Anti-CD3 antibodies OKT3 and hOKT3gamma1(Ala-Ala) induce proliferation of T cells but impair expansion of alloreactive T cells; aspecifc T cell proliferation induced by anti-CD3 antibodies correlates with impaired expansion of alloreactive T cells

Modulation of the human T cell response by a novel non-mitogenic anti-CD3 antibody

The agonistic anti-human CD3ε antibody (Ab), OKT3, has been used to control acute transplant rejection. The in vivo administration of OKT3 was previously shown to induce the partial depletion of T cells and unresponsiveness (anergy) in the remaining CD4⁺ T cells. However, this therapy is also associated with the systemic release of several cytokines, which leads to a series of adverse side effects. We established a novel anti-human CD3ε Ab, 20-2b2, which recognized a close, but different determinant on the CD3ε molecule from that recognized by OKT3. 20-2b2 was non-mitogenic for human CD4⁺ T cells, could inhibit the activation of T cells in vitro, and induced T cell anergy in in vivo experiments using humanized mice. Cytokine release in humanized mice induced by the administration of 20-2b2 was significantly less than that induced by OKT3. Our results indicated that the CD3ε molecule is still an attractive, effective, and useful target for the modulation of T cell responses. The establishment of other Abs that recognize CD3ε, even though the determinant recognized by those Abs may be close to or different from that recognized by OKT3, may represent a novel approach for the development of safer Ab therapies using anti-CD3 Abs, in addition to the modification of OKT3 in terms of the induction of cytokine production.

A humanised mouse model of cytokine release: comparison of CD3-specific antibody fragments

CD3-specific antibodies have shown clinical efficacy in both transplantation and autoimmunity. However, targeting CD3 in this way can lead to T-cell activation and a serious cytokine release syndrome mediated by Fcγ receptor binding. An in vivo mouse model has been developed using severe combined immunodeficient (SCID) mice to detect human T-cell depletion and cytokine release into the circulation after administration of OKT3. This system has been used to evaluate OKT3 antibody fragments lacking the entire Fc region alongside whole antibody constructs. These data clearly show that cytokine release is detected with all OKT3 antibody constructs and fragments tested and these can be ranked from highest to lowest as follows: mIgG2a>hIgG1 (Ala-Ala)>hIgG1 diFab' maleimide (DFM)>hIgG1 F(ab')₂>mIgG2a F(ab')₂>hIgG1 Fab'. Furthermore, the monovalent hIgG1 Fab' fragment gives the least cytokine release but it does not deplete human T-cells in this assay format. This suggests that T-cell activation may be playing a role in the mechanism of action of anti-CD3 antibodies and consequently the unwanted cytokine release is potentially unavoidable for this class of molecules. This model system provides a useful tool to aid in understanding and reducing the potential risks of cytokine release following antibody therapy.

Development and validation of an antibody-dependent cell-mediated cytotoxicity-reporter gene assay

Humanized monoclonal antibodies (mAbs) are the fastest growing class of biological therapeutics that are being developed for various medical indications, and more than 30 mAbs are already approved and in the market place. Antibody-dependent cell-mediated cytotoxicity (ADCC) is an important biological function attributed to the mechanism of action of several therapeutic antibodies, particularly oncology targeting mAbs. The ADCC assay is a complicated and highly variable assay. Thus, the use of an ADCC assay as a lot release test or a stability test for clinical trial batches of mAbs has been a substantial challenge to install in quality control laboratories. We describe here the development and validation of an alternate approach, an ADCC-reporter gene assay that is based on the key attributes of the PBMC-based ADCC assay. We tested the biological relevance of this assay using an anti-CD20 based model and demonstrated that this ADCC-reporter assay correlated well with standard ADCC assays when induced with the drugable human isotypes [IgG1, IgG2, IgG4, IgG4S > P (S228P) and IgG4PAA (S228P, F234A, L235A)] and with IgG1 isotype variants with varying amounts of fucosylation. This data demonstrates that the ADCC-reporter gene assay has performance characteristics (accuracy, precision and robustness) to be used not only as a potency assay for lot release and stability testing for antibody therapeutics, but also as a key assay for the characterization and process development of therapeutic molecules.

Blood stage Plasmodium falciparum antigens induce T cell independent immunoglobulin production via B cell activation factor of the TNF family (BAFF) pathway

T independent (TI) antigens (Ags) activate monocytes to produce a cytokine, termed B cell activation factor (BAFF), involved in immunoglobulin (Ig) production. This study aimed to investigate whether the soluble schizont fraction of Plasmodium falciparum antigen (sPfAg) and hemozoin (HZ) could act as TI Ag to induce P. falciparum (Pf) specific Ig production via BAFF pathway. Co-cultures of monocytes and naïve B cells from 6 healthy donors were stimulated with sPfAg (10mg/ml) or HZ (10μM). At interval times, the expressions of BAFF on activated monocytes, BAFF receptor (BAFF-R) and proliferation nuclear Ag in activated B cells were determined by flow cytometry. The soluble BAFF (sBAFF), total and specific IgG levels in the supernatants were assessed by enzyme-linked immunosorbent assay (ELISA). The finding revealed both sPfAg and HZ could activate monocytes to express BAFF on surface and release sBAFF in the supernatant within 72h of stimulation. The B cells responded to specific activation, indicated by BAFF-R expression on the surface within 72h, marked proliferation on day 7, and final production of total and specific IgG during days 7-12. Comparing to sPfAg, HZ stimulated monocyte and B cell co-culture to express higher levels of BAFF and sBAFF during 24-48h, more BAFF-R on HZ activated B cells within 24h and induced marked proliferation of B cells with higher Pf specific IgG level. However, stimulation with sPfAg showed a more significant correlation between BAFF expression on the activated monocytes at 72h and the Pf specific IgG level on day 12 (r=0.961, p=0.039, Pearson Correlation). In conclusion, it is possible that both sPfAg and HZ stimulated B cells to produce specific IgG with BAFF involvement.

Effect of HMG-CoA reductase inhibitors on activation of human gammadeltaT cells induced by Mycobacterium tuberculosis antigens

Lipid rafts are cholesterol-enriched microdomains which act as a platform for the initiation of T-cell activation. To investigate effect of endogenous cholesterol on lipid rafts formation and activation of gammadeltaT cells, human peripheral blood mononuclear cells were stimulated in vitro with Mycobacterium tuberculosis antigens (Mtb-Ag). Lovastatin and fluvastatin, two 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase (HMGCR) inhibitors, were used to block endogenous cholesterol biosynthesis. The expression of ganglioside GM1 (GM1), a lipid rafts marker, and CD69, an activation marker, and the level of tyrosine phosphorylation in gammadeltaT cells were measured by flow cytometry. The expression and aggregation of GM1 were also detected with laser confocal microscopy. We found that lovastatin and fluvastatin could obviously inhibit tyrosine phosphorylation and expression of GM1 and CD69 in gammadeltaT cells induced by Mtb-Ag. These results collectively indicated that HMGCR inhibitors might interfere with the formation of lipid rafts and inhibit the activation of gammadeltaT cells induced by Mtb-Ag.

Tracking cell proliferation using the far red fluorescent dye SNARF-1

BACKGROUND

The [(3)H]thymidine incorporation assay and staining of living cells with fluorescent dyes like carboxyfluorescein diacetate, succinimidyl ester (CFSE) have evolved as valuable methods for studying T cell responses. To assess proliferation of cells already labeled by FITC, CFSE, GFP, or other "green" molecules or to simultaneously track two otherwise indistinguishable cell populations in mixed cell cultures, it would be desirable to have a dye with distinct fluorescent properties for this application.

METHODS

We analyzed the dilution of the far red fluorescent dye SNARF-1 in proliferating cells by flow cytometric analysis. The results were compared with the CFSE dilution technique as well as the [(3)H]thymidine incorporation assay.

RESULTS

Staining of primary human lymphocytes revealed that SNARF-1 labeling was equivalent to CFSE for estimating proportions of proliferating cells in stimulated cell cultures and yielded results comparable to [(3)H]thymidine incorporation. We showed that SNARF-1 offers the possibility to simultaneously analyze the proliferation of phenotypically indistinguishable subsets of hematopoietic cells and can also be used to track uniformly proliferating, non hematopoietic cells like HEK293.

CONCLUSIONS

In summary, we have demonstrated that labeling of cells with SNARF-1 allows for estimating cell proliferation of cells of hematopoietic and non-hematopoietic origin.

Modulation of antigen-specific T cell response by a non-mitogenic anti-CD3 antibody

Suppression of T cell response is the key to enhance graft survival and control autoimmune diseases. A mitogenic anti-CD3 monoclonal antibody (mAb), OKT3, has been used for decades to control acute rejection in organ transplantation. Although effective, the clinical use was limited by its side effects, such as cytokine release mediated by T cell activation. A low mitogenic humanized OKT3 with reduced FcR-binding (hgammaOKT3 Ala-Ala) was generated and tested in several clinical studies. Although hgammaOKT3 Ala-Ala demonstrated maintained efficacy and better safety it still activated T cells. To investigate if a non-mitogenic anti-CD3 mAb can be equally effective in immune suppression, a chimeric non-FcR-binding anti-mouse CD3 mAb (anti-CD3 IgG2a Ala-Ala) was generated. Unlike the hgammaOKT3 Ala-Ala, the mouse IgG2a Ala-Ala anti-CD3 mAb did not induce T cell activation as measured by proliferation, cytokine production and apoptosis. Nevertheless, the IgG2a Ala-Ala anti-CD3 mAb was equally effective in the inhibition of antigen-specific CD4+ T cell activation in vitro to that of the mitogenic anti-CD3 mAb (Anti-CD3 IgG2a). In vivo, the IgG2a Ala-Ala anti-CD3 mAb only induced transient reduction of peripheral and spleen T cells and did not trigger detectable cytokine release. Nonetheless, this non-mitogenic anti-CD3 mAb significantly prolonged islet graft survival as effectively as the mitogenic anti-CD3 mAb in an allogenic islet transplantation model. These results demonstrated that a non-mitogenic anti-CD3 mAb could be used as an effective immune modulator. It may also indicate that a true non-mitogenic version of OKT3 could further improve its safety profile for clinical use.