5e7l Citations

Structural Basis for Interactions Between Contactin Family Members and Protein-tyrosine Phosphatase Receptor Type G in Neural Tissues.

Nikolaienko RM, Hammel M, Dubreuil V, Zalmai R, Hall DR, Mehzabeen N, Karuppan SJ, Harroch S, Stella SL, Bouyain S
J Biol Chem 291 21335-21349 (2016)
Related entries: 5e4i, 5e4q, 5e4s, 5e52, 5e53, 5e55, 5e5r, 5e5u, 5i99

Cited: 21 times
EuropePMC logo PMID: 27539848

Abstract

Protein-tyrosine phosphatase receptor type G (RPTPγ/PTPRG) interacts in vitro with contactin-3-6 (CNTN3-6), a group of glycophosphatidylinositol-anchored cell adhesion molecules involved in the wiring of the nervous system. In addition to PTPRG, CNTNs associate with multiple transmembrane proteins and signal inside the cell via cis-binding partners to alleviate the absence of an intracellular region. Here, we use comprehensive biochemical and structural analyses to demonstrate that PTPRG·CNTN3-6 complexes share similar binding affinities and a conserved arrangement. Furthermore, as a first step to identifying PTPRG·CNTN complexes in vivo, we found that PTPRG and CNTN3 associate in the outer segments of mouse rod photoreceptor cells. In particular, PTPRG and CNTN3 form cis-complexes at the surface of photoreceptors yet interact in trans when expressed on the surfaces of apposing cells. Further structural analyses suggest that all CNTN ectodomains adopt a bent conformation and might lie parallel to the cell surface to accommodate these cis and trans binding modes. Taken together, these studies identify a PTPRG·CNTN complex in vivo and provide novel insights into PTPRG- and CNTN-mediated signaling.

Articles - 5e7l mentioned but not cited (1)

  1. Structural Basis for Interactions Between Contactin Family Members and Protein-tyrosine Phosphatase Receptor Type G in Neural Tissues. Nikolaienko RM, Hammel M, Dubreuil V, Zalmai R, Hall DR, Mehzabeen N, Karuppan SJ, Harroch S, Stella SL, Bouyain S. J Biol Chem 291 21335-21349 (2016)


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  1. Conserved and Diverse Traits of Adhesion Devices from Siphoviridae Recognizing Proteinaceous or Saccharidic Receptors. Goulet A, Spinelli S, Mahony J, Cambillau C. Viruses 12 E512 (2020)
  2. Contactins in the central nervous system: role in health and disease. Chatterjee M, Schild D, Teunissen CE. Neural Regen Res 14 206-216 (2019)
  3. Genetics and the heart rate response to exercise. van de Vegte YJ, Tegegne BS, Verweij N, Snieder H, van der Harst P. Cell Mol Life Sci 76 2391-2409 (2019)
  4. Keratan sulfate (KS)-proteoglycans and neuronal regulation in health and disease: the importance of KS-glycodynamics and interactive capability with neuroregulatory ligands. Melrose J. J Neurochem 149 170-194 (2019)
  5. Glycosylphosphatidylinositol-Anchored Immunoglobulin Superfamily Cell Adhesion Molecules and Their Role in Neuronal Development and Synapse Regulation. Tan RPA, Leshchyns'ka I, Sytnyk V. Front Mol Neurosci 10 378 (2017)
  6. A Comprehensive Review of Receptor-Type Tyrosine-Protein Phosphatase Gamma (PTPRG) Role in Health and Non-Neoplastic Disease. Boni C, Laudanna C, Sorio C. Biomolecules 12 84 (2022)
  7. Pathophysiology of Trans-Synaptic Adhesion Molecules: Implications for Epilepsy. Gorlewicz A, Kaczmarek L. Front Cell Dev Biol 6 119 (2018)
  8. The Role of the Tumor Suppressor Gene Protein Tyrosine Phosphatase Gamma in Cancer. Boni C, Sorio C. Front Cell Dev Biol 9 768969 (2021)
  9. Latrophilin's Social Protein Network. Burbach JPH, Meijer DH. Front Neurosci 13 643 (2019)
  10. Structure and evolution of neuronal wiring receptors and ligands. Cortés E, Pak JS, Özkan E. Dev Dyn 252 27-60 (2023)

Articles citing this publication (10)



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