The neurohypophysial hormone oxytocin (OT), synthesized in magnocellular paraventricular (PVN) and supraoptic (SON) nuclei, is well known for its effects in lactation. Our previous studies showed that central OT receptor (OTR) binding is increased during gestation and that blockade of central OTRs, specifically during mid-late gestation, causes a delay in OT release during suckling and reduces weight gain in pups, suggesting decreased milk delivery. In the present study, we tested whether central OTR blockade during late gestation disrupts the gestation-related plasticity in intrinsic membrane properties. Whole cell current-clamp recordings were performed in OT neurons from pregnant rats (19 -22 days in gestation) that were infused with an OTR antagonist (OTA) or artificial cerebrospinal fluid (aCSF) and from virgin rats infused with aCSF into the third ventricle via an osmotic minipump beginning on days 12-14 of gestation. The amplitudes of both Ca 2ϩ -dependent afterhyperpolarizations (AHPs), an apamin-sensitive medium AHP (mAHP) and an apamin-insensitive slow AHP (sAHP), were significantly increased during late gestation in control pregnant animals. However, the amplitude of the sAHP from pregnant rats treated with the OTA was significantly smaller than that of pregnant control rats and similar to that of virgins. These results indicate that the diminished efficiency in lactation due to OTR blockade may be partly a result of an altered sAHP that would shape OT bursting. These findings suggest that central actions of OT during late gestation are necessary for programming the plasticity of at least some of the intrinsic membrane properties in OT neurons during lactation.vasopressin; electrophysiology; hypothalamus; lactation; hyperpolarizing afterpotentials THE NEUROHYPOPHYSIAL HORMONES oxytocin (OT) and vasopressin (VP) are synthesized in the magnocellular cells (MNCs) located in the hypothalamic supraoptic (SON) and paraventricular (PVN) nuclei. These hormones are released into the systemic circulation from the neurohypophysis in response to physiological demands, such as milk ejection and parturition for OT (14, 30) and osmotic and cardiovascular challenge for VP (31). The release of OT is determined by the rate and pattern of neuronal activity of SON and PVN neurons (31). During lactation, OT neurons display a short (2-4 s), highfrequency (up to 80 Hz) burst of action potentials shortly before each milk ejection. This bursting activity is synchronized among all OT neurons (4) and results in a bolus release of OT into the bloodstream. This pulsatile OT release into the general circulation is believed to maximize the biological effects of OT (6) and is requisite for milk ejection (17,33,36).The firing patterns of MNCs are critically modulated by intrinsic membrane properties, such as the Ca 2ϩ -dependent afterhyperpolarizations (AHPs) and the Ca 2ϩ -dependent depolarizing afterpotentials (DAPs). Both AHPs and DAPs are specifically enhanced during lactation (37-39), indicating that these changes interact with ...
The mitochondrial ATP synthase, subunit c, isoform 3 gene (Atp5g3) encodes subunit 9, the subunit of the multisubunit enzyme that catalyzes ATP synthesis during oxidative phosphorylation in mitochondria. According to the Ensembl database, Atp5g3 in mice is located on chromosome 2 between 73746504 and 73749383 bp, within the genomic regions of two sets of quantitative trait loci - alcohol preference and body weight. Both of those traits are more influenced by epigenetic factors than many other traits are. Using currently available phenotype and gene expression profiles from the GeneNetwork database, we obtained correlations between Atp5g3 and alcoholism- and obesity-relevant phenotypes. The correlation in expression levels between Atp5g3 and each of its 12 partner genes in the molecular interaction are different in various tissues and genes. Transcriptome mapping indicated that Atp5g3 is differentially regulated in the hippocampus, cerebellum, and liver. Owing to a lack of known polymorphisms of Atp5g3 among three relevant mouse strains, C57BL/6J (B6), DBA/2J (D2), and BALB/ cJ, the molecular mechanism for the connection between Atp5g3 and alcoholism and body weight requires further investigation.
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