K. Ruckemann et al., LEFLUNOMIDE INHIBITS PYRIMIDINE DE-NOVO SYNTHESIS IN MITOGEN-STIMULATED T-LYMPHOCYTES FROM HEALTHY HUMANS, The Journal of biological chemistry, 273(34), 1998, pp. 21682-21691
The mode of action of Leflunomide, an immunomodulatory drug used in rh
eumatoid arthritis, is debated, This study, using C-14-labeled de novo
purine and pyrimidine synthesis precursors, proves conclusively that
the prime target in proliferating human T-lymphocytes is pyrimidine bi
osynthesis at the level of dihydroorotic-acid dehydrogenase. Leflunomi
de (25 and 50 mu M), like Brequinar (0.5 and 1 mu M), a demonstrated d
ihydroorotic-acid dehydrogenase inhibitor, was cytostatic, not cytotox
ic, with proliferation being halted in the G(1) phase. Both drugs rest
ricted the normal 4-8-fold mitogen-induced expansion of pyrimidine poo
ls over 72 h to concentrations found in nonstimulated T-cells and [C-1
4]bicarbonate incorporation into UTP, ATP, and GTP. Uridine (50 mu M)
restored expansion of all pools, but [C-14]bicarbonate incorporation i
nto ATP and GTP only, not UTP, [C-14]Hypoxanthine salvage was also res
tricted, indicating that purine salvage pathways are compromised likew
ise by both inhibitors, [C-14]Glycine studies confirmed that restricti
on of de novo purine synthesis occurred secondary to inhibition of pro
liferation since this was reversed by uridine rescue, except at 100 mu
M Leflunomide. 100 mu M Leflunomide markedly depleted ATP and GTP poo
ls also, which would have serious consequences for ATP-dependent enzym
es essential to the immune response, thereby explaining non-pyrimidine
-related effects reported for Leflunomide at 100 mu M and above.