The combination of oral doses of the bacteria and injections with
«Our results clearly demonstrate a significant, although unexpected, role for specific gut bacteria in enhancing the immune system’s response to melanoma and possibly many other tumor types," said study director Thomas Gajewski, MD, PhD, professor of medicine and pathology at the University of Chicago.
«The field has recently recognized close connections between the gut microbiome and the immune system," he said. «This finding provides a novel way to exploit that connection, to improve immunotherapy by selectively modulating intestinal bacteria.»
Checkpoint inhibitors such as ipilimumab, nivolumab and pembrolizumab have had a dramatic impact on treatment of several tumor types, including melanoma, lung cancer, head and neck cancers and others. But only a minority of
Gajewski and colleagues found a similar pattern in the mice they use for cancer research. They noticed that mice purchased from Jackson Laboratory (JAX) tended to have a robust spontaneous immune response to small melanoma tumors implanted under their skin. Mice from Taconic Biosciences (TAC) showed only a weak immune response.
But when the researchers put the mice from both sources in cages together for three weeks, they found that
They confirmed their suspicion by collecting fecal matter from JAX mice and transferring it into the stomachs of TAC mice. It worked. Treated TAC mice were then able to mount a strong immune response and delay tumor growth. The reverse process, transferring fecal bacteria from TAC to JAX mice had no effect.
Next, they compared the effects of bacterial transfer against a checkpoint inhibitor,
So they began searching for the specific bacteria that made the difference. They identified microbes from the digestive tracts of JAX and TAC mice by
When they tested the effects of each group on the mice’s immune systems, one group, the Bifidobacterium, stood out. Within two weeks of oral administration, TAC mice that received just Bifidobacterium species had a marked increase in the
Mice treated just with Bifidobacterium, rather than the full fecal transfer, displayed tumor control comparable to those who received the full mixture. The effect was
Additional tests showed that the Bifidobacterium did not leave the intestine. They appeared to trigger the immune response by interacting with roaming dendritic cells. These scavenger cells detect and process potential threats and present them to the T cells. The researchers suspect that Bifidobacterium colonize a compartment in the intestines. This enables them to interact with the cells that interact with dendritic cells, which activate
There may be other bacteria that also contribute to this process, the researchers note, either positively or negatively. They are investigating bacteria that could influence other immune therapies, such at the
A second
The UChicago study was funded by a Team Science Award from the Melanoma Research Alliance and the National Institutes of Health. Additional authors include Ayelet Sivan, Leticia Corrales, Nathaniel Hubert, Jason Williams, Keston
The University of Chicago Medicine
Communications
950 E. 61st Street, Third Floor
Chicago, IL 60637
Phone (773) 702–0025 Fax (773) 702–3171
http://www.uchospitals.edu/news/2015/
