In this episode of MD Newsline, Dr. Dejah Blake, a fifth-year PhD candidate at Emory University, joins us from the American Society of Hematology (ASH) conference to discuss the rapidly evolving landscape of CAR T-cell therapy.

Dejah shares insights into engineering next-generation CAR T cells, improving accessibility through in vivo manufacturing, and addressing diversity gaps in clinical research. From armored CARs to gene editing and humanized mouse models, this conversation explores how innovation and equity must move forward together in advancing cancer immunotherapy.

In Vivo CAR T Cells and Accessibility
Traditional CAR T-cell therapy is often described as a "boutique" treatment—highly personalized and complex to manufacture. Dejah explains how in vivo CAR T strategies, including viral vectors and gene-editing approaches, could offer more accessible, potentially off-the-shelf options. Reducing manufacturing time and cost may significantly expand patient access.

Gene Editing and the Next Frontier
Gene editing technologies are reshaping how scientists design immune cells. Dejah discusses how advances in vector engineering, nanoparticles, and genome modification are transforming the field—not just for cancer, but for broader therapeutic applications.

Armored CAR T Cells and Micro-Pharmacies
Armored CAR T cells—engineered to secrete cytokines or other immune-modulating factors—represent an exciting innovation. These enhanced cells may help overcome tumor heterogeneity, antigen escape, and hostile tumor microenvironments, particularly in solid tumors.

Persistence and the Tumor Microenvironment
One of the biggest challenges in CAR T-cell therapy is ensuring persistence in immunosuppressive tumor environments. The discussion explores strategies to generate stem cell–like CAR T cells, balance memory and effector functions, and resist chronic antigen stimulation.

Preclinical Models and Translational Science
Dejah explains the importance—and limitations—of mouse models, including humanized and patient-derived xenograft (PDX) systems. While essential for mechanistic insight, these models do not always predict first-in-human outcomes, underscoring the need for thoughtful translational design.

Retrospective Data, AI, and Clinical Blind Spots
As more patients receive CAR T therapy, retrospective analyses are revealing patterns in durability, toxicity, and response. The conversation also addresses data blind spots—particularly regarding racial, socioeconomic, and age diversity—and emphasizes the importance of equitable representation in clinical research.

Bridging Bench to Bedside
Dejah highlights the growing collaboration between academia and industry in advancing cell therapy. Funding models, clinician-researcher partnerships, and patient-centered translational thinking are essential to moving discoveries from laboratory to clinic responsibly.

The future of CAR T-cell therapy depends not only on technological innovation—such as gene editing and in vivo engineering—but also on accessibility, diversity, and translational collaboration. By combining scientific rigor with equity-focused research, the next generation of immunotherapy can become more effective, scalable, and inclusive.

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