Objective. To determine the role of interleukin-1 receptor antagonist (IL-1Ra) in rat adjuvant arthritis and rat type II collagen-induced arthritis, and to compare the efficacy in rat models with that seen in human clinical trials of IL-1Ra.Methods. Rats with developing adjuvant arthritis or established collagen-induced arthritis were treated with IL-1Ra by continuous infusion in order to determine and maintain efficacious blood levels of this IL-1 inhibitory protein in the rats for comparison with human clinical data. The effects of treatment in the rats were monitored by sequential caliper measurement of the ankle joints, determination of final paw weights, and histologic evaluation with particular emphasis on bone and cartilage lesions. The effects of IL-1Ra on joint swelling and radiographic bone damage in patients with rheumatoid arthritis (RA) in a 6-month trial were compared with the findings in rats.Results. Dramatic differences in the profile of IL-1Ra activity were seen between the 2 groups of rats. Modest antiinflammatory effects were observed in the adjuvant arthritis rats treated with IL-1Ra. However, marked inhibition of bone resorption occurred, even at doses with which antiinflammatory activity was not seen. In contrast, IL-1Ra treatment of rats with established collagen-induced arthritis resulted in nearly complete suppression of all aspects of the disease when adequate blood levels of IL-1Ra were maintained. Treatment of RA patients with IL-1Ra (150 mg daily) resulted in modest inhibition of joint swelling and inhibition of radiographic progression of bone lesions.Conclusion. IL-1 appears to be of major importance in mediating the bone resorption that occurs in rat adjuvant arthritis, but is less important in the pathogenesis of periarticular inflammation in this disease. In contrast, IL-1 is of major importance in mediating all aspects of disease progression in rat collageninduced arthritis. Similar to the response in adjuvant arthritic rats, RA patients treated with IL-1Ra showed only modest antiinflammatory activity, but had evidence of inhibition of progression of bone resorption. However, a comparison of the plasma levels of IL-1Ra in humans and rats suggests that the optimal level of dosing for continuous saturation of IL-1 receptors may not have been achieved in humans, although this was achieved in the rat studies.
Recombinant interferon alpha-2 (IFN-alpha2) is used clinically to treat a variety of viral diseases and cancers. IFN-alpha2 has a short circulating half-life, which necessitates frequent administration to patients. Previous studies showed that it is possible to extend the circulating half-life of IFN-alpha2 by modifying lysine residues of the protein with amine-reactive poly(ethylene glycol) (PEG) reagents. However, amine-PEGylated IFN-alpha2 comprises a heterogeneous product mixture with low specific activity due to the large number and critical locations of lysine residues in IFN-alpha2. In an effort to overcome these problems we determined the feasibility of creating site-specific, mono-PEGylated IFN-alpha2 analogues by introducing a free (unpaired) cysteine residue into the protein, followed by modification of the added cysteine residue with a maleimide-PEG reagent. IFN-alpha2 cysteine analogues were expressed in Escherichia coli and purified, and their in vitro bioactivities were measured in the human Daudi cell line growth inhibition assay. Several cysteine analogues were identified that do not significantly affect in vitro biological activity of IFN-alpha2. Certain of the cysteine analogues, but not wild-type IFN-alpha2, reacted with maleimide-PEG to produce mono-PEGylated proteins. The PEG-Q5C analogue retained high in vitro bioactivity (within 3- to 4-fold of wild-type IFN-alpha2) even when modified with 20- and 40-kDa PEGs. Pharmacokinetic experiments indicated that the 20-kDa PEG-Q5C and 40-kDa PEG-Q5C proteins have 20-fold and 40-fold longer half-lives, respectively, than IFN-alpha2 following subcutaneous administration to rats. These studies demonstrate the feasibility of using site-specific PEGylation technology to create a long-acting, mono-PEGylated IFN-alpha2 protein with high specific activity.
Objective To determine the potential for additive or synergistic effects of combination therapy with the recombinant anticytokine agents interleukin‐1 receptor antagonist (IL‐1Ra) and PEGylated soluble tumor necrosis factor receptor type I (PEG sTNFRI) in established type II collagen–induced arthritis (CIA) and developing adjuvant‐induced arthritis (AIA) in rats. Methods Rats with established CIA or developing AIA were treated with various doses of IL‐1Ra in a slow‐release hyaluronic acid vehicle or with PEG sTNFRI, either alone or in combination with the IL‐1Ra. The effects of treatment were monitored by sequential caliper measurements of the ankle joints or hind paw volumes, final paw weights, and histologic evaluation with particular emphasis on bone and cartilage lesions. Results Combination therapy with IL‐1Ra and PEG sTNFRI in rats with CIA resulted in an additive effect on clinical and histologic parameters when moderately to highly efficacious doses of each protein were administered. Greater‐than‐additive effects were seen when an inactive dose of IL‐1Ra was given in combination with moderately to minimally active doses of PEG sTNFRI. Plasma levels associated with the latter effect (for both proteins) were similar to those seen in rheumatoid arthritis (RA) patients in clinical trials with these agents. Combination therapy in the AIA model generally resulted in additive effects, but some parameters showed a greater‐than‐additive benefit. Conclusion The results provide preclinical support for the hypothesis that IL‐1Ra administered in combination with PEG sTNFRI might provide substantially more clinical benefit to RA patients than either agent alone at blood levels that are currently achievable in patients.
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