Lisbeth S. Laursen scite author profile

The understanding of how adhesion molecules mediate the axon-glial interactions in the CNS that ensure target-dependent survival of oligodendrocytes and initiate myelination remains incomplete. Here, we investigate how signals from adhesion molecules can be integrated to regulate these initial steps of myelination. We first demonstrate that the Ig superfamily molecule contactin is associated in oligodendrocytes with integrins, extracellular matrix receptors that regulate target-dependent survival by amplification of growth factor signaling. This amplification is inhibited by small interfering RNA-mediated knockdown of contactin in oligodendrocytes. In contrast, the presence of L1-Fc, the extracellular portion of a contactin ligand expressed on axons, enhanced survival and additionally promoted myelination in cocultures of neurons and oligodendrocytes. We further demonstrate that the signals from contactin and integrin are integrated by differential phosphorylation of the Src family kinase Fyn. Integrin induced dephosphorylation of the inhibitory Tyr-531, whereas contactin increased phosphorylation of both Tyr-531 and the activating Tyr-420. The combined effect is an enhanced activity of Fyn and also a dynamic regulation of the phosphorylation/dephosphorylation balance of Fyn, as required for normal cell adhesion and spreading. We conclude, therefore, that a novel integrin/contactin complex coordinates signals from extracellular matrix and the axonal surface to regulate both oligodendrocyte survival and myelination by controlling Fyn activity.

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Stanniocalcin-2 Inhibits Mammalian Growth by Proteolytic Inhibition of the Insulin-like Growth Factor Axis

Jepsen¹,

Kløverpris²,

Mikkelsen³

et al. 2015

Journal of Biological Chemistry

126

125

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Background:The biological function and biochemical activity of mammalian stanniocalcin-2 are unknown. Results: Stanniocalcin-2 inhibits proteolytic release of insulin-like growth factor (IGF), and its ability to cause growth retardation upon transgenic overexpression in mice depends on its proteinase inhibitory function. Conclusion: Stanniocalcin-2 is a novel component of the IGF axis. Significance: Altered stanniocalcin-2 expression may affect IGF signaling under pathological conditions.

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Lisbeth S. Laursen

Pregnancy-associated Plasma Protein-A2 (PAPP-A2), a Novel Insulin-like Growth Factor-binding Protein-5 Proteinase

Pregnancy‐associated plasma protein‐A (PAPP‐A) cleaves insulin‐like growth factor binding protein (IGFBP)‐5 independent of IGF: implications for the mechanism of IGFBP‐4 proteolysis by PAPP‐A

Expression of Recombinant Human Pregnancy-associated Plasma Protein-A and Identification of the Proform of Eosinophil Major Basic Protein as Its Physiological Inhibitor

An Integrin–Contactin Complex Regulates CNS Myelination by Differential Fyn Phosphorylation

Stanniocalcin-2 Inhibits Mammalian Growth by Proteolytic Inhibition of the Insulin-like Growth Factor Axis

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