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.
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While CELMoDs frequently cause neutropenia, this effect is most pronounced in early cycles and manageable with growth factors. This contrasts sharply with the persistent, quality-of-life-impairing non-hematologic side effects of lenalidomide, such as rash and severe fatigue. This trade-off results in a significantly better long-term tolerability profile for patients.
The drug exhibits a multimodal mechanism. It not only reverses chemoresistance and halts tumor growth but also 'turns cold tumors hot' by forcing cancer cells to display markers that make them visible to the immune system. This dual action of direct attack and immune activation creates a powerful synergistic effect.
Create's strategy is not limited to a single cell type. They view success in solid tumors as requiring the programming of all immune cells. Their platform can specifically engineer myeloid cells, T-cells, and NK cells in vivo, orchestrating a coordinated, multi-pronged attack on cancer.
Instead of focusing solely on T-cells, Create's platform first targets myeloid cells, which constitute up to 60% of some solid tumors. Programming these cells transforms the tumor microenvironment, enabling a 5-10x influx of CD8 T-cells. This overcomes a key barrier for T-cell therapies in solid tumors.
Successful immunotherapies like anti-PD-1 work by shifting the battlefield's arithmetic. They enhance the efficiency of each T-cell, allowing one cell to destroy five or ten cancer cells instead of three. This turns the fight into a 'numbers game' that the immune system can finally win.
An expert who initially viewed CELMoDs as incremental improvements now considers them fundamentally different. The new litmus test for future myeloma trials will be tracking prior patient exposure to CELMoDs like iberdomide, just as they track prior IMiD exposure today, cementing their status as a distinct therapeutic category.
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.
To combat immunosuppressive "cold" tumors, new trispecific antibodies are emerging. Unlike standard T-cell engagers that only provide the primary CD3 activation signal, these drugs also deliver the crucial co-stimulatory signal (e.g., via CD28), ensuring full T-cell activation in microenvironments where this second signal is naturally absent.
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.
Bi-specific T-cell engagers (BiTEs) are highly immunogenic because the mechanism activating T-cells to kill cancer also primes them to mount an immune response against the drug itself. This 'collateral effect' is an inherent design challenge for this drug class.
