Aptamer–Protein Interactions: From Regulation to Biomolecular Detection

The expression of peripherin, an intermediate filament protein, had been shown by biochemical methods to be localized in the neurons of the PNS. Using immunohistochemical methods, we analyzed this expression more extensively during the development of the rat and compared it with that of the low-molecular-mass neurofilament protein (NF-L), which is expressed in every neuron of the CNS and PNS. The immunoreactivity of NF-L is first apparent at the 25-somite stage (about 11 d) in the ventral horn of the spinal medulla and in the posterior part of the rhombencephalon. The immunoreactivity of peripherin appears subsequently, first colocalized with that of NF-L. Both immunoreactivities then spread out along rostral and caudal directions, but whereas the immunoreactivity of NF-L finally becomes noticeable in every part of the nervous system, that of peripherin remains localized to (1) the motoneurons of the ventral horn of the spinal medulla; (2) the autonomic ganglionic and preganglionic neurons; and (3) the sensory neurons. These results demonstrate that, in the neurons that originate from migrating neural crest cells, the immunoreactivities of peripherin and of NF-L become apparent only when they have reached their destination. The results also show that peripherin is expressed more widely than has been previously observed and that this protein occurs in neuronal populations from different lineages (neural tube, neural crest, placodes) with different functions (motoneurons, sensory and autonomic neurons). The common point of these neurons is that they all have axons lying, at least partly, at the outside of the axis constituted by the encephalon and the spinal medulla; this suggests that peripherin might play a role in the recognition of the axonal pathway through the intermediary of membrane proteins.

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Transplantation of CNS Fragments into the Brain of Shiverer Mutant Mice: Extensive Myelination by Implanted Oligodendrocytes

Lachapelle

et al. 1983

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Solid fragments of olfactory bulb from new-born normal (B6CBA and C57BL6) mice were implanted into new-born shiverer (shi/shi) brains. The shiverer mouse being characterized by the absence of myelin basic protein (MBP), myelination due to implanted oligodendrocytes can be detected in the shiverer brain using an antiserum anti-MBP. Observation of sagittal sections of the host brains revealed very extensive areas of normal myelination from the level of the graft (rostral thalamus) up to the caudal brain (diencephalon, cerebellum, pons). Thus, oligodendrocytes contained in the implant migrate out of the graft over long distances in the host brain, before they differentiate and synthesize myelin. These results raise the question of the behaviour of oligodendrocytes in normal development.

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Survival and differentiation of oligodendrocytes from neural tissue transplanted into new-born mouse brain

Gumpel

Baumann

Raoul

et al. 1983

Neuroscience Letters

134

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Repair of a myelin lesion by Schwann cells transplanted in the adult mouse spinal cord

Evercooren

Gansmüller

Duhamel

et al. 1992

Journal of Neuroimmunology

117

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Transplantation of Human Embryonic Oligodendrocytes into Shiverer Brain^a

Gumpel¹,

Lachapelle²,

Gansmüller³

et al. 1987

Annals of the New York Academy of Sciences

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Schwann Cell Differentiation in vitro: Extracellular Matrix Deposition and Interaction

et al. 1986

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Neonatal rat Schwann cells isolated in culture proliferate slowly and do not form a basement membrane although they express laminin continuously. We demonstrate here that isolated Schwann cells express other basement membrane components, including entactin and heparan sulfate proteoglycan. Treatment with ascorbate, and to a lesser extent with cyclic adenosine 3'',5''-monophosphate, modulates the synthesis of extracellular matrix components by cultured Schwann cells. After this treatment, fibronectin and collagen type IV are detected on the Schwann cell surface, which form, with the other components, a membrane-bound extracellular matrix. Electron microscopy shows that these elements are organized in a filamentous matrix which resembles a basement membrane and may be a precursor form of a basement membrane. We also show the effect of complete basement membrane matrices on Schwann cell behavior in culture. These matrices support Schwann cell proliferation in both serum-containing and serum-free media. The extracellular matrix from endothelial cells mimics fibronectin and induces a flat phenotype whereas the reconstituted basement membrane gel from the EHS tumor mimics laminin and allows an elongated phenotype. Thus, the basement membrane matrices interact with Schwann cells in vitro and may play an important role in Schwann cell proliferation in vivo.

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Transplantations of Newborn CNS Fragments into the Brain of Shiverer Mutant Mice: Extensive Myelination by Transplanted Oligodendrocytes

et al. 1986

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As already demonstrated by immunohistochemistry, oligodendrocytes from newborn normal mice are able to survive, migrate and myelinate when transplanted into the newborn shiverer (shi/shi) mouse brain. The survival of the grafted cells and their interaction with the host brain were studied at different times after transplantation. Normal myelin was found in the host parenchyma basing our observation on the morphological difference between normal and shiverer myelin: the shiverer myelin deprived of major dense line appears uncompacted as compared to normal myelin. Myelin formed by transplanted oligodendrocytes was detected around the graft and, after immuno-histochemical prelocalization, at considerable distance from the site of implantation. Normal and shiverer myelin were detected around axons adjacent to each other or around the same axon. These results confirm and extend at the ultrastructural level our previous data obtained by immunohistochemistry.

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Hoechst 33342 a suitable fluorescent marker for Schwann cells after transplantation in the mouse spinal cord

Evercooren

Gansmüller

Clérin

et al. 1991

Neuroscience Letters

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M. Gumpel

Differential expression of two neuronal intermediate-filament proteins, peripherin and the low-molecular-mass neurofilament protein (NF-L), during the development of the rat

Transplantation of CNS Fragments into the Brain of Shiverer Mutant Mice: Extensive Myelination by Implanted Oligodendrocytes

Survival and differentiation of oligodendrocytes from neural tissue transplanted into new-born mouse brain

Repair of a myelin lesion by Schwann cells transplanted in the adult mouse spinal cord

Transplantation of Human Embryonic Oligodendrocytes into Shiverer Brain^a

Schwann Cell Differentiation in vitro: Extracellular Matrix Deposition and Interaction

Transplantations of Newborn CNS Fragments into the Brain of Shiverer Mutant Mice: Extensive Myelination by Transplanted Oligodendrocytes

Hoechst 33342 a suitable fluorescent marker for Schwann cells after transplantation in the mouse spinal cord

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M. Gumpel

Differential expression of two neuronal intermediate-filament proteins, peripherin and the low-molecular-mass neurofilament protein (NF-L), during the development of the rat

Transplantation of CNS Fragments into the Brain of Shiverer Mutant Mice: Extensive Myelination by Implanted Oligodendrocytes

Survival and differentiation of oligodendrocytes from neural tissue transplanted into new-born mouse brain

Repair of a myelin lesion by Schwann cells transplanted in the adult mouse spinal cord

Transplantation of Human Embryonic Oligodendrocytes into Shiverer Braina

Schwann Cell Differentiation in vitro: Extracellular Matrix Deposition and Interaction

Transplantations of Newborn CNS Fragments into the Brain of Shiverer Mutant Mice: Extensive Myelination by Transplanted Oligodendrocytes

Hoechst 33342 a suitable fluorescent marker for Schwann cells after transplantation in the mouse spinal cord

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Resources

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Transplantation of Human Embryonic Oligodendrocytes into Shiverer Brain^a