USC Keck School of Medicine – Neurovascular Research Group
Leading Investigators in Blood-Brain Barrier Function, Pericytes, and Neurovascular Contributions to Neurodegenerative Diseases

USC Keck School of Medicine – Neurovascular Research Group (leading investigators in blood-brain barrier function, pericytes, and neurovascular contributions to neurodegenerative diseases)
Challenge

Pericytes—key regulators of the neurovascular unit—play critical roles in blood-brain barrier integrity, cerebral blood flow, and neuroinflammation, with dysfunction implicated in Alzheimer’s, stroke, and other neurovascular diseases. However, fragmented literature and reductionist models failed to provide a comprehensive, testable systems-level understanding of pericyte molecular pathways and their interconnections with endothelial cells, astrocytes, and neurons. Rigorous peer-reviewed validation of any integrative model was lacking, hindering translational progress.

How CytoSolve Helped

USC researchers collaborated with CytoSolve to validate CytoSolve’s computational systems architecture of pericytes in neurovascular disease. CytoSolve’s platform:

  • Integrated thousands of peer-reviewed molecular pathways governing pericyte contractility, signaling, adhesion, and crosstalk within the neurovascular unit.
  • Generated quantitative, dynamic predictions of pericyte behavior under disease-relevant conditions (e.g., hypoxia, amyloid exposure).
  • Provided a computable framework for hypothesis testing against experimental data.

Key Benefits Realized

  • Rigorous Peer-Reviewed Validation
    Achieved independent validation of the full-scale pericyte systems architecture through direct comparison with USC’s in vitro and in vivo experimental results.
  • Revealed Hidden Pathway Interconnections
    Confirmed previously unrecognized feedback loops and crosstalk mechanisms driving pericyte dysfunction in neurovascular pathology.
  • High-Impact Publication
    Validation evidence enabled a landmark peer-reviewed publication in Nature Neuroscience, establishing the model as a new standard for neurovascular research.
  • Accelerated Translational Insights
    Prioritized mechanistic targets for therapeutic intervention, informing ongoing studies on blood-brain barrier repair and neuroprotection.

Outcome

USC Keck School of Medicine, in collaboration with CytoSolve, completed the first peer-reviewed validation of a comprehensive systems architecture of pericytes in neurovascular diseases. This milestone culminated in a major publication in Nature Neuroscience, elevating the field’s understanding of pericyte-driven pathology and providing a validated, predictive tool for future drug discovery and mechanistic studies in Alzheimer’s, stroke, and related disorders. This collaboration underscores how CytoSolve’s infrastructure delivers scientifically robust, peer-validated systems architectures—driving high-impact publications and advancing precision medicine in complex neurovascular conditions. This collaboration highlights how CytoSolve’s infrastructure reveals the true multicellular, mechanobiological systems architecture of disease, empowering cutting-edge experimental labs to translate computation into transformative discoveries.