CARTITUDE-IV trial data challenges the idea of reserving CAR-T therapy for high-risk myeloma. In early relapse, standard-risk patients treated with siltacel had a longer progression-free survival than even high-risk patients on the same therapy. This suggests standard-risk patients may gain the most relative benefit from earlier CAR-T intervention compared to standard of care.
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In the Cartitude 1 trial, the strongest predictor of long-term remission with Siltacel was a lower burden of disease (measured by bone marrow percentage and soluble BCMA levels), rather than the number of prior treatments. This implies using CAR-T therapy earlier in the disease course is more effective.
Surprisingly, patients with high-risk cytogenetics, a typically poor prognostic factor in multiple myeloma, were equally represented in both the long-term remission group and the group that progressed after Siltacel treatment. This suggests CAR-T therapy may overcome traditional risk stratification.
Despite exciting early efficacy data for in vivo CAR-T therapies, the modality's future hinges on the critical unanswered question of durability. How long the therapeutic effects last, for which there is little data, will ultimately determine its clinical viability and applications in cancer versus autoimmune diseases.
The efficacy of Siltacel stems from a powerful initial expansion that eliminates cancer upfront. The CAR-T cells are often undetectable beyond six months, indicating their curative potential comes from an overwhelming initial response rather than persistent, long-term immune policing of the disease.
As CAR-T cell therapies are increasingly adopted for second-line treatment of large cell lymphoma, epcoritamab is solidifying its role as a critical, potentially curative replacement option in the third-line setting. This establishes a clear sequential treatment pathway for patients who continue to relapse.
Unlike older IMiDs where T-cell effects are secondary, CELMoDs have a powerful, independent pro-T-cell mechanism. This dual action is so significant that in the future, CELMoDs will be prescribed not just for their direct anti-myeloma effects, but specifically to enhance the efficacy of T-cell therapies like CAR-T and bispecific antibodies.
Using a BCMA bispecific antibody first can exhaust a patient's T-cells or cause tumors to lose the BCMA target, rendering a subsequent BCMA-targeted CAR-T therapy ineffective. The optimal sequence is CAR-T first, which preserves T-cell function and BCMA expression, leaving bispecifics as a viable later-line option.
Five-year follow-up from the CARTITUDE-1 trial suggests a potential cure for multiple myeloma is achievable. With roughly one-third of heavily pretreated patients remaining in remission at five years—and some confirmed as MRD-negative—the concept of a cure is now part of the operational discussion among specialists, a monumental shift for a disease long considered incurable.
Rather than expecting cell therapies (CAR-T, TIL) to eradicate every cancer cell, Dr. Radvanyi reframes them as powerful adjuvants. Their role is to inflict initial damage, kill tumor cells, and release antigens, creating an opportunity to prime a broader, secondary immune response with other modalities like vaccines or checkpoint inhibitors.
The success of CAR-T therapy hinges on the quality of the patient's own lymphocytes. Procuring T-cells earlier in the disease course, before they become exhausted from numerous prior therapies, results in a higher proportion of naive T-cells, leading to better CAR-T cell manufacturing and clinical outcomes.