Perry A. Brittis scite author profile

As axons grow past intermediate targets, they change their responsiveness to guidance cues. Local upregulation of receptor expression is involved, but the mechanisms for this are not clear. Here protein synthesis is traced within individual axons by introducing RNAs encoding visualizable reporters. Individual severed axons and growth cones can translate proteins and also export them to the cell surface. As axons reach the spinal cord midline, EphA2 is among the receptors upregulated on at least some distal axon segments. Midline reporter upregulation is recapitulated by part of the EphA2 mRNA 3' untranslated region, which is highly conserved and includes known translational control sequences. These results show axons contain all the machinery for protein translation and cell surface expression, and they reveal a potentially general and flexible RNA-based mechanism for regulation localized within a subregion of the axon.

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Chondroitin Sulfate as a Regulator of Neuronal Patterning in the Retina

Brittis

Canning

Silver

1992

Science

401

272

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Highly sulfated proteoglycans are correlated with axon boundaries in the developing central nervous system which suggests that these molecules affect neural pattern formation. In the developing mammalian retina, gradual regression of chondroitin sulfate may help control the onset of ganglion cell differentiation and initial direction of their axons. Changes induced by the removal of chondroitin sulfate from intact retinas in culture confirm the function of chondroitin sulfate in retinal histogenesis.

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Transmembrane Receptor DCC Associates with Protein Synthesis Machinery and Regulates Translation

Tcherkezian

Brittis

Thomas

et al. 2010

Cell

221

203

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Summary Extracellular signals regulate protein translation in many cell functions. A key advantage of control at the translational level is the opportunity to regulate protein synthesis within specific cellular subregions. However, little is known about mechanisms that may link extracellular cues to translation with spatial precision. Here we show that a transmembrane receptor, DCC, forms a binding complex containing multiple translation components, including eukaryotic initiation factors, ribosomal large and small subunits, and monosomes. In neuronal axons and dendrites DCC colocalizes in particles with translation machinery, and newly synthesized protein. The extracellular ligand netrin promoted DCC-mediated translation and disassociation of translation components. The functional and physical association of a cell surface receptor with the translation machinery leads to a generalizable model for localization and extracellular regulation of protein synthesis, based on a transmembrane translation regulation complex.

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Multiple Factors Govern Intraretinal Axon Guidance: A Time-Lapse Study

Brittis

Silver

1995

Molecular and Cellular Neuroscience

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Unique Changes of Ganglion Cell Growth Cone Behavior Following Cell Adhesion Molecule Perturbations: A Time-Lapse Study of the Living Retina

Brittis

Lemmon

Rutishauser

et al. 1995

Molecular and Cellular Neuroscience

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Perry A. Brittis

Axonal Protein Synthesis Provides a Mechanism for Localized Regulation at an Intermediate Target

Chondroitin Sulfate as a Regulator of Neuronal Patterning in the Retina

Transmembrane Receptor DCC Associates with Protein Synthesis Machinery and Regulates Translation

Multiple Factors Govern Intraretinal Axon Guidance: A Time-Lapse Study

Unique Changes of Ganglion Cell Growth Cone Behavior Following Cell Adhesion Molecule Perturbations: A Time-Lapse Study of the Living Retina

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