Objective: To analyze tumor necrosis factor-alpha (TNF-alpha) synthesis by mononuclear cells stimulated with lipopolysaccharide (LPS) in patients with rheumatoid arthritis (RA).
Methods: TNF-alpha molecular expression and extracellular release were assessed in the peripheral blood mononuclear cells (PBMC) of 27 RA patients and 16 healthy blood donor controls during 8 hours of LPS stimulation. We also analyzed the mRNA expression of tristetraprolin (TTP), the major TNF-alpha mRNA destabilizing factor. TNF receptor p75 (TNFR 2) plasma concentrations were also tested in all patients.
Results: Controls and patients demonstrated a comparable wide range of TNF-alpha release capability, but patients achieved the peak value of protein release more quickly. Defining the median TNF-alpha release in controls as the cutoff value to distinguish high and low LPS-induced TNF-alpha-releasing phenotypes, patients with early RA (disease duration < 1 yr) belonged mainly to the low TNF-alpha producer subgroup, whereas patients with long-standing RA (> 1 yr) were prevalently high TNF-alpha producers. TTP molecular expression was higher in patients with shorter, than in patients with longer, disease duration. The profile of TNF-alpha release in patients with early RA changed significantly when retested after 6 months of therapy, while patients with long-standing disease maintained the same behavior as at baseline. Finally, a baseline low TNF-alpha-producer phenotype predisposed to a better responsiveness to disease modifying antirheumatic drugs.
Conclusion: The LPS-induced TNF-alpha-releasing phenotype differs between cells obtained from RA patients with different disease durations and seems to influence the therapeutic outcome.