A Co-culture Cell-Based Reporter Assay for Quantitative Measurement of Integrin αvβ8-Mediated Activation of Latent TGF-β1

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A Co-culture Cell-Based Reporter Assay for Quantitative Measurement of Integrin αvβ8-Mediated Activation of Latent TGF-β1

Authors

Zhang, J.; Thai, M.; Masureel, M.; Chiu, C.; Lin, W.; Tyagi, T.; Castiglioni, A.; Seshasayee, D.; Loyet, K.

Abstract

Integrin v{beta}8 is a major activator of latent transforming growth factor-{beta} (TGF-{beta}) and an emerging therapeutic target in cancer and immune regulation. However, functional assays that directly measure v{beta}8-mediated activation of latent TGF-{beta} in a physiologically relevant context remain limited. Here, we report a co-culture cell-based reporter assay for quantitative measurement of v{beta}8-mediated activation of latent TGF-{beta}1. NIH/3T3 reporter cells were engineered to express a SMAD-responsive NanoLuc reporter, constitutive firefly luciferase for internal normalization, and cell-surface GARP-latent TGF-{beta}1. When co-cultured with v{beta}8-expressing LN-229 cells, reporter cells produced a robust signal that directly reflected localized latent TGF-{beta}1 activation. The assay demonstrated stable expression of the required biological components, reproducible signal-to-background performance, and sensitivity to benchmark v{beta}8-blocking antibodies. Inhibition studies showed potent dose-dependent blockade by an anti-v{beta}8 antibody. In contrast, pan-TGF-{beta} neutralizing antibody displayed markedly weaker apparent potency, suggesting that targeting localized v{beta}8-mediated activation is more effective than neutralizing released TGF-{beta} in this assay context. The assay also enabled screening and ranking of anti-v{beta}8 antibodies, identifying several high-potency clones, and detected v{beta}8-mediated activation of a non-cleavable latent TGF-{beta}1 mutant. This platform provides a sensitive, internally normalized, and scalable approach for mechanistic studies and therapeutic discovery targeting the v{beta}8-TGF-{beta} axis.

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