A subtle finding in the DESTINY-Breast11 trial, where TDXD alone underperformed TDXD followed by THP, suggests that taxane-based chemotherapy might remain effective even after a patient's HER2-positive cancer becomes resistant to the antibody-drug conjugate TDXD.
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Trastuzumab deruxtecan (TDXD) and datopotamab deruxtecan (Dato-DXd) share the same cytotoxic payload, yet Dato-DXd has a much lower rate of interstitial lung disease (ILD). This indicates the toxicity is driven by the antibody-antigen interaction, not the payload itself.
Due to cumulative toxicity concerns with TDXD, particularly ILD, clinicians express more comfort with the shorter 4-cycle neoadjuvant course from DESTINY-Breast11 than the prolonged 14-cycle adjuvant therapy in DESTINY-Breast05, favoring front-loading the treatment.
Real-world data suggests that using one antibody-drug conjugate (ADC) immediately after another is often ineffective. A potential strategy to overcome this resistance is to administer a different class of chemotherapy before starting the second ADC.
Data from DESTINY-Breast09 shows TDXD plus pertuzumab dramatically improved progression-free survival in first-line metastatic HER2+ breast cancer. This unprecedented efficacy raises new questions about optimal treatment duration and the potential for de-escalated maintenance therapy after induction.
Positive data from both DESTINY-Breast09 (TDXD-based) and PATINA (CDK4/6i maintenance) create a new dilemma. With similar PFS outcomes, the first-line choice for metastatic HER2+/HR+ patients now hinges on toxicity profiles and patient preference rather than a single efficacy winner.
The modest benefit of PARP inhibitors in metastatic breast cancer, compared to ovarian cancer, is likely due to resistance induced by prior exposure to DNA-damaging agents like anthracyclines. This explains the clinical rationale for moving PARP inhibitors to earlier treatment settings, such as neoadjuvant or adjuvant therapy, before resistance develops.
The DESTINY-Breast11 trial showed a neoadjuvant regimen of TDXD followed by THP achieved a 67.3% pathologic complete response (pCR) rate in high-risk HER2+ breast cancer. This is the highest pCR rate seen in a registrational trial, signaling a potential new standard of care.
Contrary to concerns about cross-resistance between HER2 antibody-drug conjugates (ADCs), retrospective data shows TDM-1 remains effective after progression on TDXD. This suggests the different cytotoxic payloads are key, allowing for effective sequencing and challenging the assumption that progression on one ADC class member precludes using another.
Clinical trial data shows that despite specific toxicities, antibody-drug conjugates (ADCs) can be better tolerated overall than standard chemotherapy. For example, trials for both sacituzumab govitecan and dato-DXd reported fewer patients discontinuing treatment in the ADC arm compared to the chemotherapy arm.
An antibody-drug conjugate's (ADC) effectiveness is capped by its chemotherapy payload. In prostate cancer, topoisomerase inhibitors have a poor track record. Therefore, ADCs using this payload face an uphill battle compared to those with proven payloads like microtubule inhibitors (taxanes).
