Re-programming innate immune cells to fight tuberculosis
MONTREAL – Tuberculosis (TB), an infectious disease which attacks the lungs, claims someone’s life every 20 seconds and 1.5 million lives worldwide every year. A cure has eluded scientists for more than a century but, now, a Montreal team of researchers may have discovered a new weapon to combat this global killer. The team is re-programing - or ‘training’ - immune cells to kill TB. These groundbreaking findings are published online today in the journal Cell.
“The current available BCG-vaccine is not effective. The current antibiotic treatments are toxic and have resulted in generating TB-resistance strains. The antibiotics era is approaching its end; we are in serious trouble with this bug if we don’t investigate an alternative approach,” says lead corresponding author Dr. Maziar Divangahi, a pulmonary immunologist and expert in immunity to TB at the Research Institute of the McGill University Health Centre (RI-MUHC).
Dr. Eva Kaufmann and Dr. Maziar Divangahi
Working with Université de Montréal geneticist Dr. Luis Barreiro and his team at the UdeM-affiliated CHU Sainte-Justine Research Centre, the researchers were able to dissect and identify the genomic pathways involved in triggering an enhanced innate immune response against TB.
Up until now, efforts in generating a vaccine against TB have been mainly focused on T cells (cells from the adaptive arm of our immune response with memory capacity), with very disappointing outcomes in both pre-clinical as well as clinical trials. Now, Dr. Divangahi’s and Barreiro’s teams have shown for the first time that when BCG, is administered to mice in a way that enables access to the bone marrow, it can reprogram stem cells. These primitive cells are responsible for generating all immune cells including the innate arm of our immune response, the first line of defense in the war against TB.
A cell army trained to eradicate TB
The innate system - via stem cells in the bone marrow - mobilizes macrophages, which are a type of white blood cell that swallows and kills invading bacteria like Mycobacterium tuberculosis (Mtb) that causes TB. They are the immune system’s first responders.
However, Mtb disarms the killing program of macrophages and uses them as a kind of “sanctuary” to replicate and grow. Dr. Divangahi’s team looked at that process and aimed to find out how to boost the TB-killing efficiency of macrophages. With this goal in mind, Dr. Divangahi’s team vaccinated mice with BCG and in a series of experiments observed that in the bone marrow BCG was able to reprogram or “educate” the stem cells to proliferate and generate TB slaying macrophages.
“Although we demonstrated that BCG educates stem cells to generate trained immunity, we had no idea about the molecular mechanisms that were involved in this protective pathway,” says Dr. Divangahi, who is also an Associate Director of the Translational Research in Respiratory Diseases Program at the RI-MUHC and an Associate Professor of Medicine at McGill University.
This is when Dr. Divangahi initiated collaboration with Dr. Barreiro and his team at Sainte-Justine. With Dr. Barreiro’s team, they aimed to dissect the genomic pathways involved in triggering the enhanced innate immune response against TB.
Dr. Barreiro’s team demonstrated how the protective programs were imprinted and transmitted from stem cells all the way to macrophages. In addition, they identified the genetic imprint of the protective pathways in educated macrophages that were “turned on” to kill the TB pathogen. “It's really about finding different ways to develop better vaccines, ones that will harness the power of macrophages and finally put the body's innate immune memory to use” says Dr. Barreiro.
"The current vaccine - BCG - was introduced in 1921 and has failed to control the tuberculosis epidemic. This work will completely re-orient efforts to develop a new vaccine for TB,” adds Dr. Marcel Behr, director of the McGill International TB Centre in Montreal.
Although researchers and colleagues are extremely hopeful that this novel approach will generate an effective vaccine against TB and potentially other infectious diseases, Dr. Divangahi added a word of caution. “This is only the tip of the iceberg and further research is clearly required to fully harness the power of stem cells in immunity against infectious diseases.”
Click here for access to the article: http://www.cell.com/cell/fulltext/S0092-8674(17)31511-8
About the study
"BCG educates hematopoietic stem cells to generate protective innate immunity against tuberculosis," by Eva Kaufmann, Joaquin Sanz, Jonathan L. Dunn, Nargis Khan, Laura E. Mendonça, Alain Pacis, Fanny Tzelepis, Erwan Pernet, Anne Dumaine, Jean-Christophe Grenier, Florence Mailhot-Léonard, Eisha Ahmed, Jad Belle, Rickvinder Besla, Bruce Mazer, Irah L. King, Anastasia Nijnik, Clinton S. Robbins, Luis B. Barreiro, and Maziar Divangahi, was published Jan. 11, 2018, in Cell. DOI: 10.1016/j.cell.2017.12.031
This study was funded by the Canadian Institutes of Health Research.
About the Research Institute of the MUHC
The Research Institute of the McGill University Health Centre (RI-MUHC) is a world-renowned biomedical and healthcare research centre. The Institute, which is affiliated with the Faculty of Medicine of McGill University, is the research arm of the McGill University Health Centre (MUHC) – an academic health centre located in Montreal, Canada, that has a mandate to focus on complex care within its community. The RI-MUHC supports over 420 researchers and close to 1,200 research trainees devoted to a broad spectrum of fundamental, clinical and health outcomes research at the Glen and the Montreal General Hospital sites of the MUHC. Its research facilities offer a dynamic multidisciplinary environment that fosters collaboration and leverages discovery aimed at improving the health of individual patients across their lifespan. The RI-MUHC is supported in part by the Fonds de recherche du Québec – Santé (FRQS). www.rimuhc.ca
About the CHU Sainte-Justine Research Centre
CHU Sainte-Justine Research Centre is a leading mother-child research institution affiliated with Université de Montréal. It brings together more than 200 research investigators, including over 90 clinicians, as well as 350 graduate and post-graduate students focused on finding innovative means of prevention, faster and less invasive treatments, and personalized approaches to medicine. The Centre is part of CHU Sainte-Justine, which is the largest mother-child hospital in Canada and second most important pediatric hospital in North America. https://www.chusj.org
About McGill University
Founded in Montreal, Quebec, in 1821, McGill is a leading Canadian post-secondary institution. It has two campuses, 10 faculties, 12 professional schools, 300 programs of study and almost 41,000 students, including more than 9,700 graduate students. McGill attracts students from over 150 countries around the world, its 12,000 international students making up 30% per cent of the student body. Over half of McGill students claim a first language other than English, including approximately 20% of our students who say French is their mother tongue. https://www.mcgill.ca
About Université de Montréal
Deeply rooted in Montreal and dedicated to its international mission, Université de Montréal ranks among the top 1% of the world’s best universities and is considered the top comprehensive university in the Francophonie. Founded in 1878, UdeM today has 15 faculties and schools, and together with its two affiliated schools, HEC Montréal and Polytechnique Montréal, constitutes the largest centre of higher education and research in Quebec and one of the most important in North America. It has 2,800 professors and researchers and more than 66,000 students. www.umontreal.ca
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