Institute of Medical Science, University of Toronto – Armand Keating Lab
World-Leading Group in Mesenchymal Stromal Cell (MSC) Biology, Regenerative Medicine, and Clinical Translation

Institute of Medical Science, University of Toronto – Armand Keating Lab (world-leading group in mesenchymal stromal cell (MSC) biology, regenerative medicine, and clinical translation)
Challenge

Mesenchymal stromal cells (MSCs) hold immense therapeutic promise for immune modulation, tissue repair, and regenerative applications, but efficacy in clinical trials has been inconsistent. The MSC microenvironment—comprising secreted factors, cell–cell interactions, extracellular matrix, and dynamic feedback loops—drives MSC behavior, yet traditional studies offered only fragmented views. A comprehensive, testable systems model of the MSC secretome and niche was needed to explain variability and guide optimization.

How CytoSolve Helped

The Keating Lab collaborated with CytoSolve to validate CytoSolve’s computational systems architecture of the MSC microenvironment. CytoSolve’s platform:

  • Integrated thousands of peer-reviewed molecular pathways governing MSC paracrine signaling, immunomodulation, migration, and niche interactions.
  • Generated quantitative predictions of MSC behavior under varying microenvironmental conditions (e.g., inflammation, hypoxia).
  • Provided a scalable framework for direct experimental validation using the lab’s extensive MSC datasets.

Key Benefits Realized

  • Rigorous Peer-Reviewed Validation
    Achieved independent confirmation of the full-scale MSC microenvironment architecture through alignment with Keating Lab’s in vitro and clinical observations.
  • Revealed Hidden Regulatory Mechanisms
    Uncovered previously unrecognized feedback loops and crosstalk within the MSC secretome that control therapeutic potency and persistence.
  • High-Impact Publication
    Validation results enabled publication in a prestigious Oxford University Press journal, establishing the model as a benchmark for MSC research.
  • Advanced Clinical Translation
    Identified key levers to enhance MSC therapeutic efficacy, informing ongoing trial design and biomarker development.

Outcome

The Armand Keating Lab, in collaboration with CytoSolve, completed the first peer-reviewed validation of a comprehensive systems architecture of the MSC microenvironment. This milestone, published in an Oxford University Press journal, has clarified molecular drivers of MSC function, elevated standards for regenerative medicine research, and accelerated pathways toward more consistent, effective cell therapies. This collaboration illustrates how CytoSolve’s infrastructure delivers peer-validated, predictive systems models—driving high-impact publications and meaningful progress in translational stem cell medicine.