HER2-Selective and Reversible Tyrosine Kinase Inhibitor Tucatinib Potentiates the Activity of T-DM1 in Preclinical Models of HER2-positive Breast Cancer.

The oncogenic receptor HER2 is overexpressed in many cancers, including up to 20% of breast cancers. Despite the availability of HER2-targeted treatments, patients' disease often progresses during therapy, underscoring the need for novel treatment strategies. The addition of tucatinib, a reversible, highly selective HER2 tyrosine kinase inhibitor (TKI), to treatment with trastuzumab and capecitabine significantly improved survival outcomes of patients with HER2-positive metastatic breast cancer, including those with active brain metastases. We rationalized that combining tucatinib with other HER2-targeting agents with complementary mechanisms of action would further increase efficacy against tumors. We characterized the activity of tucatinib with the antibody­drug conjugate T-DM1 in preclinical models of breast cancer, including HER2-positive breast cancer cells and patient-derived xenograft (PDX) models. Mechanistic details on tucatinib activity were obtained in internalization and catabolism studies. In combination, tucatinib and T-DM1 showed an enhanced, often synergistic, cytotoxic response and demonstrated improved antitumor activity in vivo, including in PDX models refractory to T-DM1 single-agent activity. Mechanistically, tucatinib mediated an increase in inactive HER2 molecules at the cell surface through inhibition of HER2 ubiquitination, resulting in increased internalization and catabolism of T-DM1. The combination was correlated with enhanced HER2 pathway inhibition, decreased proliferation, and increased apoptosis. In a xenograft model of brain metastasis, tucatinib penetrated intracranial tumor tissues, inhibiting tumor growth and improving survival. These results suggest that tucatinib may be the optimal TKI partner for HER2-targeted therapies and support clinical studies of its combination with T-DM1, including in patients with brain metastases. SIGNIFICANCE: The preclinical findings in breast cancer models presented here demonstrate that combining tucatinib with T-DM1 enhances the antitumor activity of either agent alone, supporting clinical studies of the combination in HER2-positive breast cancer, including in patients with brain metastases, which remains an important unmet medical need.

SGN-CD228A Is an Investigational CD228-Directed Antibody-Drug Conjugate with Potent Antitumor Activity across a Wide Spectrum of Preclinical Solid Tumor Models.

SGN-CD228A is an investigational antibody-drug conjugate (ADC) directed to melanotransferrin (CD228, MELTF, MFI2, p97), a cell-surface protein first identified in melanoma. SGN-CD228A consists of a humanized antibody, hL49, with high specificity and affinity for CD228 that is stably conjugated to 8 molecules of the clinically validated microtubule-disrupting agent monomethyl auristatin E (MMAE) via a novel glucuronide linker. We performed comprehensive IHC studies, which corroborated published RNA sequencing data and confirmed low CD228 expression in normal tissues and high expression in several cancers, including melanoma, squamous non-small cell lung cancer (NSCLC), triple-negative breast cancer (TNBC), colorectal cancer, and pancreatic cancer. SGN-CD228A was efficiently internalized in various tumor cell types, and its cytotoxic activity was dependent on CD228 expression and internalization and intrinsic sensitivity to the MMAE payload. Compared with the valine-citrulline dipeptide linker, the novel glucuronide linker increased the cellular retention of MMAE in vitro and conferred improved antitumor activity against melanoma cell lines in vitro and in vivo. In addition, SGN-CD228A was active across melanoma, TNBC, and NSCLC cell line- and patient-derived xenograft models with heterogeneous antigen expression. In vivo, CD228 expression was important for response to SGN-CD228A but was not well correlated across all tumor types, suggesting that other factors associated with ADC activity are important. Overall, SGN-CD228A is a CD228-directed, investigational ADC that employs innovative technology and has compelling preclinical antitumor activity. SGN-CD228A is investigated in a Phase I clinical trial (NCT04042480) in patients with advanced solid tumors.