Excitotoxic glutamate levels cause the secretion of resident endoplasmic reticulum proteins.

Dysregulation of synaptic glutamate levels can lead to excitotoxicity such as that observed in stroke, traumatic brain injury, and epilepsy. The role of increased intracellular calcium (Ca) in the development of excitotoxicity is well established. However, less is known regarding the impact of glutamate on endoplasmic reticulum (ER)-Ca-mediated processes such as proteostasis.

Glucagon-Like Peptide-1 Receptors in the Gustatory Cortex Influence Food Intake.

The gustatory cortex (GC) region of the insular cortex processes taste information in manners important for taste-guided behaviors, including food intake itself. In addition to oral gustatory stimuli, GC activity is also influenced by physiological states including hunger. The specific cell types and molecular mechanisms that provide the GC with such abilities are unclear.

Reducing local synthesis of estrogen in the tubular striatum promotes attraction to same-sex odors in female mice.

Brain-derived 17β-estradiol (E2) confers rapid effects on neural activity. The tubular striatum (TuS, also called the olfactory tubercle) is both capable of local E2 synthesis due to its abundant expression of aromatase and is a critical locus for odor-guided motivated behavior and odor hedonics. TuS neurons also contain mRNA for estrogen receptors α, β, and the G protein-coupled estrogen receptor.

Alterations in odor hedonics in the 5XFAD Alzheimer's disease mouse model and the influence of sex.

Olfactory impairments, including deficits in odor detection, discrimination, recognition, and changes in odor hedonics, are reported in the early stages of Alzheimer's disease (AD). Rodent models of AD display deficits in odor learning, detection, and discrimination-recapitulating the clinical condition. However, the impact of familial AD genetic mutations on odor hedonics is unknown.