On April 17, 2026 Boundless Bio (Nasdaq: BOLD), a clinical-stage oncology company interrogating extrachromosomal DNA (ecDNA) biology to deliver transformative therapies to patients with previously intractable oncogene amplified cancers, reported preclinical data supporting its lead ecDNA-directed therapy (ecDTx), BBI-940, at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2026. Boundless has identified a novel kinesin target ("Kinesin") essential to ecDNA segregation and inheritance in cancer cells, but non-essential in healthy cells. BBI-940, a potentially first-in-class, oral, and selective Kinesin degrader, is currently being evaluated in the Phase 1 KOMODO-1 trial (NCT07408089) in patients with advanced or metastatic ER+/HER2- breast cancer and TNBC-LAR.

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"Extrachromosomal DNA is well established as a distinct enabler of chromosomal instability associated with oncogene amplification, therapeutic resistance, and poor outcomes for patients," said Chris Hassig, Ph.D., Chief Scientific Officer of Boundless Bio. "We have discovered and validated a novel kinesin target that plays a critical role in ecDNA segregation during cell division, thereby affording tumors with a high degree of genomic plasticity. Our data demonstrate that selective degradation of this target delivered potent antitumor activity in validated breast cancer models, particularly those with ecDNA. Our genetic, in vitro, in vivo, and toxicity profile of BBI-940 supports our recently initiated, first-in-human KOMODO-1 clinical trial evaluating BBI-940 in ER+/HER2- and TNBC-LAR breast cancer patients."

Details of the presentation are as follows:

Title: Selective degradation of a novel kinesin as a potential therapeutic strategy addressing high-risk extrachromosomal DNA (ecDNA) positive cancers, including breast cancer
Abstract Number: LB361
Session Title: Late-Breaking Research: Experimental and Molecular Therapeutics 3
Session Date and Time: Tuesday April 21, 2026, 2:00 PM – 5:00 PM PT
Location: Poster Section 53
Poster Board Number: 18

Genetic and pharmacologic degradation of Kinesin caused ecDNA mis-segregation, ecDNA depletion, and reduced viability of ecDNA+ cancer cells. Selective degradation of Kinesin in a panel of tumor cell lines demonstrated sensitivity across multiple tumor types and 32% sensitivity in breast cancer cell lines, including those positive for ecDNA and FGFR1 gain. This molecularly defined subgroup for Kinesin degradation was further validated in vivo with demonstrated monotherapy tumor regressions in an ecDNA+ TNBC-LAR model, and significant antitumor activity as monotherapy and combination in an ecDNA+/FGFR1+ ER+ breast cancer model.

About BBI-940
Our lead ecDTx, BBI-940, is a novel, oral, and selective kinesin degrader being evaluated in the ongoing, first-in-human Phase 1 KOMODO-1 (Kinesin Oral Molecular Degrader for Oncology) clinical trial (NCT07408089) in patients with advanced or metastatic estrogen receptor-positive, HER2-negative (ER+/HER2-) breast cancer or triple-negative breast cancer of the luminal androgen receptor subtype (TNBC-LAR). BBI-940 targets a specific kinesin protein, "Kinesin", essential for ecDNA segregation and inheritance in cancer cells, but non-essential in healthy cells. BBI-940 is designed to exploit the heightened dependence of ecDNA-positive tumors on mitotic machinery by degrading Kinesin to induce mitotic catastrophe and cell death.

(Press release, Boundless Bio, APR 17, 2026, View Source [SID1234664506])