CELMoDs are being actively trialed as a maintenance therapy after CAR T-cell treatment. The strategy is to leverage the CELMoDs' ability to enhance T-cell function and upregulate effector T-cells to boost the activity and persistence of the CAR-T product, potentially leading to more durable responses and preventing relapse.

Lenalidomide has a unique off-target effect on C1K alpha which clonally selects for p53 mutated cells, increasing second cancer risk. Preclinical data clearly show that CELMoDs like iberdomide and mezigdomide do not share this mechanism, offering a significant potential safety advantage over the older IMiD.

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.

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.

In a heavily pretreated population, mezigdemide plus dexamethasone achieved a 50% response rate in patients refractory to prior BCMA-based approaches, including antibody-drug conjugates, bispecifics, and CAR T-cell therapy. This demonstrates a distinct mechanism that can overcome resistance to the latest immunotherapies.

Unlike IMiDs, which only partially engage the target, CELMoDs like iberdomide are larger molecules that fully close the cereblon E3 ligase pocket. This maximizes degradation of target proteins Ikaros and Aiolos, leading to greater potency and what is described as "hitting the death star" of the myeloma cell.

Mezigdomide is considered one of the most active oral agents against extramedullary disease (EMD). Its molecular structure was specifically engineered to optimize tissue penetration, addressing a significant clinical challenge where myeloma grows outside the bone marrow in heavily pretreated patients.

Unlike lenalidomide, which modulates CK1-alpha and can select for p53-mutated cells leading to a risk of secondary leukemia/MDS, both iberdomide and mezigdemide do not share this off-target effect. This critical safety difference makes them promising candidates for long-term use, such as in maintenance therapy.

Extramedullary disease (EMD) is historically difficult to treat. Mezigdemide was deliberately developed with medicinal chemistry that allows it to penetrate solid tissues. This unique property enables it to effectively target EMD, a key differentiator from traditional IMiDs which are less effective in this setting.