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Vol. 283, Issue 1, 358-365, 1997
Department of Pharmacology and Pharmacokinetics (L.V., J-Y.P.,
F.L.),
College of Pharmacy, University of Nantes and INSERM U463
(F.L.), Nantes, France
We have previously described benzamide derivatives that inhibited tumor
necrosis factor (TNF) production from activated macrophages (M
)
probably by interacting with a protein kinase C (PKC)-dependent pathway. To investigate their mode of action further, we first tested
their effect on isolated PKC in vitro, using the selective inhibitor bisindolylmaleimide (BIM) as a positive control. We found
that our representative compound JM34 did not inhibit PKC activity
in vitro. We then investigated pathways located downstream of PKC and focused on the Raf1/MEK1,2/Erk1,2 cascade known to be
preferentially activated by PKC activators such as phorbol esters. We
found that JM34 dose-dependently inhibited Erk2 phosphorylation in M
stimulated by phorbol dibutyrate and calcium ionophore (maximal inhibition of 85% at 300 µM). BIM at 3 µM totally abrogated Erk2 phosphorylation. After stimulation with endotoxin or zymosan, Erk2
phosphorylation was only partially inhibited (25-30%) by JM34 or BIM,
which confirmed that PKC-independent events were also involved in Erk2
phosphorylation. Because activated Erk2 has been shown to activate
phospholipase A2, we tested the effect of JM34 and BIM on
the release of arachidonate metabolites from activated M. We found
that both products partially inhibited the release of arachidonate
metabolites from zymosan-activated M at levels comparable to their
inhibition of Erk2 phosphorylation. In contrast, JM34 and BIM markedly
differed in their ability to inhibit TNF production. Taken together,
our results suggest that JM34 inhibited the PKC-dependent pathway of
Erk2 phosphorylation, which may fully account for its inhibitory effect
on phospholipase A2 activation. However, the inhibition of
TNF release by JM34 probably involved inhibition of an additional
pathway, distinct from the Erk1/Erk2 cascade.
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