화학공학소재연구정보센터
Biochemical and Biophysical Research Communications, Vol.509, No.1, 275-280, 2019
Lupresan, a new drug that prevents or reverts the formation of nonbilayer phospholipid arrangements that trigger a murine lupus resembling human lupus
Non-bilayer phospholipid arrangements (NPA) are lipid associations different from the bilayer, formed by the interactions of conic anionic lipids and divalent cations that produce an inverted micelle which is inserted between the lipid layers, so the polar heads of the outer lipids spread and expose new antigens. Since these structures are transient, they are not immunogenic, but if they are stabilized by drugs, such as chlorpromazine, they become immunogenic and induce anti-NPA antibodies that trigger a lupus-like disease in mice. Chloroquine is a drug used for the treatment of lupus; chloroquine has a quinoline ring and two positive charges that interact with conic anionic lipids and prevent or revert the formation of NPA. However, the polyamine spermidine is more effective, since it has three positive charges and interacts with more lipids, but polyamines cannot be used as drugs, because they are highly toxic. Here we report the design and synthesis of Lupresan, an analogous of chloroquine with its quinoline ring but with three positive charges. Lupresan is more effective in preventing or reverting the formation of NPA than chloroquine or spermidine, and as a consequence, it decreased auto-antibody titers and healed the malar rash in mice with lupus to a greater extent than chloroquine. A drug as Lupresan could be used for the treatment of human lupus. (C) 2018 Elsevier Inc. All rights reserved.