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Unlike immune cells engineered to kill tumors (e.g., CAR-T), Mesenchymal Stem Cells (MSCs) solve a different problem. Their primary role is to leverage natural trafficking ability to reach the tumor microenvironment and deliver therapeutic payloads, rather than acting as immune effectors themselves.
The success of early CAR-T cell therapies was partly luck. Future therapies face a high bar, as an ideal target must meet three criteria: 1) be abundant on cancer cells, 2) be indispensable for the cancer's survival, and 3) be dispensable for the patient's healthy tissues to avoid lethal toxicity.
An innovative strategy for solid tumors involves using bispecific T-cell engagers to target the tumor stroma—the protective fibrotic tissue surrounding the tumor. This novel approach aims to first eliminate this physical barrier, making the cancer cells themselves more vulnerable to subsequent immune attack.
Developing CAR T-cell therapies for solid tumors is difficult because many tumor-associated antigens are also expressed on normal tissues. This creates a significant risk of "on-target, off-tumor" effects, causing severe toxicity. Mitigating this risk, for instance with engineered "kill switches," is as crucial as preserving the therapy's efficacy.
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.
While personalized cancer vaccines require extracting and processing a patient's tumor, Create Medicines' in vivo approach is entirely off-the-shelf. By delivering the programming directly into the body, they enable the patient's own immune system to do the complex, personalized work of attacking the cancer itself.
Engineered Mesenchymal Stem Cells (MSCs) can be designed to be sensitive to the very drug they produce from a prodrug. This creates an elegant self-regulating mechanism where the therapeutic cells are eliminated as they perform their function, preventing long-term persistence and enhancing the safety profile.
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 company's stromal cells don't function like typical "stem cells" that replace tissue. Instead, they act as immunomodulatory factories. Cytokines from an immune response activate receptors on the cells, which then release anti-inflammatory factors to turn off that specific inflammation, acting as a targeted signaling response.
The platform doesn't just transport a drug. The T-cells themselves populate the tumor microenvironment, which is naturally 'cold' (lacking immune cells) in glioblastoma. This increases inflammatory activity, making the tumor more susceptible to the delivered therapeutic payload.