D3 and cdk2. These molecular changes impaired the cell cycle progression of A549 cells. At the cellular and physiological level, administration of Minerval inhibited the growth of cancer cells and exerted antitumor effects in animal models of cancer without apparent histological toxicity. The present results support the potential use of Minerval and related compounds in the treatment of tumor pathologies.
ISSN:0026-895X
1521-0111
DOI:10.1124/mol.104.000778