Ecological health and security of the Jazmurian Wetland Endorheic Watershed, Iran.

Wetlands represent a crucial category of aquatic ecosystems that face numerous threats, such as increasing population density, alterations in land-use, climate change, excessive extraction of water resources, and inadequate construction of reservoirs. As a result of these challenges, wetlands cannot perform their essential functions, which include meeting human demands, supporting tourism, mitigating dust storms, and maintaining the biodiversity of flora and fauna. Accordingly, assessing their health and service performance is essential.

Delayed estrogen actions diminish food consumption without changing food approach, motor activity, or hypothalamic activation elicited by corticostriatal µ-opioid signaling.

Mu-opioid receptor (μ-OR) signaling in forebrain sites including nucleus accumbens (Acb) and ventromedial prefrontal cortex (vmPFC) modulates reward-driven feeding and may play a role in the pathophysiology of disordered eating. In preclinical models, intra-Acb or intra-vmPFC μ-OR stimulation causes overeating and vigorous responding for food rewards. These effects have been studied mainly in male animals, despite demonstrated sex differences and estrogen modulation of central reward systems.

Delayed but not immediate effects of estrogen curtail gamma-aminobutyric acid-mediated feeding responses elicited from the nucleus accumbens shell.

The present study investigated immediate versus delayed effects of estrogen replacement in ovariectomized (OVX) rats on hyperphagia elicited by gamma-aminobutyric acid (GABA)-A-agonist (muscimol) infusions into the nucleus accumbens shell (AcbSh). First, because intra-AcbSh muscimol-induced feeding has never been explored in OVX rats, a dose-effect curve was generated and compared to sham-operated males, the current point of reference in the literature. Muscimol (5, 10, 25, and 50 ng) increased food intake in both sexes, and both sexes reached the same asymptotic level of intake.

Eating driven by the gustatory insula: contrasting regulation by infralimbic vs. prelimbic cortices.

Subregions within insular cortex and medial prefrontal cortex (mPFC) have been implicated in eating disorders; however, the way these brain regions interact to produce dysfunctional eating is poorly understood. The present study explored how two mPFC subregions, the infralimbic (IL) and prelimbic (PRL) cortices, regulate sucrose hyperphagia elicited specifically by a neurochemical manipulation of the agranular/dysgranular region of gustatory insula (AI/DI). Using intra-AI/DI infusion of the mu-opioid receptor (µ-OR) agonist, DAMGO (1 µg), sucrose hyperphagia was generated in ad-libitum-maintained rats, while in the same rat, either the IL or prelimbic (PRL) subregion of mPFC was inactivated bilaterally with muscimol (30 ng).