Blocking immune exhaustion through drugs, such as checkpoint inhibitors, has proven to be a very powerful therapy for some cancers, but these immunotherapies do not always work and may cause severe side-effects.
Published in Immunity, the Würzburg University-led study completed in collaboration with the Peter Doherty Institute for Infection and Immunity (Doherty Institute), has gained a deeper understanding of how killer T cells work with dendritic cells in the processes that drive immune exhaustion and how checkpoint inhibitors work to restore immune function.
Würzburg University Prof. Wolfgang Kastenmüller, senior author and Director of the Würzburg Institute of Systems Immunology and leader of the Max-Planck Research group, said most immune exhaustion research focused on killer T cells, but little was known about the role of their cellular interaction partners.
"Our results show that checkpoint immunotherapy works at the interface between killer T cells and dendritic cells," Kastenmüller said.
"Our study used highly sophisticated microscopy to identify where these interactions between killer T cells and dendritic cells take place and how these interactions determine the outcome of a chronic viral infection following checkpoint immunotherapy.
"We have shown that dendritic cells activate killer T cells just at the right level as to prevent their overactivation to avoid unwanted immunopathology. This was related to the ability of dendritic cells to maintain unique anatomical niches within lymphoid organs where killer T cells can be retained in a status ready to fight the infection at the correct moment."
University of Melbourne Prof. Sammy Bedoui, co-lead of the study and Immunology Theme Leader at the Doherty Institute said the discovery had far-reaching implications for further research into effective treatments of viral infections, such as HIV and AIDS, hepatitis, possibly COVID-19, and particular types of skin, lung or kidney cancers.
"In the absence of dendritic cells, we have shown that checkpoint inhibitors no longer work. Instead, killer T cells got out of control, resulting in more inflammation and even poorer abilities of the immune system to control the infection," Bedoui said.
MEDICA-tradefair.com; Source: Julius-Maximilians-Universität Würzburg
