Long Term High‐Salt Diet Induces Cognitive Impairments via Down‐Regulating SHANK1

High-salt (HS) diet is an established risk factor for cognitive impairment, but the underlying mechanisms remain unclear. This study reveals that HS diet reduces SHANK1, a key postsynaptic scaffolding protein, via downregulation of the PKA/CREB pathway, leading to synaptic dysfunction and cognitive deficits in rats. RNA sequencing of HS-fed rat hippocampi showed downregulation of cAMP signaling and SHANK1 expression. Pharmacological inhibition of PKA/CREB reduced SHANK1 levels and impaired dendritic structure and synaptic function, while PKA activation restored CREB activity and SHANK1 expression, reversing HS-induced deficits. Notably, CREB activation is essential for SHANK1 regulation, as a CREB mutant (S133A) blocked the effects of PKA activation, and a constitutively active CREB (S133D) prevented SHANK1 downregulation. These findings highlight the PKA/CREB/SHANK1 pathway as a potential therapeutic target for HS-induced cognitive dysfunction.