Paracrine and synaptic mechanisms underlying neural stem cell-mediated stroke recovery

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Paracrine and synaptic mechanisms underlying neural stem cell-mediated stroke recovery

Public Abstract:
Stem cell therapy holds promise for the almost million Americans yearly who suffer a stroke. Preclinical data have shown that human neural stem cells (hNSCs) aid recovery after stroke, resulting in a major effort to advance stem cell therapy to the clinic, and we are currently transitioning our hNSC product to the clinic for stroke therapy. In this proposal we will explore how these cells improve lost function. We have already shown that injected hNSCs secrete factors that promote the gross rewiring of the brain, a major component of the spontaneous recovery observed after stroke. We now intend to focus on the connections between neurons, the synapses, which are a critical part of this rewiring process. We aim to quantify the effect of hNSCs on synapse density and function, and explore whether the stem cells secrete restorative synaptogenic factors or form functional synapses with pre-existing neurons. Our pursuit is made possible by our combination of state-of-the-art imaging techniques enabling us to visualize, characterize, and quantify these tiny synaptic structures and their interaction with the hNSCs. Furthermore, by engineering the hNSCs we can identify the factors they secrete in the brain and identify those which modulate synaptic connections. Our proposed studies will provide important insight into how transplanted stem cells induce recovery after stroke, with potential applicability to other brain diseases.
Statement of Benefit to California:
Cerebrovascular stroke is the fourth leading cause of mortality in the United States and a significant source of long-term physical and cognitive disability that has devastating consequences to patients and their families. In California alone, over 9% of adults 65 years or older have had a stroke according to a 2005 study. In the next 20 years the societal toll is projected to amount to millions of patients and 18.8 billion dollars per year in direct medical costs. To date, there is no approved therapeutic agent for the recovery phase after stroke, making the long-term care of stroke patients a tremendous socioeconomic burden that will continue to rise as our aging population increases. Our laboratory and others have demonstrated the promise of stem cell transplantation to treat stroke. We are dedicated to developing human neural stem cells (hNSCs) as a novel neuro-restorative treatment for lost motor function after stroke. The goal of our proposed work is to further understand how transplanted hNSCs improve stroke recovery, as dissecting the mechanism of action of stem cells in the stroke brain will ultimately improve the chance of clinical success. This could potentially provide significant cost savings to California, but more importantly benefit the thousands of Californians and their families who struggle with the aftermath of stroke.