Improving immunotherapies for blood cancers: real-time exploration in the tumour

24 Feb 2021
Improving immunotherapies for blood cancers: real-time exploration in the tumour

Monoclonal antibodies are part of the therapeutic arsenal for eliminating cancer cells.

Some make use of the immune system to act and belong to a class of treatment called "immunotherapies."

But how do these antibodies function within the tumour? And how can we hope to improve their efficacy?

Using innovative in vivo imaging approaches, scientists from the Institut Pasteur and Inserm visualised in real time how anti-CD20 antibodies, used to treat B-cell lymphoma, guide the immune system to attack tumour cells.

Their findings were published in the journal Science Advances.

Anti-CD20 antibodies are used in clinical practice to treat patients with B-cell lymphoma, a type of blood cancer.

The treatment, often used in combination with chemotherapy, has been largely proven to improve the prognosis of patients but some respond less effectively than others.

It is therefore critical to better understand how these therapies actually work to then be able to overcome their weaknesses.

Scientists from the Dynamics of Immune Responses Unit (Institut Pasteur/Inserm), led by Philippe Bousso, visualised the effect of the anti-CD20 antibody within the tumour seconds following injection and relied on tumour cells that change colour as they die.

Using this strategy, they demonstrate that macrophages play an essential role in the efficacy of the therapy, by ingesting tumour cells coated with antibodies.

"What surprised us was the observation that this elimination phase, which begins immediately after the injection of the antibody, became less effective after just a few hours," explains Capucine Grandjean, lead author of the study.

The scientists also showed that the quantity of macrophages in the tumour was very likely to be insufficient to destroy all cancer cells.

In revealing some of the weaknesses of these antibodies, the scientists have opened up new avenues for the development of next-generation therapies.

In particular, increasing the presence and activity of macrophages in the tumour represents a promising strategy to boost the efficacy of these therapeutic antibodies.

Source: Institut Pasteur