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W2542595384 endingPage "130" @default.
W2542595384 startingPage "120" @default.
W2542595384 abstract "Despite therapeutic advances, neurodegenerative diseases and disorders remain some of the leading causes of mortality and morbidity in the United States. Therefore, cell-based therapies to replace lost or damaged neurons and supporting cells of the central nervous system (CNS) are of great therapeutic interest. To that end, human pluripotent stem cell (hPSC) derived neural progenitor cells (hNPCs) and their neuronal derivatives could provide the cellular ‘raw material’ needed for regenerative medicine therapies for a variety of CNS disorders. In addition, hNPCs derived from patient-specific hPSCs could be used to elucidate the underlying mechanisms of neurodegenerative diseases and identify potential drug candidates. However, the scientific and clinical application of hNPCs requires the development of robust, defined, and scalable substrates for their long-term expansion and neuronal differentiation. In this study, we rationally designed a vitronectin-derived peptide (VDP) that served as an adhesive growth substrate for the long-term expansion of several hNPC lines. Moreover, VDP-coated surfaces allowed for the directed neuronal differentiation of hNPC at levels similar to cells differentiated on traditional extracellular matrix protein-based substrates. Overall, the ability of VDP to support the long-term expansion and directed neuronal differentiation of hNPCs will significantly advance the future translational application of these cells in treating injuries, disorders, and diseases of the CNS." @default.
W2542595384 created "2016-11-04" @default.
W2542595384 creator A5001147496 @default.
W2542595384 creator A5002493783 @default.
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W2542595384 creator A5040750767 @default.
W2542595384 creator A5064393063 @default.
W2542595384 creator A5081739955 @default.
W2542595384 creator A5090549426 @default.
W2542595384 date "2017-01-01" @default.
W2542595384 modified "2023-10-17" @default.
W2542595384 title "A robust vitronectin-derived peptide for the scalable long-term expansion and neuronal differentiation of human pluripotent stem cell (hPSC)-derived neural progenitor cells (hNPCs)" @default.
W2542595384 cites W1484931749 @default.
W2542595384 cites W1525292585 @default.
W2542595384 cites W1602760888 @default.
W2542595384 cites W1618088704 @default.
W2542595384 cites W1834737933 @default.
W2542595384 cites W1845637014 @default.
W2542595384 cites W1861866838 @default.
W2542595384 cites W1965824608 @default.
W2542595384 cites W1966008305 @default.
W2542595384 cites W1970092837 @default.
W2542595384 cites W1971704900 @default.
W2542595384 cites W1988835409 @default.
W2542595384 cites W1989208952 @default.
W2542595384 cites W1989297192 @default.
W2542595384 cites W1989312257 @default.
W2542595384 cites W1990385031 @default.
W2542595384 cites W1996648954 @default.
W2542595384 cites W1997496613 @default.
W2542595384 cites W2009290897 @default.
W2542595384 cites W2011907701 @default.
W2542595384 cites W2012998128 @default.
W2542595384 cites W2016840017 @default.
W2542595384 cites W2023175623 @default.
W2542595384 cites W2025145921 @default.
W2542595384 cites W2025569286 @default.
W2542595384 cites W2028401005 @default.
W2542595384 cites W2033620247 @default.
W2542595384 cites W2034356218 @default.
W2542595384 cites W2036093838 @default.
W2542595384 cites W2038680946 @default.
W2542595384 cites W2045048112 @default.
W2542595384 cites W2046006021 @default.
W2542595384 cites W2046521512 @default.
W2542595384 cites W2047649125 @default.
W2542595384 cites W2048321002 @default.
W2542595384 cites W2053269420 @default.
W2542595384 cites W2055561480 @default.
W2542595384 cites W2058229406 @default.
W2542595384 cites W2058763271 @default.
W2542595384 cites W2060741006 @default.
W2542595384 cites W2069856608 @default.
W2542595384 cites W2079356804 @default.
W2542595384 cites W2081349044 @default.
W2542595384 cites W2081628019 @default.
W2542595384 cites W2082627308 @default.
W2542595384 cites W2082931608 @default.
W2542595384 cites W2086943348 @default.
W2542595384 cites W2087786585 @default.
W2542595384 cites W2090585102 @default.
W2542595384 cites W2090946491 @default.
W2542595384 cites W2091002930 @default.
W2542595384 cites W2091476595 @default.
W2542595384 cites W2093447467 @default.
W2542595384 cites W2098597036 @default.
W2542595384 cites W2099084666 @default.
W2542595384 cites W2101244168 @default.
W2542595384 cites W2104858323 @default.
W2542595384 cites W2116377228 @default.
W2542595384 cites W2125908939 @default.
W2542595384 cites W2128117962 @default.
W2542595384 cites W2131631451 @default.
W2542595384 cites W2136102235 @default.
W2542595384 cites W2136544623 @default.
W2542595384 cites W2137730033 @default.
W2542595384 cites W2138442302 @default.
W2542595384 cites W2140969448 @default.
W2542595384 cites W2141488374 @default.
W2542595384 cites W2146294525 @default.
W2542595384 cites W2150807254 @default.
W2542595384 cites W2151557352 @default.
W2542595384 cites W2153428674 @default.
W2542595384 cites W2156464135 @default.
W2542595384 cites W2157698484 @default.
W2542595384 cites W2161615417 @default.
W2542595384 cites W2162800365 @default.
W2542595384 cites W2165122639 @default.
W2542595384 cites W2166261688 @default.
W2542595384 cites W2167639593 @default.
W2542595384 cites W2191479718 @default.
W2542595384 cites W2255929815 @default.
W2542595384 cites W66655770 @default.
W2542595384 doi "https://doi.org/10.1016/j.actbio.2016.10.037" @default.