Odette Cancer Program
SRI programs
Senior scientist
Sunnybrook Health Sciences Centre
2075 Bayview Ave., Room M7 619
Toronto, ON
M4N 3M5
Administrative Assistant: Sue Santillo
Phone: 416-480-6100 ext. 63914
Email: sue.santillo@sunnybrook.ca
Education:
- B.Sc., 1987, zoology, University of Maryland, U.S.
- PhD, 1991, genetics and immunology, George Washington University, U.S.
Appointments and Affiliations:
- Senior scientist, Biological Sciences, Odette Cancer Research Program, Sunnybrook Research Institute
- Chair and professor, department of immunology, University of Toronto
- Fellow, Trinity College, University of Toronto
- Member, collaborative graduate program in developmental biology
- Canada Research Chair in Developmental Immunology, Tier 1
Research Focus:
- Hematopoiesis
- Lymphocyte differentiation
- T cell development
- Thymus biology
- Notch signaling
Research Summary:
The process of differentiation within the immune system allows a small population of continuously self-renewing stem cells to generate a remarkably diverse range of mature progeny. Understanding how molecular signals in developing tissues induce commitment and differentiation of stem cells is a fundamental question of developmental biology. In the context of blood cells, this question also has therapeutic implications in the treatment of leukemia, which arises from dysregulated differentiation.
In the context of the immune system, the thymus provides a model system to study the mechanisms controlling tissue-specific differentiation events and lineage commitment pathways. Hematopoietic progenitor cells from the bone marrow migrate to the thymus where they receive the necessary signals that mediate their commitment and differentiation into T lymphocytes. The absolute requirement for the thymus in the generation of T cells from hematopoietic progenitors has been recognized for over 50 years. However, the precise molecular interactions responsible for this thymic requirement remained elusive.
We contributed to the identification of these molecular interactions by demonstrating that a bone marrow-derived stromal cell line (OP9) ectopically expressing Delta-like-1 (OP9-DL1), a Notch receptor ligand, gains the ability to induce the full differentiation of T cells from hematopoietic stem cells (HSC). Interestingly, expression of Delta-like-1 or Delta-like-4 by OP9 cells results in a complete switch in lymphocyte lineage commitment, as control OP9 cells allow for robust B cell differentiation, while OP9-DL cells support only T cell differentiation from HSCs.
We extended these findings by showing that pluripotent stem cells (PSCs) can also be induced to differentiate into functional T cells in vitro by coculture on OP9-DL cells. Thus, our findings show that Delta-like/Notch interactions occurring within the thymus underpin its unique ability to induce the lineage commitment and differentiation of T cells. With this in mind, our focus is on identifying the molecular mechanisms that govern progenitor lymphocyte lineage commitment, T cell development and function, and Delta-like-4 expression by thymic stromal cells. We recently developed a stromal cell-free system for the induction of T cell differentiation from defined sources of stem cells, which led to the creation of Notch Therapeutics (Notchtx.com). We are also developing strategies to adapt our current model system for the induction of T cell differentiation from defined sources of human stem cells. One important potential application of our work will be the directed generation of human progenitors T cells to facilitate immune regeneration of T cells.
Selected Publications:
See current publications list at PubMed.
Related News and Stories:
- Research team's work on T cells inches toward clinic: Basic science discovery that early T cells, made from stem cells, can develop into mature T cells could change treatment of people with deficient immune systems (Dec. 11, 2019)
- Scientist discovers T cell development starts in the bone marrow: Research team’s finding disproves the long-held belief that T cell development begins in the thymus (Nov. 6, 2019)
- Discovering the cancer-fighting potential of gamma delta T cells: Collaboration between scientists at Sunnybrook Research Institute and the University of Chicago reveals the ability of an often-overlooked cell to recognize and destroy melanoma antigen-expressing cells (Dec. 14, 2018)
- Ask a scientist: "What is your guilty pleasure?" (SRI Magazine, 2018)
- Scientists secure investment for groundbreaking trials on stem cell-based therapies: Funds will propel novel regenerative medicine approaches closer to the clinic (May 14, 2018)
- Shepherding regenerative medicine to new territory: A scientist at Sunnybrook Research Institute prepares to bring his work on immunotherapy to the clinic (Nov. 23, 2017)
- Adding a pivotal piece to the human development puzzle: SRI scientist uncovers significance of HEB gene (Sept. 12, 2017)
- Firm foundation: Researchers make it through intense review process to secure stable funding (Aug. 11, 2017)
- Designing custom cells to improve regenerative medicine: Sunnybrook-led team receives funding for transformative project (Sept. 9, 2016)
- One gene, three mutations, two diseases: Study provides new understanding of biology behind immunodeficiency disorders (Aug. 2, 2016)
- Poster competition turns on the heat: Summer students showcase diverse research projects (Aug. 26, 2015)
- Uncommon hospitality: International student seizes learning opportunity (Aug. 14, 2013)
- Competition spurs high scores: Scientists secure funding with federal agency (July 25, 2013)
- Continuing education: School's out, but learning doesn't stop for summer students at SRI (May 29, 2013)
- Allies in Academia: SRI scientists helm departments at Canada's largest university (SRI Magazine, 2012)
- Scientists score high with operating funds: CIHR invests in eight researchers in its latest competition (May 30, 2012)
- SRI scientist appointed department head: Faculty of medicine names new chair of immunology (Apr. 24, 2012)
- Canada Research Chairs renewed: Award honours outstanding researchers who are recognized as world leaders in their fields (Mar. 15, 2012)
- CV: Dr. Juan Carlos Zúñiga-Pflücker (Dec. 1, 2011)
- Cited! (SRI Magazine, 2008)
- Scientists find way to coax human stem cells into becoming T cells (Aug. 4, 2009)
- CIHR taps SRI PIsn (Aug. 26. 2008)
- Model regeneration (Sunnybrook Research Institute Research Report, 2004–2006)
- There's art in this science (Sunnybrook Research Institute Research Report, 2004–2006)
- Right turns (Sunnybrook Research Institute Research Report, 2004–2006)
- Competition for CIHR funding grows (March 2, 2006)
- Taking it up a Notch (Oct. 28, 2005)
- Deconstructing T cell development (Sunnybrook Research Institute Research Report, 2002–2004)
Related Links: