Soft tissue sarcomas are a heterogenous group of aggressive, chemotherapy-resistant cancers that affect the soft tissues of the body (fat, muscles, fibrous tissue, blood and lymphatic vessels, nerves, etc.).
In the current clinical trials, only 15% of patients respond to immunotherapy, which raises the question of the needless exposure of the other patients to the toxicity of these treatments.
Identifying markers that predict their response to immunotherapy is therefore crucial.
A strategy that until now has been essentially focused on the T cells – immune cells capable of recognising cells that are infected, cancerous or foreign to the body.
Through research published in Nature, a group led by Wolf Hervé Fridman with members from Inserm, Sorbonne Université and Université de Paris at the Cordeliers Research Center, in collaboration with the “tumour identity card” team from the French League against cancer, Institut Bergonié, and teams from the USA and Taiwan, studied the question of identifying other potential markers.
They analysed 608 tumours, classifying them into three groups according to the composition of their microenvironment, which included immunologically poor tumours (low in immune cells and poorly vascularised), highly vascularised tumours, and immunologically rich tumours.
The latter present aggregates of various cell types with high levels of B cells, the immune cells responsible for the production of antibodies.
These aggregates are called tertiary lymphoid structures.
The researchers observed that an anti-tumour immune response initiates within them, thereby showing that the B cells could play an anti-tumour role.
What is more, in a Phase II clinical trial, the patients with immunologically rich tumours showed a high response rate (50%) to one immunotherapy: pembrolizumab.
These patients also had a higher survival rate than those with immunologically poor or highly vascularised tumours.
A second study by a US team, co-signed by Wolf Hervé Fridman’s team at Cordeliers Research Center (Inserm/Sorbonne Université/Université de Paris), and published in parallel in Nature, extended these observations to include melanoma and kidney cancer.
The results of these studies show that in addition to the T cells that are usually researched, the B cells play an essential role in the response to immunotherapy for certain cancers.
These cells bring new hope for the treatment of soft tissue sarcomas, which are particularly resistant to standard therapies.
In addition, from a personalised medicine standpoint, these findings could help orient clinical decisions and patient treatment by means of a simple test to identify those whose tumours are immunologically rich.
On the basis of these results, an initial French clinical trial coordinated by Antoine Italiano (Institut Bergonié, Université de Bordeaux), co-author of the first article, and which includes patients with such tumours, is currently ongoing within the French Sarcoma Group.
Source: Institut national de la santé et de la recherche médicale (INSERM)