Together, they unpack how tumors are far more than just cancer cells—consisting instead of diverse populations of immune cells, stromal cells, and cancer cells all interacting within a shared and often hostile environment. Dr. Delgoffe explains how cancer cells actively reshape that environment by competing for and consuming key nutrients, effectively starving immune cells and limiting their ability to mount an effective response. The conversation dives into the emerging field of immunometabolism, revealing how metabolic competition within tumors can determine immune cell function and ultimately influence whether immunotherapy works.

What You’ll Learn with Dr. Delgoffe

• What the tumor microenvironment is and why it’s more than just cancer cells.
• How immune cells and tumor cells compete for space, nutrients and control.
• How metabolism shapes immune function and cancer’s ability to evade attack.
• Why understanding these cellular “interactions” is key to improving immunotherapy.

Dr. Fox explains the emerging concept of “dark matter” in cancer biology — the once-dismissed non-coding regions of DNA that may play a pivotal role in tumor progression and immune targeting. He discusses how these regions are now known to produce short-lived proteins that may act as cancer drivers and immunotherapy targets. Importantly, many of these “dark antigens” are shared across tumor types and do not appear in healthy tissue, making them promising targets for vaccines, TCR therapies, and other immune-based treatments.

The episode also highlights Fox’s commitment to mentorship, the evolution of the Society for Immunotherapy of Cancer (SITC), and the future potential of dark genome research in cancer and beyond.

What You'll Learn

• How early immunotherapy research at the NCI helped prove that genetically engineered T cells can fight cancer.

• What scientists mean by the “dark genome” and why it matters in cancer.

• How hidden regions of DNA can produce proteins that help tumors grow and spread.

• Why many tumor antigens may come from non-canonical DNA regions rather than mutations.

• How researchers are exploring vaccines and engineered T cells to target these antigens.

• Why discoveries in the dark genome could impact many diseases beyond cancer.

Dr. Pardoll discusses the importance of learning from early clinical failures, the promise of combination therapies, and advances in engineered T cells. Looking ahead, the episode highlights emerging technologies such as single-cell analysis and artificial intelligence, which are accelerating discoveries across cancer research and beyond. Dr. Pardoll also shares insights on mentorship, collaboration, and the importance of sustained investment in science to continue reducing cancer mortality.

What You’ll Learn from Dr. Pardoll

• How early clinical observations from bone marrow transplantation helped reveal the curative potential of T-cell–mediated anti-tumor immunity
• Why many early cancer vaccines failed clinically, and how those failures directly led to the discovery of immune checkpoint pathways
• The critical role of the tumor microenvironment in suppressing effective immune responses, even when tumor-specific T cells are present
• Why combination therapies (immunotherapy + chemotherapy, targeted therapy, or cell therapy) are essential to overcoming tumor escape and resistance
• Emerging advances in engineered adoptive cell therapies, including logic-gated T cells designed for improved specificity and safety
• How single-cell and spatial transcriptomic technologies are transforming our ability to dissect the tumor ecosystem
• The growing role of AI in analyzing massive immunologic datasets and accelerating discovery

Key Takeaways

• Immunotherapy translation is a marathon - TIL development required decades from concept to FDA approval. Persistence, infrastructure scaling, and multi-disciplinary collaboration were critical.
  
• Helper T cells and other immune subsets deserve continued focus - early CD4 work opened the door to a broader understanding of immune network contributions beyond cytotoxic T cells.
  
• Checkpoint inhibitors transformed expectations for advanced disease - first-in-human PD-1 trials demonstrated tumor regression in treatment-refractory melanoma, lung, and renal cancers—creating a new standard of care and catalyzing pharmaceutical development.
  
• Neoadjuvant immunotherapy offers biological and clinical advantages - treating tumors in situ may better prime tumor-resident T cells and reduce microscopic metastases before surgical resection.
  
• Manufacturing scale and technological innovation matter - transitioning from wells to bioreactor-type systems enabled effective TIL dosing thresholds and clinical response.

Recorded live from the 2025 SITC Annual Meeting, this episode highlights the emerging science shaping the future of immunotherapy, including late-breaking abstracts and press program findings presented at the conference. As the current vice president of SITC, Dr. Demaria discusses the evolving synergy between radiation and immunotherapy, insights from studying the immune microenvironment and the translation of her discoveries into ongoing clinical trials. She also reflects on the collaborative energy that defines SITC and continues to drive the next generation of combination immunotherapies.

• How the earliest trials of interleukin-2 paved the way for modern immunotherapy
• The inside story of developing and combining anti–PD-1 and anti–CTLA-4 checkpoint inhibitors
• Why durable cures in metastatic melanoma and kidney cancer were once thought impossible — and how that changed
• How scientists learned to manage immune-related toxicities and make combination immunotherapy safer
• What’s next in the field: bispecific antibodies, T-cell engagers, and engineered cell therapies
• The importance of collaboration, persistence, and even a little fun (“ImmunoTennis”) in advancing science

Access more show notes, links and transcript here: https://www.moffitt.org/about-moffitt/podcasts/immunoverse/cytokines-to-checkpoint-blockade

What You’ll Learn from Dr. Locke

• How a personal family experience inspired Dr. Locke’s passion for immunotherapy

• The story behind pivotal CAR T clinical trials (ZUMA-1 and ZUMA-7) and their FDA approvals

• What makes CAR T therapy so effective in blood cancers — and the challenges with solid tumors

• Innovative approaches on the horizon: donor-derived CAR Ts, TIL therapy, and engineered TCR therapies

• Why diet, exercise, and prehabilitation may improve immune cell therapy outcomes

• How Moffitt is scaling CAR T for outpatient treatment and community hospital access

Access more show notes, links and transcript here: https://www.moffitt.org/about-moffitt/podcasts/immunoverse/future-of-cellular-treatments/

What You’ll Learn from Dr. Gajewsk

• Origins of the hot vs cold tumor concept and its impact on immunotherapy.
• How checkpoint inhibitors revive immune responses in T-cell–infiltrated (“hot”) tumors.
• Challenges of cold tumors and strategies to convert them into hot, immune-responsive tumors.
• Pioneering work linking the gut microbiome to immunotherapy response.
• The significance of interdisciplinary research, from tumor genetics to immunology.Humanizing science: the role of music and culture in building community and sustaining belief.

Access more show notes, links and transcript here: https://www.moffitt.org/about-moffitt/podcasts/immunoverse/hot-vs-cold-tumors/

Dr. Jaffee shares the personal and scientific journey that led her to tackle one of oncology’s toughest challenges: pancreatic cancer. From her early fascination with virology to pioneering the use of genetically modified tumor vaccines, she has pushed the boundaries of what’s possible in cancer prevention and treatment.

What You’ll Learn from Dr. Jaffee

• The role of KRAS mutations in early pancreatic cancer and how vaccines can target them
• How we can harness both targeted therapies and vaccines to overcome resistance in pancreatic cancer.
• How immunotherapy could be used for pancreatic cancer prevention
• The use of AI in early detection for at-risk patients

Dr. Jaffee also discusses efforts to use immunotherapy earlier — even preventively — and explores how AI and multi-modal data could revolutionize cancer risk prediction and early detection.

Key Takeaways

• KRAS vaccines are showing promise in preventing recurrence of pancreatic cancer post-surgery, with strong immune responses observed.
• Early pancreatic lesions already show immune reactivity, and vaccines may be able to activate these cells before cancer fully develops.
• Neoadjuvant immunotherapy—treatment before surgery—is producing encouraging immune responses in pancreatic cancer.
• AI and integrative data tools will be essential in identifying high-risk patients early and tailoring personalized prevention strategies.
• Mentorship is critical to the progress and future of cancer research.

Access more show notes, links and transcript here: https://www.moffitt.org/about-moffitt/podcasts/immunoverse/targeting-kras/