SCO-spondin derived peptide NX210 induces neuroprotection in vitro and promotes fiber regrowth and functional recovery after spinal cord injury.

In mammals, the limited regenerating potential of the central nervous system (CNS) in adults contrasts with the plasticity of the embryonic and perinatal periods. SCO (subcommissural organ)-spondin is a protein secreted early by the developing central nervous system, potentially involved in the development of commissural fibers. SCO-spondin stimulates neuronal differentiation and neurite growth in vitro.

The lengthening of a giant protein: when, how, and why?

Subcommissural organ (SCO)-spondin is a giant glycoprotein of more than 5000 amino acids found in Vertebrata, expressed in the central nervous system and constitutive of Reissner's fiber. For the first time, in situ hybridization performed on zebrafish (Danio rerio) embryos shows that the gene encoding this protein is expressed transitionally in the floor plate, the ventral midline of the neural tube, and later in the diencephalic third ventricle roof, the SCO. The modular organization of the protein in Echinodermata (Strongylocentrotus purpuratus), Urochordata (Ciona savignyi and C.

The secretory ependymal cells of the subcommissural organ: which role in hydrocephalus?

Ependyma in the central nervous system gives rise to several specialized cell types, including the secretory ependymal cells located in the subcommissural organ. These elongated cells show large cisternae in their cytoplasm, which are filled with material secreted into the cerebrospinal fluid and toward the leptomeningeal spaces. A specific secretion of the subcommissural organ was named SCO-spondin, regarding its marked homology with developmental proteins of the thrombospondin superfamily (presence of thrombospondin type 1 repeats).

The complex multidomain organization of SCO-spondin protein is highly conserved in mammals.

The multidomain organization of SCO-spondin protein is a special feature of the chordate phylum. This protein is expressed in the central nervous system (CNS) from the time a dorsal neural tube appears in the course of phylogenetical evolution. With the advance of the systematic whole genomes sequencing, we were able to determine the SCO-spondin amino acid sequence in four mammalian species using the Wise2 software.

A deficiency in RFX3 causes hydrocephalus associated with abnormal differentiation of ependymal cells.

Ciliated ependymal cells play central functions in the control of cerebrospinal fluid homeostasis in the mammalian brain, and defects in their differentiation or ciliated properties can lead to hydrocephalus. Regulatory factor X (RFX) transcription factors regulate genes required for ciliogenesis in the nematode, drosophila and mammals. We show here that Rfx3-deficient mice suffer from hydrocephalus without stenosis of the aqueduct of Sylvius.