Unlocking cognition with pulsatile GnRH in Down Syndrome: implications for Alzheimer’s disease

Abstract

AbstractBackgroundThere is currently no viable treatment for the cognitive and olfactory deficits of Trisomy 21 and Alzheimer’s disease.MethodPhysiological characterization and epigenetic, cellular, chemogenetic, and pharmacological interventions in male and female Ts65Dn mice (P9‐P360), a mouse model of Down syndrome, and 12‐month‐old THY::TAU22 male mice, a mouse model of Alzheimer’s disease, and their wild‐type littermates. Seven men with Down syndrome (20‐50 years of age) were enrolled in an open‐label pilot study to assess the effect of 6‐month pulsatile GnRH therapy on cognitive and olfactory function.ResultWe show in Ts65Dn mice that olfactory and cognitive neurological symptoms are closely related to a post‐pubertal decrease in hypothalamic and extra‐hypothalamic expression of a master molecule controlling reproduction ‐ gonadotropin‐releasing hormone (GnRH) ‐ and appear to be linked to an imbalance in a microRNA‐gene network known to regulate the maturation of GnRH neurons as well as to an alteration in hippocampal synaptic transmission. Restoring physiological GnRH levels abolishes olfactory and cognitive deficits in Ts65Dn and THY::TAU22 mice, while pulsatile GnRH treatment improves cognition and brain connectivity in adult T21 patients.ConclusionWe have discovered that GnRH plays a crucial role in olfaction and cognition, and pulsatile GnRH treatment holds promise for improving cognitive deficits in patients with Down syndrome. Such treatment could potentially also be beneficial for mobilizing cognitive reserve in pathological brain aging such as that found in Alzheimer’s disease.