The INOVO-123 trial strategically investigates a PI3K inhibitor-based triplet therapy for endocrine-sensitive, PIK3CA-mutated breast cancer. This moves beyond its current approval in the endocrine-resistant setting, aiming to establish its efficacy for patients with de novo metastatic disease or as a first-line treatment, thereby widening its use much earlier in the patient journey.
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The innovation landscape for ER-positive metastatic breast cancer follows three parallel themes: 1) Developing superior endocrine agents like oral SERDs, 2) Advancing combination therapies with novel inhibitors (PI3K, mTOR, AKT), and 3) Creating new antibody-drug conjugates (ADCs) for patients who have become endocrine-resistant and would otherwise receive chemotherapy.
Following the ALASKA trial, which demonstrated a disease-free survival benefit, NCCN guidelines now recommend considering aspirin for early-stage colon cancer patients with a PIK3CA mutation. This is a significant shift toward molecularly guided, non-chemotherapeutic adjuvant therapy that is not yet widely adopted.
The VICTORIA-1 trial found that gedatolisib, a pan-PI3K/mTOR inhibitor, significantly improves progression-free survival in patients with PIK3CA *wild-type* tumors after CDK4/6 inhibitor progression. This is a crucial finding for a patient group lacking clear targeted options and broadens the utility of targeting the PI3K pathway beyond just mutated tumors.
For patients with a PIK3CA mutation who relapse on or shortly after adjuvant endocrine therapy, the INAVO120 trial established a new standard of care. Adding inavolisib to palbociclib and fulvestrant significantly improved overall survival by seven months, providing a potent option for this particularly high-risk, endocrine-resistant population.
Not all mutations are equal. PIK3CA alterations are often present from the start (truncal mutations), indicating a more aggressive cancer. In contrast, ESR1 mutations are typically acquired later as a direct mechanism of resistance to endocrine therapy, making repeat testing after disease progression crucial.
Post-approval studies of the oral SERD elacestrant confirm its clinical benefit in ESR1-mutant breast cancer. However, this real-world evidence also reveals a new insight: patients who have both an ESR1 and a PIK3CA mutation tend to have a shorter time on treatment, suggesting that the PIK3CA mutation may drive resistance to this therapy.
Despite the presence of PIK3CA mutations in some triple-negative breast cancer (TNBC) tumors, Phase III trials with AKT inhibitors have been negative. Currently, there is insufficient evidence to support using PI3K/AKT pathway inhibitors for TNBC in clinical practice.
Three major trials (RIGHT Choice, PADMA, OMBRE) definitively show that starting with a CDK4/6 inhibitor plus endocrine therapy is superior to upfront chemotherapy for newly diagnosed, symptomatic metastatic breast cancer. This approach provides better progression-free survival without the toxicity of chemotherapy and, critically, does not result in a slower time to response.
Testing for PI3K/AKT alterations at the initial diagnosis of metastatic disease, rather than waiting for progression, provides a crucial window of time. This allows clinicians to implement proactive dietary and medical strategies to mitigate future side effects like hyperglycemia before the targeted therapy is even started.
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.
