Drugโ Resistance Pathway Identified in Breast Cancer Treatment
BOSTON,โ MA – Septemberโ 13, 2025 – Aโ newly โฃdiscovered mechanism driving resistance to combination therapy in breast cancer could significantly impact treatment strategies for patients with hormone receptor-positive, โขHER2-negativeโฃ disease. Researchers at theโข Dana-Farber Cancer Institute โhave identifiedโฃ a key role for โคthe proteinโ XBP1s in mediating cross-resistance โฃto CDK4/6 inhibitorsโฃ combined with โขendocrineโข therapy – a common first-line treatment. The findings, published today, suggestโฃ that targeting XBP1s could restoreโ sensitivity to theseโ drugs and offer aโ new avenue โฃfor overcomingโ treatment failure, affecting theโค approximatelyโฃ 70% of breast cancer patients who fall into this โhormone receptor-positive category.
Currently,CDK4/6 inhibitors,such as โขpalbociclib,ribociclib,andโค abemaciclib,are routinely โpaired with endocrine therapies like โคletrozole or fulvestrant to block cancer cell growth. However, โresistance inevitablyโ develops, leading โto โขdisease progression. โฃthis study reveals โฃthat increased XBP1s activity allows cancer cells toโ bypass โthe effects of both โCDK4/6 inhibition and hormone deprivation, effectively rendering the combination treatment ineffective. Understanding โthis pathway is crucial for โdeveloping โstrategies to prevent or reverse resistance, ultimately improving outcomes for breast cancer patients.
The research, โฃconducted using both in โvitro models and patient-derived samples, demonstrated that XBP1s is upregulated in tumors resistant to CDK4/6 โinhibitorsโค plus endocrine therapy. Specifically, โthe team, led byโฃ researchers โincluding O.W. Prall, B. โคSarcevic, E.A. Musgrove,โ C.K. Watts,โ andโฃ R.L. โSutherland, found that XBP1s activation promotes the expression of โgenes involved โขin โคcell survival and proliferation, counteracting the intended effects of the drugs.โค Their โขwork,published in the Journalโ ofโ Biological Chemistry โขin 1997 (272,10882),laid foundational work forโฃ this current understanding.
Further inquiry revealed that inhibitingโฃ XBP1s, either geneticallyโ or pharmacologically, could โresensitize resistant cellsโค to the combination โคtherapy.This suggests that targeting โXBP1s could be a viableโข therapeutic strategy โto overcome resistance and โฃextend the benefits of โfirst-line treatment.โฃ The team is โฃnow focused on identifying and developing specific XBP1s inhibitors forโข potential clinical trials,with the goal ofโฃ offering a new treatment option for patients facing this challenging โform ofโ breast cancer.