Current clinical success with anti-cancer immunotherapy provides exciting new treatment opportunities. While encouraging, more needs to be done to induce durable effects in a higher proportion of patients. Increasing anti-tumor effector T cell quantity or quality alone does not necessarily correlate with therapeutic outcome. Instead, the tumor microenvironment is a critical determinant of anti-cancer responsiveness to immunotherapy and can confer profound resistance. Yet, the tumor-promoting environment - due to its enormous plasticity - also delivers the best opportunities for adjuvant therapy aiming at recruiting, priming and sustaining anti-tumor cytotoxicity. While the tumor environment as an entity is increasingly well understood, current interventions are still broad and often systemic. In contrast, tumors grow in a highly compartmentalized environment which includes the vascular/perivascular niche, extracellular matrix components and in some tumors lymph node aggregates; all of these structures harbor and instruct subsets of immune cells. Targeting and re-programming specific compartments may provide better opportunities for adjuvant immunotherapy.
Keywords: Angiogenesis; Ectopic lymph nodes; Extracellular matrix; Immunotherapy; Stroma; T cell trafficking.
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