CDB15:0001163 NTN1 — DCC
Experimentally validated in Human, Mixed species, Rat; Orthology-inferred in Human, Mouse, Frog, Zebrafish, Chicken, Macaque, Pig, Dog, Cow, Chimp, Horse, Marmoset, Sheep, Rat
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Abstract
Netrin binds discrete subdomains of DCC and UNC5 and mediates interactions between DCC and heparin.
The Journal of biological chemistry, 2003; PubMed, Homo sapiens NTN1 — Homo sapiens DCC
ABSTRACT: Netrins are secreted proteins that elicit both attractive and repulsive responses in migrating cells in the central and peripheral nervous systems. Netrins interact with members of two distinct families of transmembrane receptors, represented by DCC (deleted in colorectal cancer) and UNC5. A human netrin fragment (soluble netrin; sNetrin) was purified from an engineered Chinese hamster ovary cell line and used in a pull-down assay to map the interactions between netrin and its receptors. We find that sNetrin binds exclusively to the fifth fibronectin type III repeat of DCC and to each immunoglobulin repeat of UNC5. Both DCC and UNC5 bind to sNetrin with 1:1 stoichiometry in solution, and the minimal receptor fragments behave similarly to larger fragments in cross-linking experiments with purified sNetrin. We find no evidence for formation of a ternary complex between sNetrin and soluble forms of DCC and UNC5. We also find no evidence for an interaction between DCC and heparin and instead demonstrate that a loop on the fifth fibronectin type III repeat of DCC previously implicated in mediating interactions with heparin is important for sNetrin binding. Since netrin binds heparin, our results suggest that interactions between DCC and heparin are probably mediated by netrin.
Amyloid precursor protein regulates netrin-1-mediated commissural axon outgrowth.
The Journal of biological chemistry, 2012; PubMed, Homo sapiens NTN1 — Homo sapiens DCC
ABSTRACT: The multifunctional protein netrin-1 was initially discovered as the main attractive cue for commissural axon guidance by acting through its receptor DCC. Recently, we have shown that netrin-1 also interacts with the orphan transmembrane receptor amyloid precursor protein (APP). APP is cleaved by proteases, generating amyloid-β peptide, the main component of the amyloid plaques that are associated with Alzheimer disease. Our previous work demonstrated that via its interaction with APP, netrin-1 is a negative regulator of amyloid-β production in adult brain, but the biological relevance of APP/netrin-1 interaction under non-pathological conditions was unknown. We show here that during commissural axon navigation, APP, expressed at the growth cone, is part of the DCC receptor complex mediating netrin-1-dependent axon guidance. APP interacts with DCC in the presence of netrin-1 and enhances netrin-1-mediated DCC intracellular signaling, such as MAPK activation. Inactivation of APP in mice is associated with reduced commissural axon outgrowth. Thus, APP functionally acts as a co-receptor for DCC to mediate axon guidance.
Structural Basis for Draxin-Modulated Axon Guidance and Fasciculation by Netrin-1 through DCC.
Neuron, 2018; PubMed, Homo sapiens NTN1 — Homo sapiens DCC
ABSTRACT: Axon guidance involves the spatiotemporal interplay between guidance cues and membrane-bound cell-surface receptors, present on the growth cone of the axon. Netrin-1 is a prototypical guidance cue that binds to deleted in colorectal cancer (DCC), and it has been proposed that the guidance cue Draxin modulates this interaction. Here, we present structural snapshots of Draxin/DCC and Draxin/Netrin-1 complexes, revealing a triangular relationship that affects Netrin-mediated haptotaxis and fasciculation. Draxin interacts with DCC through the N-terminal four immunoglobulin domains, and Netrin-1 through the EGF-3 domain, in the same region where DCC binds. Netrin-1 and DCC bind to adjacent sites on Draxin, which appears to capture Netrin-1 and tether it to the DCC receptor. We propose the conformational flexibility of the single-pass membrane receptor DCC is used to promote fasciculation and regulate axon guidance through concerted Netrin-1/Draxin binding. VIDEO ABSTRACT.
Deleted in Colorectal Cancer (DCC) encodes a netrin receptor.
Cell, 1996; PubMed, Rattus norvegicus Ntn1 — Rattus norvegicus Dcc
ABSTRACT: The guidance of developing axons in the nervous system is mediated partly by diffusible chemoattractants secreted by axonal target cells. Netrins are chemoattractants for commissural axons in the vertebrate spinal cord, but the mechanisms through which they produce their effects are unknown. We show that Deleted in Colorectal Cancer (DCC), a transmembrane protein of the immunoglobulin superfamily, is expressed on spinal commissural axons and possesses netrin-1-binding activity. Moreover, an antibody to DCC selectively blocks the netrin-1-dependent outgrowth of commissural axons in vitro. These results indicate that DCC is a receptor or a component of a receptor that mediates the effects of netrin-1 on commissural axons, and they complement genetic evidence for interactions between DCC and netrin homologs in C. elegans and Drosophila.