AI Article Synopsis
- Stem cell transplantation is a potential therapy for stroke that could be applied at various times post-stroke, but challenges remain regarding the identification of effective donor stem cells and their mechanisms of action.
- The study highlights ProtheraCytes, a type of CD34+ cells from human blood and umbilical cords, which have shown promise in a clinical trial and are found to secrete growth factors that aid in blood vessel formation.
- Experimental results in rats demonstrate that intranasal delivery of ProtheraCytes after a stroke significantly improved recovery and reduced brain damage, with indicators suggesting the role of specific extracellular vesicles (CD63+ EVs) in promoting regeneration and reducing inflammation.
Article Abstract
Stem cell transplantation offers a promising therapy that can be administered days, weeks, or months after a stroke. We recognize 2 major mitigating factors that remain unresolved in cell therapy for stroke, notably: (1) well-defined donor stem cells and (2) mechanism of action. To this end, we advance the use of ProtheraCytes, a population of non-adherent CD34+ cells derived from human peripheral blood and umbilical cord blood, which have been processed under good manufacturing practice, with testing completed in a phase 2 clinical trial in post-acute myocardial infarction (NCT02669810). We also reveal a novel mechanism whereby ProtheraCytes secrete growth factors and extracellular vesicles (EVs) that are associated with angiogenesis and vasculogenesis. Our recent data revealed that intranasal transplantation of ProtheraCytes at 3 days after experimentally induced stroke in adult rats reduced stroke-induced behavioral deficits and histological damage up to 28 days post-stroke. Moreover, we detected upregulation of human CD63+ EVs in the ischemic brains of stroke animals that were transplanted with ProtheraCytes, which correlated with increased levels of DCX-labeled neurogenesis and VEGFR1-associated angiogenesis and vasculogenesis, as well as reduced Iba1-marked inflammation. Altogether, these findings overcome key laboratory-to-clinic translational hurdles, namely the identification of well-characterized, clinical grade ProtheraCytes and the elucidation of a potential CD63+ EV-mediated regenerative mechanism of action. We envision that additional translational studies will guide the development of clinical trials for intranasal ProtheraCytes allografts in stroke patients, with CD63 serving as a critical biomarker.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11555476 | PMC |
| http://dx.doi.org/10.1093/stcltm/szae072 | DOI Listing |
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