There’s never a dull moment in science – well, not many – and at the moment no field is fizzing more than immunotherapy. Just the other day in Outsourcing the Immune Response we talked about the astonishing finding that cells from healthy people could be used to boost the immune response – a variant on the idea of taking from patients cells that attack cancers, growing them in the lab and using genetic engineering to increase potency (generally called adoptive cell therapy).
A general prod
Just when you thought that was as smart as it could get, along comes Angus Dalgleish and chums from various centres in the UK and Spain with yet another way to give the immune system a shock. They used microorganisms (i.e. bugs) as a tweaker. The idea is that bacteria (that have been heat-killed) are injected, they interact with the host’s immune system and, by altering the proteins expressed on immune cells (macrophages, natural killer cells and T cells) can boost the immune response. That in turn can act to kill tumour cells. It’s a general ‘immunomodulatory’ effect. Dalgleish describes it as “rather like depth-charging the immune system which has been sent to sleep”. Well, giving it a prod at least.
Inactivating bugs (bacteria) and waking up the immune system.
And a promising effect
The Anglo-Spanish effort used IMM-101 (a heat-killed suspension of a bacterium called Mycobacterium obuense) injected under the skin, which has no significant side-effects. The trial was carried out in patients with advanced pancreatic cancer, a disease with dismal prognosis, and IMM-101 immunotherapy was combined with the standard chemotherapy drug (gemcitabine). IMM-101increased survival from a median of 4.4 months to 7 months with some patients living for more than a year and one for nearly three years.
Although the trial numbers are small as yet, this is a very exciting advance because it looks as though immunotherapy may be able to control one of the most serious of cancers in which its incidence nearly matches its mortality.
Dalgleish, A. et al. (2016). Randomised, open-label, phase II study of gemcitabine with and without IMM-101 for advanced pancreatic cancer. British Journal of Cancer doi: 10.1038/bjc.2016.271.