The success of the KEYNOTE-B96 trial highlights weekly paclitaxel as a uniquely effective partner for immunotherapy in platinum-resistant ovarian cancer. Its metronomic dosing modulates the tumor microenvironment, enhances immunogenicity, and reduces immunosuppression, making it superior to other chemotherapies in this combination.
The novel drug relacorilant overcomes taxane resistance in ovarian cancer by targeting glucocorticoid receptors. It blocks stress-induced steroid signaling that promotes anti-apoptotic proteins, effectively re-sensitizing tumors to chemotherapy. This represents a completely new mechanism of action for this patient population.
Early clinical trial data suggests that topoisomerase-1 payload ADCs retain efficacy in patients previously treated with mirvetuximab. Because mirvetuximab has a different cytotoxic payload, this indicates that targeting the same receptor (FR-alpha) with a different type of toxin is a viable sequencing strategy.
The term "platinum-resistant" is being replaced by "platinum-ineligible" because the traditional 6-month relapse cutoff is an arbitrary and poor predictor of treatment response. The new term more accurately identifies patients who progress during or immediately after platinum therapy, acknowledging that others may still benefit.
After a decade with no new therapies improving survival, the landscape for platinum-resistant ovarian cancer is transforming. The recent successes of mirvetuximab, the pembrolizumab/paclitaxel combo, and relacorilant/nab-paclitaxel have all demonstrated statistically significant overall survival benefits, heralding a new era of effective options.
Experts are cautious about using ADCs as long-term frontline maintenance therapy in ovarian cancer. Unlike oral PARPs, prolonged administration of these potent chemotherapies could cause cumulative toxicities, especially bone marrow suppression, potentially rendering patients unable to tolerate essential treatments upon relapse.
Most new antibody-drug conjugates (ADCs) for ovarian cancer use the same topoisomerase-1 (Topo1) inhibitor payload. This similarity will likely prevent their sequential use due to cross-resistance, forcing clinicians into a "one-shot" scenario where they must choose the single best Topo1-based ADC upfront for a patient.
Similar to findings in small cell lung cancer, immunotherapy combinations in advanced ovarian cancer may create a "tail on the curve." Even if median survival benefit is modest, data shows the survival curves remain separated long-term, suggesting a small but significant subset of patients achieves durable survival of 3-5 years.