, 2010). In one study, this effect was shown to be mediated by expression changes of the mGluR2 receptor in both DRG and spinal cord (Chiechio et al., 2009). Conversely, a pathological pain state may be able to induce changes in histone acetylation at relevant pronociceptive genes. Injection of an inflammatory agent Selleck FRAX597 (complete Freund’s adjuvant, CFA) into the paws of rats was shown to lead to transcriptional downregulation of GAD65 in the dorsal raphé nucleus coupled with hypoacetylation at its promoter. The same was true after spinal nerve ligation, which is used to mimic a neuropathic pain state (Zhang et al., 2011). Similar influences on expression could be shown in the case of DNA methylation and its reader
molecule MeCP2. The methyl binding protein MeCP2 has been shown to promote abnormal upregulation of a group of genes in inflammatory pain conditions.
In rats, its usually repressive function appears to be curtailed through phosphorylation after injection of CFA into the ankle AZD6738 purchase joint (Géranton et al., 2007). This mechanism was shown to be partly dependent on intact descending serotonergic input into the spinal dorsal horn (Géranton et al., 2008). Further supporting this role for MeCP2 are studies demonstrating altered pain thresholds as a result of reduced MeCP2 expression levels. This can be observed in conditional knockout mice, as well as individuals with Rett’s syndrome—a disease caused by mutations within the MeCP2 locus (Samaco et al., 2008). Lastly, two recent reports have emerged as the first to directly measure changes in DNA methylation at genes associated with chronic pain conditions.
Tajerian et al. (2011) found that intervertebral disc degeneration, and the chronic pain associated with it, correlates with increases in methylation at the SPARC gene promoter in both mice and humans. However, since the extracellular matrix protein SPARC is involved in both disc degeneration and the resulting lower back pain, it is not obvious which is more relevant and whether this is a true “pain target.” In contrast, the second paper describes the promoter of the endothelin-1 already B [ET(B)] receptor, which was found to be methylated only in biopsies obtained from painful human oral cancers, but not from nonpainful oral dysplasias (Viet et al., 2011). Moreover, rescuing ET(B) receptor expression in a mouse model of oral cancer could attenuate pain behavior, providing further evidence for the existence of methylation-mediated promoter regulation of a nociceptive gene. Finally, there is evidence for the involvement of REST in chronic neuropathy. REST is a transcription factor that recognizes a specific promoter sequence (RE-1 element) present in nearly 2,000 genes with primarily neuronal function (Bruce et al., 2004). REST recruits a host of chromatin modifiers, either directly or through interaction with Co-REST and Sin3 complexes, to exert repressive action on its target genes.