OBJECTIVE: To explore the role of proinflammatory cytokines in giant cell arteritis (GCA) and polymyalgia rheumatica (PMR), two clinically related syndromes characterized by an intense acute-phase reaction. In particular, to determine plasma concentrations of interleukin-6 (IL-6) and tumor necrosis factor alpha (TNF alpha) and to correlate changes in plasma IL-6 levels with clinical symptoms during corticosteroid therapy. METHODS: IL-6 and TNF alpha concentrations were determined in plasma samples from patients with untreated PMR or GCA, and plasma IL-6 levels were monitored in patients receiving long-term therapy (14 months) with corticosteroids. To identify IL-6-producing cells, the polymerase chain reaction was used to detect IL-6 messenger RNA. In vitro production of IL-6 and IL-2 by peripheral blood mononuclear cells (PBMC) from treated and untreated patients was quantified using IL-6- and IL-2-specific bioassay systems. RESULTS: IL-6 concentrations were increased in PMR and GCA patients, whereas TNF alpha concentrations were similar to those in normal donors. Administration of corticosteroids rapidly reduced the levels of circulating IL-6 but did not correct the underlying mechanism inducing the increased IL-6 production. In individual patients, changes in plasma IL-6 levels and clinical manifestations during prolonged therapy were closely correlated. Short-term withdrawal of corticosteroids, even after several months of treatment, was followed by an immediate increase in plasma IL-6 concentrations. To identify the cellular source of plasma IL-6, PBMC from treated and untreated patients with PMR or GCA were analyzed for their ability to secrete IL-6 and the T cell-specific cytokine IL-2. Polyclonal T cell stimulation caused a rapid release of IL-6, which was shown to be derived exclusively from CD14+ cells. CONCLUSION: Increased production of IL-6, but not TNF alpha, is a characteristic finding in patients with PMR or GCA. Corticosteroids rapidly suppress IL-6 production but do not correct the underlying mechanism inducing the increased IL-6 production. The close correlation of plasma IL-6 concentrations with clinical symptoms suggests a direct contribution of this cytokine to the disease manifestations and presents the possibility that monitoring IL-6 levels would be useful in making decisions on adjustment of corticosteroid dosage in individual patients.
OBJECTIVE: To explore the role of proinflammatory cytokines in giant cell arteritis (GCA) and polymyalgia rheumatica (PMR), two clinically related syndromes characterized by an intense acute-phase reaction. In particular, to determine plasma concentrations of interleukin-6 (IL-6) and tumor necrosis factor alpha (TNF alpha) and to correlate changes in plasma IL-6 levels with clinical symptoms during corticosteroid therapy. METHODS:IL-6 and TNF alpha concentrations were determined in plasma samples from patients with untreated PMR or GCA, and plasma IL-6 levels were monitored in patients receiving long-term therapy (14 months) with corticosteroids. To identify IL-6-producing cells, the polymerase chain reaction was used to detect IL-6 messenger RNA. In vitro production of IL-6 and IL-2 by peripheral blood mononuclear cells (PBMC) from treated and untreated patients was quantified using IL-6- and IL-2-specific bioassay systems. RESULTS:IL-6 concentrations were increased in PMR and GCA patients, whereas TNF alpha concentrations were similar to those in normal donors. Administration of corticosteroids rapidly reduced the levels of circulating IL-6 but did not correct the underlying mechanism inducing the increased IL-6 production. In individual patients, changes in plasma IL-6 levels and clinical manifestations during prolonged therapy were closely correlated. Short-term withdrawal of corticosteroids, even after several months of treatment, was followed by an immediate increase in plasma IL-6 concentrations. To identify the cellular source of plasma IL-6, PBMC from treated and untreated patients with PMR or GCA were analyzed for their ability to secrete IL-6 and the T cell-specific cytokine IL-2. Polyclonal T cell stimulation caused a rapid release of IL-6, which was shown to be derived exclusively from CD14+ cells. CONCLUSION: Increased production of IL-6, but not TNF alpha, is a characteristic finding in patients with PMR or GCA. Corticosteroids rapidly suppress IL-6 production but do not correct the underlying mechanism inducing the increased IL-6 production. The close correlation of plasma IL-6 concentrations with clinical symptoms suggests a direct contribution of this cytokine to the disease manifestations and presents the possibility that monitoring IL-6 levels would be useful in making decisions on adjustment of corticosteroid dosage in individual patients.