J
Jessica M. Pisano
Researcher at Brandeis University
Publications - 5
Citations - 218
Jessica M. Pisano is an academic researcher from Brandeis University. The author has contributed to research in topics: Neural crest & Receptor. The author has an hindex of 4, co-authored 4 publications receiving 214 citations. Previous affiliations of Jessica M. Pisano include Biogen Idec.
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Journal ArticleDOI
Developmental regulation of GDNF response and receptor expression in the enteric nervous system
Dane S. Worley,Jessica M. Pisano,Eugene D. Choi,Lee Walus,Catherine Hession,Richard L. Cate,Michele Sanicola,Susan J. Birren +7 more
TL;DR: It is demonstrated that complex, developmentally regulated, signaling interactions contribute to the GDNF-dependent development of enteric neurons.
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Nerve growth factor collaborates with myocyte-derived factors to promote development of presynaptic sites in cultured sympathetic neurons.
TL;DR: The results argue that multiple target interactions regulate the extent of synapse formation between sympathetic neurons and cardiac cells and suggest that NGF promotes presynaptic development by increasing neuronal contact with myocyte-derived cell surface or matrix-associated factors.
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Postmigratory enteric and sympathetic neural precursors share common, developmentally regulated, responses to BMP2.
TL;DR: Results suggest that additional factors in the environment must collaborate with BMP2 to promote the final noradrenergic phenotype of sympathetic neurons, as measured by lineage-specific changes in the expression of tyrosine hydroxylase and MASH-1.
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Restriction of developmental potential during divergence of the enteric and sympathetic neuronal lineages
TL;DR: The data indicate that the developmental potential of enteric and sympathetic neuroblasts becomes restricted over time and that this restriction takes place not as a consequence of initial neuronal differentiation but during the period of neuronal maturation.
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Neuroprotective Effects of gH625-lipoPACAP in an In Vitro Fluid Dynamic Model of Parkinson’s Disease
Teresa Barra,Anna Paola Falanga,Rosa Bellavita,Jessica M. Pisano,Vincenza Laforgia,Marina Prisco,Stefania Galdiero,Salvatore Valiante +7 more
TL;DR: PACAP neuroprotective effects when delivered by gH625-liposome on MPP+-damaged SH-SY5Y spheroids are demonstrated and demonstrated by functionalized liposomes in a blood–brain barrier fluid dynamic model.