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Novel Feeder-Free TIL Expansion Platform Reduces IL-2 Dependence and Enhances Safety in Preclinical Study

Researchers developed a feeder-free TIL expansion protocol that reduces high-dose IL-2 reliance, and combining it with low-dose PD-1 blockade improves anti-tumor efficacy and tolerability in a preclinical model.
Novel Feeder-Free TIL Expansion Platform Reduces IL-2 Dependence and Enhances Safety in Preclinical Study

A new preclinical study published in Cancer Biology & Medicine presents a feeder-free tumor-infiltrating lymphocyte (TIL) expansion platform that significantly reduces dependence on high-dose interleukin-2 (IL-2), a major source of toxicity in TIL therapy. The study, conducted by a joint team from the Senior Department of Oncology of Chinese PLA General Hospital and Shanghai Juncell Therapeutics, demonstrates that this protocol consistently generates functional TILs across multiple solid tumor types, including melanoma, pancreatic, gastric, cervical, and colorectal cancers.

Conventional TIL therapy, clinically validated with the recent FDA approval of lifileucel for advanced melanoma, still faces substantial hurdles. The standard expansion process relies on high-concentration IL-2 (3,000-6,000 IU/mL) and feeder cells such as irradiated peripheral blood mononuclear cells. This approach not only complicates manufacturing but also promotes T-cell exhaustion and necessitates post-infusion systemic high-dose IL-2 administration, which carries significant toxicity risks. Moreover, tumor immune evasion mechanisms, including MHC-I down-regulation, further impair CD8+ T-cell recognition and limit therapeutic efficacy.

The researchers designed a two-phase expansion protocol that eliminates feeder cells entirely. During the initial pre-rapid expansion protocol (pre-REP), TILs were cultured with low-concentration IL-2 (2,000 IU/mL) supplemented with IL-7 and IL-15. The subsequent rapid expansion protocol (REP) used an even lower concentration of IL-2 (300 IU/mL) alongside CD3/CD28 co-stimulation. This feeder-free system achieved expansion success rates of at least 90% across multiple tumor types, with melanoma-derived TILs expanding approximately 2,500-fold. The resulting TIL products demonstrated high purity (CD45+CD3+ cells >93%) and potent cytotoxic activity, secreting substantial interferon-gamma (IFN-γ) and exhibiting effector-to-target ratio-dependent tumor cell killing. Notably, expanded TILs exhibited features consistent with a less exhausted phenotype, including minimal PD-1 expression (<0.5%) and a predominantly effector memory T-cell composition.

In a colorectal cancer patient-derived xenograft (PDX) model, the addition of low-dose PD-1 blockade (2 mg/kg) to TIL therapy significantly reduced tumor volume compared with the control group (P = 0.002) and maintained higher body weights, while completely preventing tumor ulceration—a complication observed in TIL-only and control groups. The researchers also explored hydroxychloroquine (HCQ) as an immunomodulatory agent; HCQ significantly up-regulated MHC-I expression on tumor cells in vitro without affecting PD-L1 levels or impairing TIL proliferation, and enhanced early-phase TCR-T cell-mediated tumor-killing.

"Our goal was to eliminate TIL therapy's dependency on high-dose IL-2, which has been a major barrier to broader clinical use," the authors said. "By creating a feeder-free system with carefully calibrated cytokine support, we've shown that we can generate functional, less exhausted TILs from multiple tumor types. The addition of low-dose PD-1 blockade not only boosted anti-tumor efficacy but also improved treatment tolerability."

The findings carry significant implications for the future of TIL-based immunotherapy. By eliminating feeder cells and reducing IL-2 doses, the protocol simplifies manufacturing and may lower production costs, potentially making TIL therapy more affordable and accessible beyond specialized treatment centers. The demonstration that low-dose PD-1 blockade may serve as an alternative to post-infusion high-dose IL-2 support addresses a major safety concern, as PD-1 inhibitors are already widely used in clinical practice with well-characterized safety profiles. This IL-2-independent strategy has already been explored in a clinical trial for advanced gynecologic cancers with early favorable safety signals. Future research will need to validate these findings in larger animal models and across diverse tumor types, and investigate the underlying mechanisms of TIL persistence and tumor microenvironment modulation. If confirmed in clinical studies, this approach could expand the reach of TIL therapy to a broader population of patients with solid tumors who currently have limited treatment options.

The study is published under DOI 10.20892/j.issn.2095-3941.2025.0441. Cancer Biology & Medicine is a peer-reviewed open-access journal sponsored by China Anti-cancer Association and Tianjin Medical University Cancer Institute & Hospital, indexed in SCOPUS, MEDLINE, and SCI (IF 12.4).

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