Ying Gao scite author profile

Endocannabinoids (eCBs) function as retrograde signaling molecules at synapses throughout the brain, regulate axonal growth and guidance during development, and drive adult neurogenesis. There remains a lack of genetic evidence as to the identity of the enzyme(s) responsible for the synthesis of eCBs in the brain. Diacylglycerol lipase-␣ (DAGL␣) and -␤ (DAGL␤) synthesize 2-arachidonoyl-glycerol (2-AG), the most abundant eCB in the brain. However, their respective contribution to this and to eCB signaling has not been tested. In the present study, we show ϳ80% reductions in 2-AG levels in the brain and spinal cord in DAGL␣ Ϫ/Ϫ mice and a 50% reduction in the brain in DAGL␤ Ϫ/Ϫ mice. In contrast, DAGL␤ plays a more important role than DAGL␣ in regulating 2-AG levels in the liver, with a 90% reduction seen in DAGL␤ Ϫ/Ϫ mice. Levels of arachidonic acid decrease in parallel with 2-AG, suggesting that DAGL activity controls the steady-state levels of both lipids. In the hippocampus, the postsynaptic release of an eCB results in the transient suppression of GABAmediated transmission at inhibitory synapses; we now show that this form of synaptic plasticity is completely lost in DAGL␣ Ϫ/Ϫ animals and relatively unaffected in DAGL␤ Ϫ/Ϫ animals. Finally, we show that the control of adult neurogenesis in the hippocampus and subventricular zone is compromised in the DAGL␣ Ϫ/Ϫ and/or DAGL␤ Ϫ/Ϫ mice. These findings provide the first evidence that DAGL␣ is the major biosynthetic enzyme for 2-AG in the nervous system and reveal an essential role for this enzyme in regulating retrograde synaptic plasticity and adult neurogenesis.

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Myelin-Associated Glycoprotein Interacts with the Nogo66 Receptor to Inhibit Neurite Outgrowth

Domeniconi

Cao

Spencer

et al. 2002

Neuron

543

377

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Myelin inhibitors of axonal regeneration, like Nogo and MAG, block regrowth after injury to the adult CNS. While a GPI-linked receptor for Nogo (NgR) has been identified, MAG's receptor is unknown. We show that MAG inhibits regeneration by interaction with NgR. Binding of and inhibition by MAG are lost if neuronal GPI-linked proteins are cleaved. Binding of MAG to NgR-expressing cells is GPI dependent and sialic acid independent. Conversely, NgR binds to MAG-expressing cells. MAG, but not a truncated MAG that binds neurons but does not inhibit regeneration, precipitates NgR from NgR-expressing cells, DRG, and cerebellar neurons. Importantly, NgR antibody, soluble NgR, or dominant-negative NgR each prevent inhibition of neurite outgrowth by MAG. Also, MAG and Nogo66 compete for binding to NgR. These results suggest redundancy in myelin inhibitors and indicate therapies for CNS injuries.

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Activated CREB Is Sufficient to Overcome Inhibitors in Myelin and Promote Spinal Axon Regeneration In Vivo

Gao

Deng

Hou

et al. 2004

Neuron

319

247

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Inhibitors in myelin play a major role in preventing spontaneous axonal regeneration after CNS injury. Elevation of cAMP overcomes this inhibition, in a transcription-dependent manner, through the upregulation of Arginase I (Arg I) and increased synthesis of polyamines. Here, we show that the cAMP effect requires activation of the transcription factor cAMP response element binding protein (CREB) to overcome myelin inhibitors; a dominant-negative CREB abolishes the effect, and neurons expressing a constitutively active form of CREB are not inhibited. Activation of CREB is also required for cAMP to upregulate Arg I, and the ability of constitutively active CREB to overcome inhibition is blocked by an inhibitor of polyamine synthesis. Finally, expression of constitutively active CREB in DRG neurons is sufficient to promote regeneration of subsequently lesioned dorsal column axons. These results indicate that CREB plays a central role in overcoming myelin inhibitors and so encourages regeneration in vivo.

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Ying Gao

Loss of Retrograde Endocannabinoid Signaling and Reduced Adult Neurogenesis in Diacylglycerol Lipase Knock-out Mice

Myelin-Associated Glycoprotein Interacts with the Nogo66 Receptor to Inhibit Neurite Outgrowth

Activated CREB Is Sufficient to Overcome Inhibitors in Myelin and Promote Spinal Axon Regeneration In Vivo

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