In the developing nervous system, Id2 (inhibitor of DNA binding 2, also known as inhibitor of differentiation 2) enhances cell proliferation, promotes tumour progression and inhibits the activity of neurogenic basic helix–loop–helix (bHLH) transcrip- tion factors1,2. The anaphase promoting complex/cyclosome and its activator Cdh1 (APC/CCdh1) restrains axonal growth but the targets of APC/CCdh1 in neurons are unknown3–5. Id2 and other members of the Id family are very unstable proteins that are eliminated as cells enter the quiescent state, but how they are targeted for degradation has remained elusive6,7. Here we show that Id2 interacts with the core subunits of APC/C and Cdh1 in primary neurons. APC/CCdh1 targets Id2 for degradation through a destruction box motif (D box) that is conserved in Id1 and Id4. Depletion of Cdh1 stabilizes Id proteins in neurons, whereas Id2 D-box mutants are impaired for Cdh1 binding and remain stable in cells that exit from the cell cycle and contain active APC/CCdh1. Mutants of the Id2 D box enhance axonal growth in cerebellar granule neurons in vitro and in the context of the cerebellar cortex, and overcome the myelin inhibitory signals for growth. Conversely, activation of bHLH transcription factors induces a cluster of genes with potent axonal inhibitory functions including the gene coding for the Nogo receptor, a key transducer of myelin inhibition. Degradation of Id2 in neurons permits the accumu- lation of the Nogo receptor, thereby linking APC/CCdh1 activity with bHLH target genes for the inhibition of axonal growth. These findings indicate that deregulated Id activity might be useful to reprogramme quiescent neurons into the axonal growth mode.

Degradation of Id2 by the anaphase-promoting complex couples cell cycle exit and axonal growth

Guardavaccaro, Daniele;
2006-01-01

Abstract

In the developing nervous system, Id2 (inhibitor of DNA binding 2, also known as inhibitor of differentiation 2) enhances cell proliferation, promotes tumour progression and inhibits the activity of neurogenic basic helix–loop–helix (bHLH) transcrip- tion factors1,2. The anaphase promoting complex/cyclosome and its activator Cdh1 (APC/CCdh1) restrains axonal growth but the targets of APC/CCdh1 in neurons are unknown3–5. Id2 and other members of the Id family are very unstable proteins that are eliminated as cells enter the quiescent state, but how they are targeted for degradation has remained elusive6,7. Here we show that Id2 interacts with the core subunits of APC/C and Cdh1 in primary neurons. APC/CCdh1 targets Id2 for degradation through a destruction box motif (D box) that is conserved in Id1 and Id4. Depletion of Cdh1 stabilizes Id proteins in neurons, whereas Id2 D-box mutants are impaired for Cdh1 binding and remain stable in cells that exit from the cell cycle and contain active APC/CCdh1. Mutants of the Id2 D box enhance axonal growth in cerebellar granule neurons in vitro and in the context of the cerebellar cortex, and overcome the myelin inhibitory signals for growth. Conversely, activation of bHLH transcription factors induces a cluster of genes with potent axonal inhibitory functions including the gene coding for the Nogo receptor, a key transducer of myelin inhibition. Degradation of Id2 in neurons permits the accumu- lation of the Nogo receptor, thereby linking APC/CCdh1 activity with bHLH target genes for the inhibition of axonal growth. These findings indicate that deregulated Id activity might be useful to reprogramme quiescent neurons into the axonal growth mode.
2006
Ubiquitin; degradation; axon
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11562/992889
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