Abstract
During early stages of development, encephalic vesicles are composed by a layer of neuroepithelial cells surrounding a central cavity filled with embryonic cerebrospinal fluid (eCSF). This fluid contains several morphogens that regulate proliferation and differentiation of neuroepithelial cells. One of these neurogenic factors is SCO-spondin, a giant protein secreted to the eCSF from early stages of development. Inhibition of this protein in vivo or in vitro drastically decreases the neurodifferentiation process. Other important neurogenic factors of the eCSF are low density lipoproteins (LDL), the depletion of which generates a 60% decrease in mesencephalic explant neurodifferentiation. The presence of several LDL receptor class A (LDLrA) domains (responsible for LDL binding in other proteins) in the SCO-spondin sequence suggests a possible interaction between both molecules. This possibility was analyzed using three different experimental approaches: (1) Bioinformatics analyses of the SCO-spondin region, that contains eight LDLrA domains in tandem, and of comparisons with the LDL receptor consensus sequence; (2) Analysis of the physical interactions of both molecules through immunohistochemical colocalization in embryonic chick brains and through the immunoprecipitation of LDL with anti-SCO-spondin antibodies; and (3) Analysis of functional interactions during the neurodifferentiation process when these molecules were added to a culture medium of mesencephalic explants. The results revealed that LDL and SCO-spondin interact to form a complex that diminishes the neurogenic capacities that both molecules have separately. Our work suggests that the eCSF is an active signaling center with a complex regulation system that allows for correct brain development.
Highlights
In all vertebrates the central nervous system (CNS) originates from the neural tube, a hollow structure delimited by neuroepithelial cells and filled with embryonic cerebrospinal fluid
Organotypic Cultures of Mesencephalic Neuroectoderm Organotypic cultures of optic tectum were performed as described by Gato et al (2005) and maintained at 37◦C with 5% CO2 for 24 h in the presence of 0.01 mM 5-Bromo2 -deoxyuridine (BrdU; Sigma) and one of the six following media: (i) Dulbecco’s Modified Eagle’s medium (DMEM; Sigma); (ii) Conditioned medium obtained from the supernatant of HH36 subcommissural organ (SCO) culture maintained for 4 days in DMEM
The possible interaction between SCO-spondin and low density lipoproteins (LDL) was analyzed by three different experimental approaches: (1) Bioinformatics analyses of the SCO-spondin region that contains eight LDL receptor class A (LDLrA) domains in tandem and of comparisons with the LDL receptor consensus sequence; (2) Analysis of the physical interactions of both molecules through colocalization in native agarose gels, using immunohistochemical colocalization in embryonic chick brain, and through the coimmunoprecipitation of LDL with SCO-spondin antibodies; and (3) Analysis of functional interactions when these molecules were added to a culture medium of mesencephalic explants
Summary
In all vertebrates the central nervous system (CNS) originates from the neural tube, a hollow structure delimited by neuroepithelial cells and filled with embryonic cerebrospinal fluid (eCSF). Different studies in chick (Gallus gallus) and rat (Rattus norvegicus) embryos found eCSF to promote neural cell differentiation, proliferation, and survival in neuroepithelium explants, this was dependent on the embryonic stage of the eCSF and of the explants analyzed (Lehtinen et al, 2011; Yari et al, 2013; Gato et al, 2014). These studies showed that the eCSF has molecules which provide an essential environment for neuroepithelial cells, as compared to serum and serum-free mediums. It is implied that some eCSF molecules are of non-plasmatic origin and would be directly secreted by neuroepithelial cells (Gato et al, 2005; Salehi and Mashayekhi, 2006; Gato and Desmond, 2009; Martin et al, 2009; Zappaterra and Lehtinen, 2012; Vera et al, 2013)
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