A novel strategy involves combining antibody-drug conjugates (ADCs) with PARP inhibitors. This approach could potentially overcome the need for a germline BRCA mutation, significantly broadening the patient population that could benefit from PARP inhibitor therapy in triple-negative breast cancer.
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Real-world data suggests that using one antibody-drug conjugate (ADC) immediately after another is often ineffective. A potential strategy to overcome this resistance is to administer a different class of chemotherapy before starting the second ADC.
The modest benefit of PARP inhibitors in metastatic breast cancer, compared to ovarian cancer, is likely due to resistance induced by prior exposure to DNA-damaging agents like anthracyclines. This explains the clinical rationale for moving PARP inhibitors to earlier treatment settings, such as neoadjuvant or adjuvant therapy, before resistance develops.
Pathways like integrins have long been of interest but lacked effective therapeutic approaches. The advent of new technologies, such as antibody-drug conjugates and checkpoint inhibitors, has created opportunities to re-explore these older targets with potent, modern drugs, breathing new life into decades-old research.
The development of PARP-1 selective inhibitors like seriparib signals a shift in drug innovation. Instead of only chasing higher efficacy, these new agents aim for a more favorable toxicity profile (less GI toxicity, fewer dose discontinuations) to improve patient quality of life and treatment adherence.
Rather than moving through distinct lines of therapy, a future strategy could involve an "ADC switch." When a patient progresses on an ADC-IO combination, the IO backbone would remain while the ADC is swapped for one with a different, non-cross-resistant mechanism, adapting the treatment in real-time.
Unlike older antibody-drug conjugates (ADCs), newer agents are designed so their chemotherapy payload can diffuse out of the target cell and kill nearby tumor cells that may not even express the target antigen. This "bystander effect" significantly enhances their anti-tumor activity.
The ASCENT-07 trial, while failing its primary endpoint, revealed a promising efficacy signal for its Trop-2 ADC in IHC0 tumors. This finding from a "negative" study directly spurred a new trial, Tropion-Brest-O6, to investigate another ADC specifically in this refined patient population, demonstrating the iterative nature of clinical research.
While immunotherapy was a massive leap forward, Dr. Saav Solanki states the next innovation frontier is combining it with newer modalities. Antibody-drug conjugates (ADCs) and T-cell engagers are being used to recruit the immune system into the tumor microenvironment, helping patients who don't respond to current immunotherapies.
For high-risk, HR+ patients with germline BRCA mutations, data suggest they derive less benefit from CDK4/6 inhibitors. A practical approach is to give one year of the PARP inhibitor olaparib first, followed by a CDK4/6 inhibitor, capitalizing on the delayed initiation allowance in major trials.
Cellcuity's drug is effective in breast cancer patients without PIK3CA mutations (wild type). This challenges the dominant precision medicine model that requires a specific genetic marker, showing that a pathway's aberrant activity can be a sufficient therapeutic target on its own.
