I kappaB kinase-1 and I kappaB kinase3 (IKK1 and IKK2; also called IKK alph
a and IKK beta, respectively) are part of the signal complex that regulates
NF-kappaB activity in many cell types, including fibroblast-like synoviocy
tes (FLS), We determined which of these two kinases is responsible for cyto
kine-induced NF-KB activation in synoviocytes and assessed the functional c
onsequences of IKK1 or IKK2 overexpression and inhibition, PLS were infecte
d with adenovirus constructs encoding either wild-type (wt) IKK1 or IKK2, t
he dominant negative (dn) mutant of both kinases, or a control construct en
coding green fluorescence protein. Analysis of the NF-KB pathway revealed t
hat cytokine-induced IKK activation, I kappaB degradation, and NF-KB activa
tion was prevented in cells expressing the IKK2 dn mutant, whereas baseline
NF-kappaB activity was increased by IKK2 wt. In addition, synthesis of IL-
6 and,IL-8, as well as expression of ICAM-1 and collagenase, was only incre
ased by IKK2, wt, and their cytokine-induced production was abrogated by IK
K2 dn mutant. However, the IKK1 dn mutant did not inhibit cytokine-mediated
activation of NF-kappaB or any of the functional assays, These data indica
te that IKK2 is the key convergence pathway for cytokine-induced NF-kappaB
activation. Furthermore, IKK2 regulates adhesion molecule, matrix metallopr
oteinase, and cytokine production in FLS.