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JNK2 and JNK3 are major regulators of axonal injury-induced retinal ganglion cell death
May 31, 2012

JNK2 and JNK3 are major regulators of axonal injury-induced retinal ganglion cell death

Author(s): Fernandes KA, Harder JM, Fornarola LB, Freeman RS, Clark AF, Pang IH, John SW, Libby RT.

Flaum Eye Institute, University of Rochester Medical Center, Rochester, NY 14642, USA; Interdepartmental Graduate Program in Neuroscience, University of Rochester Medical Center, Rochester, NY 14642, USA.

Glaucoma is a neurodegenerative disease characterized by the apoptotic death of retinal ganglion cells (RGCs). The primary insult to RGCs in glaucoma is thought to occur to their axons as they exit the eye in the optic nerve head.

However, pathological signaling pathways that exert central roles in triggering RGC death following axonal injury remain unidentified. It is likely that the first changes to occur following axonal injury are signal relay events that transduce the injury signal from the axon to the cell body.

Here we focus on the c-Jun N-terminal kinase (JNK1-3) family, a signaling pathway implicated in axonal injury signaling and neurodegenerative apoptosis, and likely to function as a central node in axonal injury-induced RGC death. We show that JNK signaling is activated immediately after axonal injury in RGC axons at the site of injury.

Following its early activation, sustained JNK signaling is observed in axonally-injured RGCs in the form of JUN phosphorylation and upregulation. Using mice lacking specific Jnk isoforms, we show that Jnk2 and Jnk3 are the isoforms activated in injured axons. Combined deficiency of Jnk2 and Jnk3 provides robust long-term protection against axonal injury-induced RGC death and prevents downregulation of the RGC marker, BRN3B, and phosphorylation of JUN.

Finally, using Jun deficient mice, we show that JUN-dependent pathways are important for axonal injury-induced RGC death. Together these data demonstrate that JNK signaling is the major early pathway triggering RGC death after axonal injury and may directly link axon injury to transcriptional activity that controls RGC death.

Neurobiol Dis. 2012 May;46(2):393-401. Epub 2012 Feb 14.

PMID: 22353563 http://www.ncbi.nlm.nih.gov/pubmed/22353563

Experimental Paper of the Month manager: Andreas Boehm