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Fever, cough, sore throat 鈥� symptoms in the spotlight in the era of COVID-19 鈥� are just some of the tell-tale signs of our body鈥檚 immune system kicking into action against an unwanted intruder. Whether triggered by an infection, an allergen, or a vaccine, immune responses are driven by a complex array of cellular processes that can play out over several days or even weeks.

A lot is known about the overarching processes at play in immune responses. But because of the sheer numbers of variables involved, pinpointing what to focus on to develop treatments or vaccines proves very much like looking for a needle in a haystack. This may now change thanks to a new study by researchers from UU直播 and the US National Cancer Institute (NCI), published recently in . It focused on a fundamental process in the immune system: the role of proteins called cytokines in signalling and kickstarting a body鈥檚 responses.

The crucial role of the messengers

Our immune system is often characterized as a battle. Certain critical white blood cells (called T cells) travel through the bloodstream and lymphatic systems and into tissues, searching for traces of microorganisms and other invaders known as antigens. To avoid attacking healthy cells indiscriminately, T cells circulate until they recognize a specific antigen; only then do they send out messengers in the form of cytokines to activate an alert system and signal that all is not well.

鈥淵ou might think that there are many, very different parameters in the immune response that are crucial 鈥� for instance, the number of T cells produced to fight the invaders might vary, or the number of invaders (antigens) themselves,鈥� explains Paul Fran莽ois, the UU直播 biophysicist who led the data analysis team, which included UU直播 physics PhD students Fran莽ois Bourassa and Thomas Rademaker. 鈥淏ut the big surprise is that, actually, what really matters is antigen strength.鈥�

Crunching numbers helps pinpoint essentials

Until now, it has been difficult to measure antigen strength 鈥� seen in how effectively an antigen triggers T cells to respond 鈥� independently of the quantity of an antigen present in any given experiment.

But by using a data-driven approach, and thanks to the crucial collaboration with the NCI, Fran莽ois and his colleagues have been able to decode the highly variable phenomenon of cytokine production to give a reliable readout of antigen strength. This is potentially very useful for predicting how well a vaccine candidate or immunotherapy drug might work.

To study this phenomenon in detail, the NCI researchers, led by , developed a robotic platform to perform dozens of experiments at once, exposing T cells to various antigens and conditions. Sooraj Achar, a graduate student in the Altan-Bonnet lab, optimized the automated system in order to gather vast amounts of data in a fraction of the time it would have taken to do the same experiments by hand.

鈥淎ssembling a comprehensive map of the dynamics of cytokines generated by T cells in very diverse settings present a challenge and an opportunity to better understand how T cells 鈥渟ee鈥� the antigenic world, and orchestrate immune responses,鈥� pointed out Altan-Bonnet.

The UU直播 members of the team then used machine learning to process the data generated by those experiments, and mathematical models to capture meaningful patterns in the data. This data-driven modelling revealed surprisingly simple rules at the heart of what otherwise might appear to be a highly complex process subject to multiple variables.

A spectrum of immune reactions?

The analysis also showed that patterns of cytokine release carried information about the type of antigen encountered and distinguished six distinct cellular responses rather than the three types usually recognized.

鈥淭his supports the idea that immune responses exist along a spectrum rather than as a binary on-off switch,鈥� adds Fran莽ois. 鈥淭here may be different levels of immune response that can be tuned to the right level of alert depending on the complexity of the situation.鈥�

This new understanding is likely to enhance strategies for immunotherapies that rely on T cells engineered to target the tumors of a patient.

About UU直播

Founded in Montreal, Quebec, in 1821, UU直播 is Canada鈥檚 top ranked medical doctoral university. UU直播 is consistently ranked as one of the top universities, both nationally and internationally. It is a world-renowned institution of higher learning with research activities spanning three campuses, 11 faculties, 13 professional schools, 300 programs of study and over 39,000 students, including more than 10,400 graduate students. UU直播 attracts students from over 150 countries around the world, its 12,000 international students making up 30% of the student body. Over half of UU直播 students claim a first language other than English, including approximately 20% of our students who say French is their mother tongue.