Neuronal SET1/COMPASS-mediated epigenetic regulation of de novo transcription drives accelerated forgetting with age

Forgetting is a critical component of memory, but its molecular regulation - particularly with age - is not well understood. Epigenetic modifications are a candidate for this regulation and may further drive age-related behavioral decline, as they are dramatically altered in the aging brain. We found that multiple components of the SET1/COMPASS complex, a conserved histone methyltransferase complex associated with active gene transcription, are upregulated with age in the C. elegans nervous system. Neuronal knockdown of the SET1/COMPASS components improves memory in young adult animals and slows memory decline in old animals. By pharmacological and genetic inhibition, optogenetics, and neuronal mRNA and chromatin profiling, we demonstrate that SET1/COMPASS-mediated active transcription promotes forgetting. SET1/COMPASS regulates the de novo activity-dependent transcription and release of a neuropeptidergic signal from the AWC olfactory sensory neuron, which erases the associative memory trace in downstream motor neurons, resulting in forgetting. We further found that increased SET1/COMPASS-dependent chromatin accessibility at these gene loci with age primes these loci for transcription, resulting in accelerated forgetting. Our results reveal the role of active gene transcription in the regulation of forgetting and altered SET1/COMPASS-mediated gene transcription as a mechanism of cognitive decline, implicating increased expression of COMPASS components as a driver of increased forgetting in the aging brain. This mechanism may offer a new target for slowing loss of cognitive function with age.