Research ArticleCancer

Selective inhibition of TGFβ1 activation overcomes primary resistance to checkpoint blockade therapy by altering tumor immune landscape

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Science Translational Medicine  25 Mar 2020:
Vol. 12, Issue 536, eaay8456
DOI: 10.1126/scitranslmed.aay8456

This isoform is just right

Cancer immunotherapy, including immune checkpoint blockade, has achieved increasing prominence in recent years. Unfortunately, only a fraction of tumors respond to this treatment. Previous studies have suggested that inhibition of transforming growth factor–β (TGFβ) may help overcome resistance to immune checkpoint blockade, but it proved to be too toxic for clinical use. Martin et al. designed a more specific inhibitor, targeting only one isoform of TGFβ. The authors showed that this isoform, TGFβ1, is the most relevant one to target in tumors, then demonstrated the effectiveness and safety of their inhibitor with immune checkpoint blockade in multiple mouse models of cancer.


Despite breakthroughs achieved with cancer checkpoint blockade therapy (CBT), many patients do not respond to anti–programmed cell death-1 (PD-1) due to primary or acquired resistance. Human tumor profiling and preclinical studies in tumor models have recently uncovered transforming growth factor–β (TGFβ) signaling activity as a potential point of intervention to overcome primary resistance to CBT. However, the development of therapies targeting TGFβ signaling has been hindered by dose-limiting cardiotoxicities, possibly due to nonselective inhibition of multiple TGFβ isoforms. Analysis of mRNA expression data from The Cancer Genome Atlas revealed that TGFΒ1 is the most prevalent TGFβ isoform expressed in many types of human tumors, suggesting that TGFβ1 may be a key contributor to primary CBT resistance. To test whether selective TGFβ1 inhibition is sufficient to overcome CBT resistance, we generated a high-affinity, fully human antibody, SRK-181, that selectively binds to latent TGFβ1 and inhibits its activation. Coadministration of SRK-181-mIgG1 and an anti–PD-1 antibody in mice harboring syngeneic tumors refractory to anti–PD-1 treatment induced profound antitumor responses and survival benefit. Specific targeting of TGFβ1 was also effective in tumors expressing more than one TGFβ isoform. Combined SRK-181-mIgG1 and anti–PD-1 treatment resulted in increased intratumoral CD8+ T cells and decreased immunosuppressive myeloid cells. No cardiac valvulopathy was observed in a 4-week rat toxicology study with SRK-181, suggesting that selectively blocking TGFβ1 activation may avoid dose-limiting toxicities previously observed with pan-TGFβ inhibitors. These results establish a rationale for exploring selective TGFβ1 inhibition to overcome primary resistance to CBT.

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