-
Your selected country is
eu
- Change country/language
Old Browser
Your account has been put on hold due to inactivity. To re-activate, check your account information and make all necessary updates.
Looks like you're visiting us from {{countryName}}.
Would you like to remain on the current country site or be redirected to one based on your location?
live copy GB
Your account has been put on hold due to inactivity. To re-activate, check your account information and make all necessary updates.
Extricating Human Tumour Immune Alterations from Tissue Inflammation
Challenges of the inflammatory microenvironment
Antigen-presenting cells (APSs) and T cells are present in many solid tumour types, where they are critical determinants of tumour development and disease outcome. A hallmark of immune-infiltrate human tumour tissues is the presence of an inflammatory microenvironment; however, it is not well understood which immune cell subsets and signalling pathways in the human tumour microenvironment are distinct from general inflammatory processes.
The current study hypothesised that comparing the human tumour microenvironment with non-malignant, inflamed tissues could identify tumour-unique immune alterations.
Check out this interview with the author, Florian Mair.
Methods
To identify tumour-enriched immune alterations, several single-cell analysis pipelines were combined to generate a comprehensive immune landscape of human head and neck squamous cell carcinomas (HNSCC). This immune landscape was then compared with site-matched non-malignant inflamed oral mucosal (OM) tissue. Matched peripheral blood samples were collected and cryopreserved peripheral blood mononuclear cells (PBMCs) from healthy controls were used as a longitudinal technical control for flow cytometry acquisitions.
To phenotype the congruence of HNSCC and OM tissue, two flow cytometry panels comprised of 30 parameters and computational analysis were used to identify specific immune subset differences. To understand better the immune alterations observed, the author used NicheNet to predict enriched ligand – receptor interactions between APCs and Treg cells in HNSCC tissue. To understand the functional capacity of specific immune cells, classic stimulation and suppression assays, and bulk-RNA sequencing were performed.
Flow cytometry was used to confirm uniqueness of immune subsets to HNSCC tissue compared to OM. Flow cytometric analysis followed best practices outlined for use of flow cytometry and suggestions for data analysis. Publicly available scRNA-seq datasets were mined to assess uniqueness compared to other tumour types.
Summary of key findings
The analysis revealed a large overlap in the composition and phenotype of immune cells in HNSCC and inflamed OM tissue.
Computational analysis approaches identified tumour-specific changes in subsets of activated APCs and Treg cells. It predicted that Treg cells in the tumour actively received T-cell receptor (TCR) signals and responded to proinflammatory cytokines IL-1 and IL-18. IL-1 receptor 1 (IL1R1) was expressed by tumour-infiltrating Treg cells but not by tumour-infiltrating CD4+ T cells, nor by CD8+ T cells, nor by T cells in the peripheral blood.
The functional capacity of IL1R1+ Treg cells was assessed through comparison with their IL1R1− counterparts using a transcriptomics approach to measure the expression of genes with known relevance to the immune system. This demonstrated that intratumoural IL1R1+ Treg cells showed substantial clonal expansion, superior immunosuppressive function and hallmarks of recent TCR stimulation.
This Treg population was uniquely identifiable through the co-expression of IL1R1 and inducible T cell co-stimulator (ICOS), with IL1R1+ICOS+ Treg cells significantly enriched in HNSCC compared with OM. However, expression of IL1R1 transcript was detected across 19 different tumour types so was not unique to HNSCC.
Conclusion
Findings of the present paper show that the co-expression of IL1R1 and ICOS uniquely identifies an intratumoural Treg population from all other haematopoietical derived cells in the tumour or peripheral blood. The outlined approach, using flow cytometry, could serve as a blueprint to identify immunological congruencies and improve our understanding of disease-specific processes.
Read the full article: Extricating human tumour immune alterations from tissue inflammation
References
Mair F, Erickson JR, Frutoso M, et al. Extricating human tumour immune alterations from tissue inflammation. Nature. 2022;605(7911):728-35.
BD and the BD Logo are trademarks of Becton, Dickinson and Company or its affiliates. © 2022 BD. All rights reserved.
Report a Site Issue
This form is intended to help us improve our website experience. For other support, please visit our Contact Us page.