Abstract
In humans, associative memories are more susceptible to age‐related cognitive decline (ARCD) than are recognition memories. Reduced cAMP/cGMP signaling in the hippocampus may contribute to ARCD. Here, we found that both aging and traumatic brain injury‐associated dementia increased the expression of the cAMP/cGMP‐degrading enzyme phosphodiesterase 11A (PDE11A) in the human hippocampus. Further, age‐related increases in hippocampal PDE11A4 mRNA and protein were conserved in mice, as was the increased vulnerability of associative versus recognition memories to ARCD. Interestingly, mouse PDE11A4 protein in the aged ventral hippocampus (VHIPP) ectopically accumulated in the membrane fraction and filamentous structures we term “ghost axons.” These age‐related increases in expression were driven by reduced exoribonuclease‐mediated degradation of PDE11A mRNA and increased PDE11A4‐pS117/pS124, the latter of which also drove the punctate accumulation of PDE11A4. In contrast, PDE11A4‐pS162 caused dispersal. Importantly, preventing age‐related increases in PDE11 expression via genetic deletion protected mice from ARCD of short‐term and remote long‐term associative memory (aLTM) in the social transmission of food preference assay, albeit at the expense of recent aLTM. Further, mimicking age‐related overexpression of PDE11A4 in CA1 of old KO mice caused aging‐like impairments in CREB function and remote social—but not non‐social—LTMs. RNA sequencing and phosphoproteomic analyses of VHIPP identified cGMP‐PKG—as opposed to cAMP‐PKA—as well as circadian entrainment, glutamatergic/cholinergic synapses, calcium signaling, oxytocin, and retrograde endocannabinoid signaling as mechanisms by which PDE11A deletion protects against ARCD. Together, these data suggest that PDE11A4 proteinopathies acutely impair signaling in the aged brain and contribute to ARCD of social memories.
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