Modified human mesenchymal stromal/stem cells restore cortical excitability after focal ischemic stroke in rats
Barbara Klein, Agnieszka Ciesielska, Patricia Morán Losada, Anna Sato, Sajita Shah-Morales, Jeremy B. Ford, Bryan Higashikubo, Dale Tager, Alexander Urry, Juliane Bombosch, Wei-Cheng Chang, Yaisa Andrews‐Zwilling, Bijan Nejadnik, Zuha Warraich, Jeanne T. Paz
Abstract
Allogeneic modified bone marrow-derived mesenchymal stromal/stem cells (hMSC-SB623 cells) are in clinical development for the treatment of chronic motor deficits after traumatic brain injury and cerebral ischemic stroke. However, their exact mechanisms of action remain unclear. Here, we investigated the effects of this cell therapy on cortical network excitability, brain tissue and peripheral blood at a chronic stage after ischemic stroke in a rat model. One month after focal cortical ischemic stroke, hMSC-SB623 cells or the vehicle solution were injected into the peri-stroke cortex. Starting one-week post-treatment, cortical excitability was assessed ex vivo . hMSC-SB623 cell transplants reduced stroke-induced cortical hyperexcitability, restoring cortical excitability to control levels. Histology of brain tissue revealed an increase of factors relevant to neuroregeneration and synaptic and cellular plasticity. Whole-blood RNA sequencing and serum protein analyses showed that intracortical hMSC-SB623 cell transplantation reversed effects of stroke on peripheral blood factors known to be involved in stroke pathophysiology. Our findings demonstrate that intra-cortical transplants of hMSC-SB623 cells correct stroke-induced circuit disruptions even at the chronic stage, suggesting broad utility as a therapeutic for neurological conditions with network hyperexcitability. Additionally, the transplanted cells exert far-reaching immunomodulatory effects whose therapeutic impact remains to be explored. Klein and colleagues investigated potential mechanisms of action of a mesenchymal stromal cell therapy (hMSC-SB623 cells) that is in clinical development for cerebral stroke. In a rat model, hMSC-SB623 injection into the peri-stroke cortex reverses stroke-induced cortical hyperexcitability, stimulates neural plasticity, and has immunomodulatory effects in peripheral blood.