16889-14-8Relevant articles and documents
Cationic amphiphiles with G-protein-stimulatory activity: Studies on the role of the basic domain in the activation process
Detert,Seifert,Schunack
, p. 67 - 72 (2007/10/02)
2-Substituted histamines, which are cationic-amphiphilic, activate pertussis toxin-sensitive G-proteins by a receptor-independent mechanism. Lipophilicity is an important determinant for this G-protein activation, but the influence of basicity remained unclear. We prepared four imidazole-containing compounds and nine alkylamines with different basicity and studied their effects on high-affinity GTP hydrolysis in HL-60 membranes. The substances contained a lipophilic domain (L) and polar (P) and/or cationic (C) domains. Compared to 2-substituted histamines (L-P-C), the corresponding L-C-P type compounds were less potent and effective which, however, were still more active than L-P-P type substances. Among alkylamines, 2-octadecylaminoethyl-N,N-diethylamine (11) was the most potent GTPase activator (pEC50 = 5.7; 100% stimulation above basal). Conversely, 3-(5-hydroxyundecylamino)propylamine (15) was the most efficient compound (pEC50 = 4.3; 160% stimulation above basal). Compared to compounds 11 and 15, which belong to the L-C-C type, the corresponding L-P-C type compounds were less active. Thus, among 2-substituted histamines and alkylamines, a terminal cationic domain is critical for potent and/or effective receptor-independent G-protein activation. An L-C-X structure (X = P or C) is more favorable for G-protein activation than a L-P-X structure. Potency and efficiency of receptor-independent G-protein activators are independently determined drug parameters.