Adaptive Control of Dorsal Raphe by 5-HT4 in the Prefrontal Cortex Prevents Persistent Hypophagia following Stress.

Transient reduced food intake (hypophagia) following high stress could have beneficial effects on longevity, but paradoxically, hypophagia can persist and become anorexia-like behavior. The neural underpinnings of stress-induced hypophagia and the mechanisms by which the brain prevents the transition from transient to persistent hypophagia remain undetermined. In this study, we report the involvement of a network governing goal-directed behavior (decision).

Oxygen glucose deprivation-induced astrocyte dysfunction provokes neuronal death through oxidative stress.

Understanding the role of astrocytes in stroke is assuming increasing prominence, not only as an important component on its own within the neurovascular unit, but also because astrocytes can influence neuronal outcome. Ischemia may induce astrogliosis and other phenotypic changes, but these remain poorly understood, in part due to limitations in reproducing these changes in vitro. Dibutyryl cyclic AMP-differentiated cultured astrocytes are more representative of the in vivo astroglial cell phenotype, and were much more susceptible than undifferentiated astrocytes to an ischemic-like stress, oxygen-glucose deprivation (OGD).

The nucleus accumbens 5-HTR₄-CART pathway ties anorexia to hyperactivity.

In mental diseases, the brain does not systematically adjust motor activity to feeding. Probably, the most outlined example is the association between hyperactivity and anorexia in Anorexia nervosa. The neural underpinnings of this 'paradox', however, are poorly elucidated.

[Acetylcholinesterase inhibitors in Alzheimer's disease: further comments on their mechanisms of action and therapeutic consequences].

Cholinergic treatments in Alzheimer's disease are related to the decline of cholinergic central transmission evidenced many years ago in patients. Donepezil, rivastigmine and galantamine have been shown to improve the biodisponibility of acetylcholine at synaptic level by decreasing its enzymatic degradation through acetylcholinesterases. Indeed these cholinesterase inhibitors have shown clinical beneficial effects especially at the early stages of the disease and when the cognitive deterioration is still limited.

Enhancement of L-3-hydroxybutyryl-CoA dehydrogenase activity and circulating ketone body levels by pantethine. Relevance to dopaminergic injury.

Background: The administration of the ketone bodies hydroxybutyrate and acetoacetate is known to exert a protective effect against metabolic disorders associated with cerebral pathologies. This suggests that the enhancement of their endogenous production might be a rational therapeutic approach. Ketone bodies are generated by fatty acid beta-oxidation, a process involving a mitochondrial oxido-reductase superfamily, with fatty acid-CoA thioesters as substrates.