A CD6-targeted antibody-drug conjugate as a potential therapy for T cell–mediated disorders
Lingjun Zhang, Liping Luo, Jin Y. Chen, Rupesh Singh, William M. Baldwin III, David A. Fox, Daniel J. Lindner, Daniel F. Martin, Rachel R. Caspi, Feng Lin
Lingjun Zhang, Liping Luo, Jin Y. Chen, Rupesh Singh, William M. Baldwin III, David A. Fox, Daniel J. Lindner, Daniel F. Martin, Rachel R. Caspi, Feng Lin
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Research Article

A CD6-targeted antibody-drug conjugate as a potential therapy for T cell–mediated disorders

Abstract

The selective targeting of pathogenic T cells is a holy grail in the development of new therapeutics for T cell–mediated disorders, including many autoimmune diseases and graft versus host disease. We describe the development of a CD6-targeted antibody-drug conjugate (CD6-ADC) by conjugating an inactive form of monomethyl auristatin E (MMAE), a potent mitotic toxin, onto a mAb against CD6, an established T cell surface marker. Even though CD6 is present on all T cells, only the activated (pathogenic) T cells vigorously divide and thus are susceptible to the antimitotic MMAE-mediated killing via the CD6-ADC. We found CD6-ADC selectively killed activated proliferating human T cells and antigen-specific mouse T cells in vitro. Furthermore, in vivo, whereas the CD6-ADC had no significant detrimental effect on normal T cells in naive CD6-humanized mice, the same dose of CD6-ADC, but not the controls, efficiently treated 2 preclinical models of autoimmune uveitis and a model of graft versus host disease. These results provide evidence suggesting that CD6-ADC could be further developed as a potential therapeutic agent for the selective elimination of pathogenic T cells and treatment of many T cell–mediated disorders.

Authors

Lingjun Zhang, Liping Luo, Jin Y. Chen, Rupesh Singh, William M. Baldwin III, David A. Fox, Daniel J. Lindner, Daniel F. Martin, Rachel R. Caspi, Feng Lin

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Figure 4

CD6-ADC treatments attenuate retinal inflammation in an active model of EAU.

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CD6-ADC treatments attenuate retinal inflammation in an active model of ...
CD6-humanized mice were immunized with IRBP peptide to induce EAU. Six days after immunization when signs of uveitis were identified, the mice were treated with the same dose of CD6-ADC or mIgG-ADC (0.5 mg/kg) every 3 days, and the development of uveitis was monitored daily by indirect ophthalmoscopy. Mice with CD6-ADC treatments exhibited significantly reduced clinical scores compared with mice with IgG-ADC treatments (A). Representative histopathological images of the retinas of the CD6-ADC–treated and mock-treated mice on day 20 (B) and the histopathological scores (C). n = 6 for mIgG-ADC group and n = 7 for CD6-ADC group. Representative images of confocal scanning laser ophthalmoscope (cSLO) and spectral-domain optical coherence tomography (SD-OCT) in the CD6-ADC–treated and mock-treated mice on day 14 after immunization, which showed significant numbers of uveitis features and infiltrating cells adjacent to retinal vessels (white dashed oval) and in the vitreous chamber (VC), retinal lesions (red circle), and folds (stars) in the mock-treated but not the CD6-ADC–treated mice (D). Quantification of hyperreflective particles in the VC (E). n = 6 eyes per group. Data represent mean ± SEM. *P < 0.05. Two-way ANOVA and Bonferroni’s multiple-comparison test for clinical scores. Two-tailed t test for histological scores and the image quantification.