RESUMO
OBJECTIVES: Loss of tumor-inherent type I interferon (IFN) signalling has been closely linked to accelerated metastatic progression via decreased immunogenicity and antitumor immunity. Previous studies in murine models of triple-negative breast cancer (TNBC) demonstrate that systemic IFN inducers are effective antimetastatic agents, via sustained antitumor CD8+ T-cell responses. Repeated systemic dosing with recombinant IFNs or IFN inducers is associated with significant toxicities; hence, the use of alternate intratumoral agents is an active area of investigation. It is critical to investigate the impact of intratumoral agents on subsequent metastatic spread to predict clinical impact. METHODS: In this study, the local and systemic impact of the intratumoral Toll-like receptor (TLR) 7/8 agonist 3M-052 alone or in combination with anti-PD1 was evaluated in metastatic TNBC models. The IFN-α receptor (IFNAR1) blocking antibody, MAR1-5A3, along with immune-deficient mice and ex vivo assays are utilised to examine the key targets of this agent that are critical for an antimetastatic response. RESULTS: Single intratumoral administration of 3M-052 reduced mammary tumor growth, induced a T-cell-inflamed tumor microenvironment (TME) and reduced metastatic spread to lung. Metastasis suppression was reliant on IFN signalling and an antitumor immune response, in contrast to primary tumor growth inhibition, which was retained in NSG and CD8+ T-cell-depleted mice. 3M-052 action was demonstrated via dendritic cell activation and production of type I IFN and other pro-inflammatory cytokines to initiate a T-cell-inflamed TME and promote tumor cell antigen presentation. CONCLUSION: This work supports neoadjuvant TLR agonist-based immunotherapeutics as realistic options for immune activation in the TME and long-term metastatic protection in TNBC.
RESUMO
Patients diagnosed with triple negative breast cancer (TNBC) have an increased risk of rapid metastasis compared to other subtypes. Predicting long-term survival post-chemotherapy in patients with TNBC is difficult, yet enhanced infiltration of tumor infiltrating lymphocytes (TILs) has been associated with therapeutic response and reduced risk of metastatic relapse. Immune biomarkers that predict the immune state of a tumor and risk of metastatic relapse pre- or mid-neoadjuvant chemotherapy are urgently needed to allow earlier implementation of alternate therapies that may reduce TNBC patient mortality. Utilizing a neoadjuvant chemotherapy trial where TNBC patients had sequential biopsies taken, we demonstrate that measurement of T-cell subsets and effector function, specifically CD45RO expression, throughout chemotherapy predicts risk of metastatic relapse. Furthermore, we identified the tumor inherent interferon regulatory factor IRF9 as a marker of active intratumoral type I and II interferon (IFN) signaling and reduced risk of distant relapse. Functional implications of tumor intrinsic IFN signaling were demonstrated using an immunocompetent mouse model of TNBC, where enhanced type I IFN signaling increased anti-tumor immunity and metastasis-free survival post-chemotherapy. Using two independent adjuvant cohorts we were able to validate loss of IRF9 as a poor prognostic biomarker pre-chemotherapy. Thus, IRF9 expression may offer early insight into TNBC patient prognosis and tumor heat, allowing for identification of patients that are unlikely to respond to chemotherapy alone and could benefit from further immune-based therapeutic intervention.