Novel Isoquinolinamine and Isoindoloquinazolinone Compounds Exhibit Antiproliferative Activity in Acute Lymphoblastic Leukemia Cells

Nitrogen-containing heterocycles such as quinoline, quinazolinones and indole are scaffolds of natural products and have broad biological effects. During the last years those structures have been intensively synthesized and modified to yield new synthetic molecules that can specifically inhibit the activity of dysregulated protein kinases in cancer cells. Herein, a series of newly synthesized isoquinolinamine (FX-1 to 8) and isoindoloquinazolinone (FX-9, FX-42, FX-43) compounds were evaluated in regards to their anti-leukemic potential on human B- and T-acute lymphoblastic leukemia (ALL) cells. Several biological effects were observed. B-ALL cells (SEM, RS4;11) were more sensitive against isoquinolinamine compounds than T-ALL cells (Jurkat, CEM). In SEM cells, metabolic activity decreased with 10 μM up to 26.7% (FX-3), 25.2% (FX-7) and 14.5% (FX-8). The 3-(p-Tolyl) isoquinolin-1-amine FX-9 was the most effective agent against B- and T-ALL cells with IC50 values ranging from 0.54 to 1.94 μM. None of the tested compounds displayed hemolysis on erythrocytes or cytotoxicity against healthy leukocytes. Anti-proliferative effect of FX-9 was associated with changes in cell morphology and apoptosis induction. Further, influence of FX-9 on PI3K/AKT, MAPK and JAK/STAT signaling was detected but was heterogeneous. Functional inhibition testing of 58 kinases revealed no specific inhibitory activity among cancer-related kinases. In conclusion, FX-9 displays significant antileukemic activity in B- and T-ALL cells and should be further evaluated in regards to the mechanisms of action. Further compounds of the current series might serve as templates for the design of new compounds and as basic structures for modification approaches.

A QSAR and molecular modeling study on a series of 3, 4-dihydro-1-isoquinolinamines and thienopyridines acting as nitric oxide synthase inhibitors.

A quantitative structure-activity relationship (QSAR) and molecular modeling study were performed on a series of 3,4-dihyro-1-isoquinolinamines and thienopyridines reported by Beaton et al. [Beaton et al. (2001) Bioorg Med Chem Lett 11, 1023-1026, 1027-1030] as potent, highly selective inhibitors of two isoforms of nitric oxide synthase (NOS) — neuronal NOS (nNOS) and endothelial NOS (eNOS), in order to find the physicochemical properties that governed their activity and the mode of interaction with the receptors, so that still more potent compounds in the series could be suggested. A multiple regression analysis revealed that nNOS and eNOS inhibition potency of these compounds could be controlled by their hydrophobic property and molar refractivity, respectively. Thus, nNOS and eNOS inhibition was indicated to involve the hydrophobic interaction and steric effects, respectively, suggesting some structural differences of the two isoforms of NOS. Based on the correlations obtained, some new, more potent compounds belonging to the series were predicted. These compounds were then docked into the receptors to see their interactions and find out the docking scores. The docked structures of two representative compounds, whose interaction energies with nNOS and eNOS, respectively were found to be the lowest, were given as an example to exhibit the possible orientation of the compounds to interact with the receptors.