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Title: Inducing dendritic growth in cultured sympathetic neurons.

Authors: Ghogha, Atefeh; Bruun, Donald A; Lein, Pamela J

Published In J Vis Exp, (2012)

Abstract: The shape of the dendritic arbor determines the total synaptic input a neuron can receive (1-3), and influences the types and distribution of these inputs (4-6). Altered patterns of dendritic growth and plasticity are associated with impaired neurobehavioral function in experimental models (7), and are thought to contribute to clinical symptoms observed in both neurodevelopmental disorders (8-10) and neurodegenerative diseases (11-13). Such observations underscore the functional importance of precisely regulating dendritic morphology, and suggest that identifying mechanisms that control dendritic growth will not only advance understanding of how neuronal connectivity is regulated during normal development, but may also provide insight on novel therapeutic strategies for diverse neurological diseases. Mechanistic studies of dendritic growth would be greatly facilitated by the availability of a model system that allows neurons to be experimentally switched from a state in which they do not extend dendrites to one in which they elaborate a dendritic arbor comparable to that of their in vivo counterparts. Primary cultures of sympathetic neurons dissociated from the superior cervical ganglia (SCG) of perinatal rodents provide such a model. When cultured in defined medium in the absence of serum and ganglionic glial cells, sympathetic neurons extend a single process which is axonal, and this unipolar state persists for weeks to months in culture (14,15). However, the addition of either bone morphogenetic protein-7 (BMP-7) (16,17) or Matrigel (18) to the culture medium triggers these neurons to extend multiple processes that meet the morphologic, biochemical and functional criteria for dendrites. Sympathetic neurons dissociated from the SCG of perinatal rodents and grown under defined conditions are a homogenous population of neurons (19) that respond uniformly to the dendrite-promoting activity of Matrigel, BMP-7 and other BMPs of the decapentaplegic (dpp) and 60A subfamilies (17,18,20,21). Importantly, Matrigel- and BMP-induced dendrite formation occurs in the absence of changes in cell survival or axonal growth (17,18). Here, we describe how to set up dissociated cultures of sympathetic neurons derived from the SCG of perinatal rats so that they are responsive to the selective dendrite-promoting activity of Matrigel or BMPs.

PubMed ID: 22473299 Exiting the NIEHS site

MeSH Terms: No MeSH terms associated with this publication

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