An expert argues the path to curing metastatic cancer may mirror pediatric ALL's history: combining all highly active drugs upfront. Instead of sequencing treatments after failure, the focus should be on powerful initial regimens that eradicate cancer, even if it means higher initial toxicity.

The technology and breadth of molecular testing panels for GIST are rapidly evolving. A patient whose tumor tested negative for driver mutations in the past should be considered for re-testing with current, broader panels. This may uncover previously undetectable alterations like FGFR translocations and open up new treatment options.

An individual tumor can have hundreds of unique mutations, making it impossible to predict treatment response from a single genetic marker. This molecular chaos necessitates functional tests that measure a drug's actual effect on the patient's cells to determine the best therapy.

When GIST progresses on therapy like imatinib, resistance is often heterogeneous. Different metastatic sites within the same patient can develop distinct secondary resistance mutations (e.g., an exon 13 mutation in the liver and an exon 17 in the peritoneum). This complicates subsequent treatment selection and underscores the value of comprehensive testing like ctDNA.

Actuate employed a master protocol that tested their drug alongside eight different standard-of-care chemotherapies in patients who had already failed them. This design efficiently demonstrated the drug's ability to reverse chemo-resistance across multiple histologies, informing their Phase 2 strategy.

Despite mutation testing being a critical first step for effective treatment planning in gastrointestinal stromal tumors (GIST), a significant number of patients in the United States still do not receive this essential diagnostic. This highlights a major gap between established best practices and real-world clinical application.

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.

The standard of care for GIST is evolving to mandate molecular testing at two key points: initial diagnosis and at the time of progression on first-line therapy. Using ctDNA at progression is now deemed critical to identify acquired resistance mechanisms, which directly informs the selection of subsequent, more effective therapies and avoids ineffective treatments.

A key strategy for Iterion is combining its Wnt-beta-catenin inhibitor with existing therapies like EGFR-TKIs. Research shows the Wnt pathway is often upregulated as a resistance mechanism to these primary treatments. By blocking this escape route, the combination therapy aims to prevent resistance and improve patient outcomes.