Hyperactive Dendritc Cells Redirect Aged Antitumor Immunity.

Cancer research
Authors
Abstract

Aging is one of the biggest risk factors for cancer development. More than 85% of all cancers occur in individuals above 55 years old, often accompanied by age-associated immune defects. Previous studies on the tumor microenvironment during aging have identified several factors, such as the roles of fibroblasts, immunosuppression, and metastasis. However, the aging-associated defects in antitumor immunity, particularly with regard to T cells, remain underexplored. Recent findings by Zhivaki and colleagues suggest that age-related immune defects affecting antitumor responses involve reduced levels of CD8+ T cells and compromised dendritic cell (DC) functions such as antigen presentation and migration. Their study demonstrates that a hyperactive DC vaccine can restore DC functions in older mice. Furthermore, these hyperactive DCs, characterized by increased IL1β production and better migratory capability to the lymph node, promote the development of cytolytic CD4+ T cells exhibiting Th1-like phenotypes. This research reveals mechanisms underlying the response to hyperactive DC vaccines in older mice and highlights the critical role of cytolytic CD4+ T cells as substitutes for CD8+ T cells in driving antitumor immunity and achieving long-term tumor control in older mice.

Year of Publication
2024
Journal
Cancer research
Volume
84
Issue
19
Pages
3130-3131
Date Published
10/2024
ISSN
1538-7445
DOI
10.1158/0008-5472.CAN-24-2650
PubMed ID
39074365
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