Aza- and diaza-bisindoles were synthesized by coupling of 7-azaisatin, 7-azaoxindol, 7-azaindoxyl acetate, and their non-aza counterparts, respectively. Whereas 7,7'-diazaindigo (10) and 7,7'-diazaisoindigo (11) did not show antiproliferative activity in several human tumor cell lines up to 100 μM, 7-azaindirubin (12) and 7'-azaindirubin (13) were more active than the parent molecule, indirubin, in LXFL529L cells (human large cell lung tumor xenograft), and 7,7'-diazaindirubin (14) was exhibiting substantially enhanced growth inhibitory activity in these cells. In the NCI 60 cell line panel, 14 displayed antiproliferative activity preferentially in certain melanoma and non-small cell lung cancer cells. In contrast to the potent serine/threonine/tyrosine kinase inhibition observed for indirubins, kinase inhibition profiling of 14 in 220 kinases revealed largely a loss of kinase inhibitory activity towards most kinases, with retained inhibitory activity for just a few kinases. At 1 μM concentration, especially casein kinases CK1γ3, CK2α, CK2α2, and SIK were inhibited by more than 50%. In cell-based assays, 14 markedly affected CK2-mediated signaling in various human tumor cells. In MCF7 cells, 14 induced cell cycle arrest at G1 and G2/M and apoptosis, whereas CK2-deficient MCF7 cells were resistant. These findings reveal a novel key mechanism of action for 14, suggesting primarily CK2 inhibition to be causally related to growth inhibition of human tumor cells.