Development and validation of an enzyme-linked immunosorbent assay for the quantification of trastuzumab in human serum and plasma.

Trastuzumab, a humanized monoclonal antibody, is used for the treatment of breast cancer patients who overexpress the HER2 receptor. To optimize therapy, pharmacokinetic studies are necessary. The aim of this study was to develop an enzyme-linked immunosorbent assay (ELISA) for trastuzumab to support these pharmacokinetic studies. For this immunoassay, we raised anti-idiotype antibodies in rabbits. After purification of the rabbit material, the anti-idiotype antibodies are used as capturing antibodies on the ELISA plate. After trastuzumab has bound to the catcher antibody, a sandwich ELISA procedure is followed whereby biotinylated anti-idiotype antibodies can bind to trastuzumab. Detection is performed by streptavidin-polyHRP (poly-horseradish peroxidase) conjugate and (3,5,3',5')-tetramethylbenzidine (TMB) substrate. The reaction is stopped using sulfuric acid, and the absorbance is measured at 450 nm. The calibration range of the assay is 0.039 to 5 ng/ml in well. Because samples are analyzed in multiple dilutions, the validated range corresponds to 1.6 to 1600 ng/ml in undiluted serum. Samples above the upper limit of quantification (ULOQ) can be diluted before transfer to the assay plates. Validation results demonstrate that trastuzumab can be accurately and precisely quantified in human serum and plasma. The assay is now used to support pharmacokinetic studies with trastuzumab in human serum and plasma.

Cytokine induction by pyrogens: comparison of whole blood, mononuclear cells, and TLR-transfectants.

Given the shortcomings in the measurement of pyrogenic contamination of pharmaceuticals and/or test substances by means of the rabbit pyrogen test and the Limulus amoebocyte lysate (LAL) test, several in vitro pyrogen tests have been developed based on the measurement of cytokine production by monocytes. In this study we measured cytokine production (IL-6, IL-8, IL-1beta, and TNF) in diluted whole blood (WB), mononuclear cells (MNC), and HEK cells stably transfected with CD14 and Toll-like Receptor-2 (TLR2) or TLR4, after stimulation with both standard pyrogens and contaminated substances. Our study demonstrated that in MNC, IL-6 production was more sensitive to pyrogen stimulation than IL-1beta and TNF production. The sensitivity of WB IL-8 production for pyrogens was comparable with that of MNC IL-6 production, but higher than WB IL-6 production. MNC IL-8 production as readout for pyrogenic stimulation was not useful due to high background IL-8 production. Surprisingly, contaminated culture media potently stimulated WB IL-8 production, but not MNC IL-6 production. Finally, the value of TLR-transfected HEK cells in the detection of pyrogenic contamination as well as the role of IL-10 in interindividual differences in cytokine production, is discussed. To summarize, the results presented herein together with literature data indicate that the measurement of WB IL-8 production may represent an advantageous alternative to the measurement of MNC IL-6 production, for the detection of pyrogenic contamination of pharmaceuticals.

Potentiation of Toll-like receptor-induced cytokine production by (1-->3)-beta-D-glucans: implications for the monocyte activation test.

The monocyte activation test (MAT) has been introduced as an alternative for the detection of pyrogens in pharmaceuticals with the rabbit pyrogen test or the Limulus amebocyte lysate (LAL) test. The basis of the MAT is that pyrogens, via Toll-like receptors (TLRs) expressed on monocytes, stimulate cytokine production. Here, we report that, at concentrations that did not induce whole blood cytokine production when tested separately, (1-->3)-beta-D-glucans powerfully co-stimulated cytokine production (IL-6/IL-8) induced by ligands for TLR1/2, TLR2/6, TLR4, and TLR5. Experiments were performed to investigate the involvement of particular (1-->3)-beta-D-glucan receptors such as dectin-1. Spleen tyrosine kinase (Syk) inhibition attenuated the potentiating effects of (1-->3)-beta-D-glucans on TLR-induced cytokine production, suggesting that dectin-1 was involved. However, experiments with low molecular (1-->3)-beta-D-glucans such as laminarin argued against the involvement of dectin-1 in the co-stimulatory effects of (1-->3)-beta-D-glucans. Thus, although the receptors involved in the co-stimulatory actions of (1-->3)-beta-D-glucans on TLR-induced cytokine production are yet to be elucidated, it is clear that (1-->3)-beta-D-glucans may greatly affect MAT results and, when undetected in pharmaceuticals, may give rise to serious side-effects in patients co-exposed to other elicitors of innate immunity, such as during infections.

4-Hydroxy-oxyphenbutazone is a potent inhibitor of cytokine production.

4-Hydroxy-oxyphenbutazone (4OH-OPB), is currently in phase II trials for its immunosuppressive effect in patients with rheumatoid arthritis. 4OH-OPB and other compounds related to phenylbutazone were tested for their effect on in vitro cytokine production by monocytes and lymphocytes present in peripheral mononuclear cells (PBMC) or whole blood (WB) cultures, and compared against phenylbutazone and oxyphenbutazone, two known anti-inflammatory drugs. In PBMC cultures, 4OH-OPB was by far the most potent inhibitor, and both monokines and Th1 and Th2 lymphokines were efficiently inhibited at low concentrations. In WB cultures, 4OH-OPB was less effective than in PBMC cultures, but was still the best inhibitor of lymphokine production and, furthermore, was the only inhibitor of monokine production. The increase in 4OH-OPB concentration needed to induce the same inhibition of cytokine production in WB as in PBMC culture could be mimicked by the addition of erythrocytes to the PBMC cultures. Experiments with radioactively-labeled 4OH-OPB suggest that 4OH-OPB is taken up very rapidly into erythrocytes and is secreted by the erythrocytes with much slower kinetics via a multidrug-resistance-associated protein. The secreted compound is most likely structurally different from 4OH-OPB, as in PBMC and WB cultures, the inhibition of cytokine production seems to be caused by a different mechanism. In PBMC cultures, the inhibition of cytokine production is accompanied by a loss of cell viability, while this is not the case when 4OH-OPB inhibits cytokine production in WB. Our data suggest that 4OH-OPB may be useful as an immunosuppressive drug for patients with inflammatory diseases.

Mycophenolic acid and methotrexate inhibit lymphocyte cytokine production via different mechanisms.

Mycophenolic acid (MPA) and methotrexate (MTX) are immunosuppressive drugs used for the treatment of various immunological disorders. MPA is an inhibitor of inosine monophosphate dehydrogenase and MTX is a folate antagonist that inhibits tetrahydrofolate reductase. Production of T cell cytokines in whole blood cultures, as well as in PBMC cultures, is inhibited by a low concentration of both drugs. Inhibition of cytokine production after monocyte stimulation was less evident. The mechanism by which inhibition is achieved is different for both drugs. Inhibition of T cell cytokine production by MPA was more profound and started earlier compared to the inhibition by MTX. MTX induced apoptosis in T cells that became activated, whereas MPA prevented activation of T cells by arresting the cell cycle in the G0/G1 phase. Addition of guanosine and adenosine can overcome this cell cycle arrest, even after several days. Furthermore MPA inhibited the expression of activation markers HLA-DR and CD71 on T cells. The observation that MTX cannot prevent T cell activation but induces apoptosis in activated T cells, and that MPA reversibly prevents activation of T cells could explain the immunosuppressive effects of both these drugs.

Differential effect of drug interference in immunogenicity assays.

The presence of anti-drug antibodies (ADA) in adalimumab-treated patients is associated with reduced serum adalimumab levels and a lower clinical response. Currently, there is no standard for measurement of anti-drug antibodies and many factors influence the results. Consequently, the incidence of ADA as reported in different studies varies considerably. Here we investigated the differential effect of drug interference in two common types of assays used to measure anti-adalimumab: an antigen binding test (ABT) and a more often-used bridging elisa. We measured ADA to adalimumab in a cohort of 216 rheumatoid arthritis patients treated with adalimumab for 28 weeks. Only 15 samples (7%) were positive in the bridging elisa, compared to 29 (13%) in the ABT, despite the fact that the bridging elisa was the most sensitive assay. Furthermore, in an ABT specific for IgG4, 48 samples (22%) were found positive. The bridging elisa was found to detect only the bivalent form of (drug-specific) IgG4, resulting in an underestimation of ADA levels. However, the predominant reason for the different outcomes of these assays was a differential susceptibility to drug interference. In particular, the bridging elisa only detected ADA in the absence of detectable amounts of circulating adalimumab and is therefore not suited for measurement of ADA in complex with the drug. In summary, we showed that a bridging elisa is susceptible to drug interference and typically measures ADA only in absence of detectable drug levels.

Changes of ferritin and CRP levels in melanoma patients treated with adjuvant interferon-α (EORTC 18952) and prognostic value on treatment outcome.

Adjuvant therapy with interferon-α (IFN) only benefits a small subgroup of melanoma patients and a predictive marker selecting responders does not exist. IFN induces increased ferritin and decreased C-reactive protein (CRP) levels; however, an association with treatment effect was not studied. Serum was collected from patients participating in the European Organization for Research and Treatment of Cancer 18 952 trial comparing adjuvant treatment with IFN to observation. Serial ferritin and CRP levels were determined using enzyme-linked immunosorbent assays, before treatment and up to 24 months. Ferritin levels are influenced by sex and age; therefore ratios of serial ferritin and CRP values with corresponding pretreatment values were calculated. Cox regression model and landmark method at end of induction and 6 months were used to evaluate the association between ferritin, CRP and distant metastasis-free survival (DMFS). Baseline ferritin levels were comparable in the two treatment groups (P=0.92). However, ferritin ratios were significantly higher in IFN-treated patients (N=96) compared with untreated patients (N=21) at end of induction (mean: 2.88 vs. 0.75; P=0.0003) and at 6 months (mean: 3.18 vs. 1.02; P=0.009). In the IFN arm, higher ferritin ratios at end of induction and at 6 months were not associated with improved outcome (respectively, P=0.66 and 0.86). Concerning CRP ratios, no differences between the treatment groups, neither an association with DMFS, were observed. Administration of IFN in melanoma patients induced increase in ferritin levels but not in CRP levels. Ferritin and CRP ratios have no prognostic value regarding DMFS.

C-reactive protein elicits white blood cell activation in humans.

OBJECTIVE: Consistent epidemiologic evidence suggests that acute infections increase the risk for acute cardiovascular events. We tested in humans whether activation of peripheral leukocytes in reaction to the administration of recombinant human C-reactive protein (rhCRP) may provide a mechanism for infectious diseases to promote atherosclerotic disease. METHODS AND RESULTS: By using quantitative real-time polymerase chain reaction analysis, whole-blood expression profiles were analyzed for 95 inflammatory markers before and after infusion of 1.25 mg/kg rhCRP in 5 male volunteers. Relevant transcript levels were measured at baseline and 4 and 8 hours after rhCRP-infusion. CRP caused significant up-regulation of matrix metalloproteinase (MMP)-9, monocyte chemoattractant protein (MCP)-1, plasminogen activator urokinase, macrophage inflammatory protein 1 alpha, and nuclear factor of kappa B inhibitor mRNAs in peripheral leukocytes. mRNA up-regulation of MMP-9 and MCP-1 was 17- and 11-fold, respectively. The corresponding increase in plasma protein levels of MMP-9 (78+/-32 ng/mL to 109+/-41 ng/mL; P=.014) and MCP-1 (312+/-92 pg/mL to 2590+/-898 pg/mL; P=.007) closely mirrored mRNA findings. Also, in whole-blood culture stimulation assays, CRP induced proinflammatory changes. Notably, heat inactivation abolished the capacity of CRP to evoke these proinflammatory changes, excluding a role for contaminants within the purified CRP preparation. CONCLUSION: CRP elicits activation of peripheral leukocytes with ensuing secretion of plaque-destabilizing mediators. These findings are consistent with the hypothesis that infectious diseases trigger manifestations of atherosclerosis, in which CRP elevation might contribute to the onset of cardiovascular events.