Submitted by Livia Harriman on Tue, 02/01/2024 - 10:25
In recent years, breakthrough therapies—particularly those targeting immune checkpoints like PD-1 and CTLA-4—have transformed the outlook for many cancer patients. However, not all patients respond to these treatments.
Regulatory T (Treg) cells are powerful immunosuppressive cells which limit a patient’s immune response to cancer. Consequently, targeting Treg cells has been a focus for researchers seeking to enhance immune responses against tumours. However, clinical trials targeting Treg cells have thus far been underwhelming, prompting a deeper investigation into their role.
A new study by researchers from the University of Cambridge Department of Pathology, led by senior author Professor Rahul Roychoudhuri and first author Dr Sarah Whiteside, sheds light on the complex dynamics between Treg cells and cancer. The study, titled 'Acquisition of suppressive function by conventional T cells limits anti-tumour immunity upon Treg depletion', reveals a previously unrecognized source of immune suppression which occurs following therapeutic depletion of Treg cells, limiting response efficacy.
“The findings unveil a compensatory mechanism where conventional T cells acquire suppressive functions, limiting the effectiveness of therapies targeting Treg cells. This insight is crucial for developing more effective cancer immunotherapies which work by depleting Treg cells," said Professor Roychoudhuri.
The research team used cutting-edge cellular and molecular immunology approaches and cancer models to demonstrate that upon therapeutic depletion of Treg cells, a subset of conventional T cells, marked by expression of the chemokine receptor CCR8, adopt Treg cell-like behaviour, producing an immunosuppressive cytokine IL-10 which subsequently limits the efficacy of the immune response released upon Treg repletion. This unexpected finding challenges the previous understanding that focusing solely on Treg cells could yield substantial therapeutic benefits.
Sarah Whiteside, the study's first author, emphasizes the broader implications of their work:
By recognizing the compensatory immunoregulatory functions taken up by Tconv cells when Treg cells are depleted, we can explore new strategies that target these cells alongside Treg cells to enhance the efficacy of cancer treatments. As cancer treatment continues to evolve, the findings represent a significant step forward in understanding and potentially overcoming the limitations of current immunotherapies.
The study underscores the complexity of the immune system's response to cancer and opens new avenues for cancer treatment. By identifying the role of interleukin (IL)-10-expressing CCR8+ Tconv cells in mediating immune suppression, the research provides a new target for overcoming immunotherapy resistance to Treg-depleting immunotherapies. The implications of this study are significant, offering hope for improved therapies for cancer patients who currently do not benefit from existing treatments.
The research was conducted at the University of Cambridge Department of Pathology and the CRUK Cambridge Cancer Centre in collaboration with Dr Enrico Lugli's research group at Humanitas in Milan (Italy). The research was conducted with support from the UK Medical Research Council and an ERC Consolidator Award to Professor Roychoudhuri.
Read the paper Acquisition of suppressive function by conventional T cells limits antitumor immunity upon Treg depletion published in Science Immunology here: https://doi.org/10.1126/sciimmunol.abo5558
This article is an edited version of the original by Kat Steer St Catharine's College Cambridge Communications Manager, which can be read here: https://www.caths.cam.ac.uk/cancer-immunotherapy