Reproduction and population structure of the sea urchin Heliocidaris crassispina in its newly extended range: The Oga Peninsula in the Sea of Japan, northeastern Japan.

Ocean warming has facilitated the range expansion of commercially important sea urchin species to higher latitudes. Heliocidaris crassispina was recorded to extend northward to Toga Bay along the Oga Peninsula, Japan following an increase in seawater temperatures, and replacement of local sea urchin species Mesocentrotus nudus. In order to identify evidence of adaptation occurring in response to a range extension of H. crassispina to the newly extended environments, we randomly collected 106 H. crassispina in August 2014 in Toga Bay, determined the growth and age composition and examined gonad traits (size, color and development). To confirm the gonad development, 30 H. crassispina with > 30 mm diameter were collected in July, August and September 2017. We found slower growth in the extended range than the central range. More delayed gonad development of males than those of females and a large variety of developmental stages in the acini of testis indicated that the spawning of both sexes of the sea urchins were asynchronous. In terms of gonad color, L* (lightness) values increased with increasing GI, while b* (yellowness) values decreased with increasing age. The population consisted of seven year-classes from 2006 to 2012, suggesting persistent juvenile recruitment. Long-term water temperature data indicated that the range extension of H. crassispina was due to ocean warming, in particular during the summer spawning season.

The ventromedial hypothalamus oxytocin induces locomotor behavior regulated by estrogen.

Our previous studies demonstrated that excitation of neurons in the rat ventromedial hypothalamus (VMH) induced locomotor activity. An oxytocin receptor (Oxtr) exists in the VMH and plays a role in regulating sexual behavior. However, the role of Oxtr in the VMH in locomotor activity is not clear. In this study we examined the roles of oxytocin in the VMH in running behavior, and also investigated the involvement of estrogen in this behavioral change. Microinjection of oxytocin into the VMH induced a dose-dependent increase in the running behavior in male rats. The oxytocin-induced running activity was inhibited by simultaneous injection of Oxtr-antagonist, (d(CH2)5(1), Try(Me)(2), Orn(8))-oxytocin. Oxytocin injection also induced running behavior in ovariectomized (OVX) female rats. Pretreatment of the OVX rats with estrogen augmented the oxytocin-induced running activity twofold, and increased the Oxtr mRNA in the VMH threefold. During the estrus cycle locomotor activity spontaneously increased in the dark period of proestrus. The Oxtr mRNA was up-regulated in the proestrus afternoon. Blockade of oxytocin neurotransmission by its antagonist before the onset of the dark period of proestrus decreased the following nocturnal locomotor activity. These findings demonstrate that Oxtr in the VMH is involved in the induction of running behavior and that estrogen facilitates this effect by means of Oxtr up-regulation, suggesting the involvement of oxytocin in the locomotor activity of proestrus female rats.

Rat uterine oxytocin receptor and estrogen receptor α and ß mRNA levels are regulated by estrogen through multiple estrogen receptors.

Estrogen action is mediated through several types of receptors (ERs), such as ERα, ERß and putative membrane ERs. Oxytocin receptor (OTR) and ER expression levels in the rat uterus are regulated by estrogen; however, which types of ERs are involved has not been elucidated. This study examined OTR, ERα and ERß levels in ovariectomized rats treated with 17ß-estradiol (E2), an ERα agonist (PPT), an ERß agonist (DPN) or estren (Es). E2 and PPT increased OTR mRNA levels and decreased ERα and ERß mRNA levels 3 and 6 h posttreatment. DPN decreased ERα and ERß mRNA levels at 3 and 6 h, while OTR mRNA levels increased at 3 h and decreased at 6 h. OTR mRNA levels increased 3 h after the Es treatment and then declined until 6 h. ERα and ERß mRNA levels decreased by 3 h and remained low until 6 h posttreatment with Es. The ER antagonist ICI182,780 (ICI) suppressed the increases in OTR mRNA levels induced 3 h after the Es treatment. However, ICI and tamoxifen (Tam) had no significant effect on ERα and ERß mRNA levels in the Es-treated or vehicle-treated group. In intact rats, proestrus-associated increases in OTR mRNA levels were antagonized by both ICI and Tam. However, decreases in ERα and ERß mRNA levels were not antagonized by Tam and ICI, respectively. Therefore, uterine OTR gene expression is upregulated by estrogen through the classical nuclear (or non-nuclear) ERs, ERα and ERß, while the levels of these ERs are downregulated by estrogen through multiple pathways including Es-sensitive nonclassical ERs.

Leptin resistance does not induce hyperphagia in the rat.

Leptin has been thought to work as a mediator for body weight control by inhibiting food intake. Leptin, however, cannot prevent obesity induced by a high-fat diet (HFD) probably because of leptin resistance. We investigated daily feeding and weight gain when ordinary chow (OC) was changed to a HFD in male rats. Food intake, by weight, significantly increased the next day, but gradually decreased until at 20 days the HFD intake contained the same calories as consumed by the OC-fed control rats. The reduction in food intake occurred only during the night without change of preference for the HFD, even after leptin resistance had developed. Nonetheless, the HFD-fed rats gained more weight than the controls. From the present experiment, it is concluded that leptin resistance does not induce hyperphagia, and suggested that body weight is not regulated to be constant.

Dietary deficiency of essential amino acids rapidly induces cessation of the rat estrous cycle.

Reproductive functions are regulated by the sophisticated coordination between the neuronal and endocrine systems and are sustained by a proper nutritional environment. Female reproductive function is vulnerable to effects from dietary restrictions, suggesting a transient adaptation that prioritizes individual survival over reproduction until a possible future opportunity for satiation. This adaptation could also partially explain the existence of amenorrhea in women with anorexia nervosa. Because amino acid nutritional conditions other than caloric restriction uniquely alters amino acid metabolism and affect the hormonal levels of organisms, we hypothesized that the supply of essential amino acids in the diet plays a pivotal role in the maintenance of the female reproductive system. To test this hypothesis, we examined ovulatory cyclicity in female rats under diets that were deficient in threonine, lysine, tryptophan, methionine or valine. Ovulatory cyclicity was monitored by daily cytological evaluations of vaginal smears. After continuous feeding of the deficient diet, a persistent diestrus or anovulatory state was induced most quickly by the valine-deficient diet and most slowly by the lysine-deficient diet. A decline in the systemic insulin-like growth factor 1 level was associated with a dietary amino acid deficiency. Furthermore, a paired group of rats that were fed an isocaloric diet with balanced amino acids maintained normal estrous cyclicity. These disturbances of the estrous cycle by amino acid deficiency were quickly reversed by the consumption of a normal diet. The continuous anovulatory state in this study is not attributable to a decrease in caloric intake but to an imbalance in the dietary amino acid composition. With a shortage of well-balanced amino acid sources, reproduction becomes risky for both the mother and the fetus. It could be viewed as an adaptation to the diet, diverting resources away from reproduction and reallocating them to survival until well-balanced amino acid sources are found.

Estrogen Increases c-Fos expression in the paraventricular nucleus along with its anorexic effect in developing rats.

Estrogen inhibits food intake in cycling females in a variety of species. To determine how the development of the anorexic system by estrogen is regulated, rat pups at four developmental stages, postnatal day 11 (P11)-13, P20-22, P25-27 and P29-31, and adult ovariectomized (OVX) rats received a daily subcutaneous injection of 20 µg/kg of estradiol benzoate (EB) or vehicle for three days. Food intake, body weight gain and immunohistochemical c-Fos expression in the brain were measured after each injection. EB treatment decreased both food intake and body weight gain from P27 onwards and significantly increased c-Fos expression in the parvocellular division of the paraventricular nucleus of the hypothalamus (pPVN), which is coincident with its anorexic effect in developing rats. The pattern of EB-induced c-Fos activation in other feeding-related nuclei did not coincide with its anorexic effect in developing pups. However, in adult OVX rats, EB treatment increased c-Fos expression in the nucleus tractus solitarius (NTS), the central nucleus of the amygdala (CeA), and, to a lesser degree, the ventromedial nucleus of the hypothalamus (VMH). These results suggested that the pPVN is an essential site in the brain for controlling the anorexic effect of estrogen and that the feeding system of rat begins to respond to estrogen before the onset of puberty (P25-28).

Changes in uterine receptor mRNAs for oxytocin and estrogen in the pseudopregnant rat.

This study examined the uterine oxytocin- (OTR) and estrogen- (ER) receptor mRNA levels during and after pseudopregnancy (PSP) in rats. An increased OTR mRNA level was observed from day 14 of PSP, and the maximal level was attained during the following proestrus. The levels of ERalpha mRNA were low during PSP and significantly increased during the following estrus. The level of ERbeta mRNA was significantly decreased during proestrus and then returned to the values observed during days 7-14 of PSP by estrus. These results suggest i) suppression of ERalpha mRNA during the luteal phase and that ii) the changes in OTR, ERalpha and ERbeta mRNA levels during proestrus and estrus following PSP are similar to those during the normal estrous cycle.

Prolactin releasing peptides modulate background firing rate and milk-ejection related burst of oxytocin cells in the supraoptic nucleus.

The hypothalamic dorsomedial nucleus is suggested to be a final relay site for the afferent pathway of milk-ejection reflex. Existence of prolactin releasing peptide-immunoreactive cells in the dorsomedial nucleus and synaptic contact of prolactin releasing peptide-immunoreactive terminals with oxytocin cells was reported. Experiments were done to test the effect of prolactin releasing peptide on the electrical activity of oxytocin cells in the supraoptic nucleus. In rat brain slice preparations, oxytocin cells were unresponsive to the peptide. In lactating rats, although lateral ventricular injection of prolactin releasing peptide (20 nmol) was ineffective, a hundred nanomoles of the peptide increased basal activity and amplitude of milk-ejection related burst firing of oxytocin cells. Cells responded to lateral ventricular injection of peptides were unresponsive to direct application of peptides by pressure ejection from the recording electrode. These results suggest that prolactin releasing peptide may modulate electrical activity of oxytocin cells not through its direct action on oxytocin cells but through its action on area other than supraoptic nucleus.

Variation in the expression of orexin and orexin receptors in the rat hypothalamus during the estrous cycle, pregnancy, parturition, and lactation.

The widespread distribution of mRNA encoding orexin- 1 (OX1R) and -2 receptors (OX2R) in the central nervous system suggests that orexin may be involved in multiple functional pathways. Central administration of orexin stimulates feeding and also affects ovarian steroid-dependent luteinizing hormone secretion, suggesting involvement of orexin in the regulation of reproductive function. To investigate a possible role for orexin in reproductive function, we examined variations in prepro-OX, OX1R, and OX2R mRNA levels in the female rat hypothalamus during the estrous cycle, pregnancy, parturition, and lactation using competitive reverse transcription-polymerase chain reaction. During the estrous cycle, only OX1R mRNA expression during late proestrus was significantly higher than that at metestrus. The prepro-OX and OX1R mRNA levels on d 1 of lactation were significantly higher than that during late pregnancy and lactation. Immunohistochemistry revealed the presence of orexin-A immunoreactive cells and the OX1R subtype in the lateral hypothalamic area as well as the magnocellular neurons of the paraventricular (PVN) and supraoptic (SON) nuclei, respectively, in pregnant and lactating rats. These results suggest a role for orexin in reproduction that may be involved in regulating physiological function in early lactation through important binding sites in hypothalamic PVN and SON.

Differential regulation of estrogen receptor alpha and beta mRNAs in the rat uterus during pregnancy and labor: possible involvement of estrogen receptors in oxytocin receptor regulation.

Oxytocin receptor (OTR) mRNA levels in the uterus dramatically increase in the near term human and rat. Estrogen is believed to be a potent stimulator of OTR mRNA expression. However, estrogen does not stimulate rat OTR mRNA expression on day 18 of pregnancy or in progesterone-treated rats. Thus, the regulation of uterine responsiveness to estrogen in the near term rat appears to be an important mediator of estrogen action. To determine the effect of altering uterine responsiveness to estrogen on OTR induction, uterine ERalpha and ER beta mRNA levels were examined by competitive RT-PCR in pregnant and parturient rats, progesterone-treated ovariectomized (OVX) virgin rats and OVX pregnant rats. In pregnant and parturient rats, OTR mRNA levels were highest at 2200-2230 h on day 21 of pregnancy (P21pm) and during labor when compared with other groups. ERalpha mRNA levels significantly increased during labor compared with days 15-21 of pregnancy. Compared with control animals, ERalpha mRNA levels decreased significantly in OVX virgin rats implanted with tubes containing progesterone for one week; 24 h following the removal of the progesterone tubes, ERalpha mRNA levels were found to be similar to control levels. Estrogen treatment following OVX on day 18 of pregnancy caused increased OTR mRNA levels, whereas ovariectomy alone increased ERbeta mRNA but not ERalpha mRNA. Results from the present study suggest that ERalpha and ERbeta mRNA expressions are differentially regulated in the rat uterus. Moreover, during spontaneous labor our findings appear to suggest that ERalpha plays a more prominent role than ERbeta in mediating estrogen action in the induction of uterine OTR mRNA before labor.

Changes of receptor mRNAs for oxytocin and estrogen during the estrous cycle in rat uterus.

Oxytocin receptor (OTR) mRNA levels increase dramatically near term and is potently stimulated by estrogen because increased OTR mRNA levels result from estrogen treatment in ovariectomized rat uterus. In this study, OTR, estrogen receptor (ER) alpha and ERbeta mRNA levels in the rat uterus during the estrous cycle were examined by quantitative RT-PCR. OTR mRNA levels during the estrous cycle began to increase on diestrus (P<0.05, vs value on estrus), reached maximal increase both in the morning (1000-1130 hr) and afternoon (1600-1630 hr) on proestrus (P<0.01, vs metestrus, diestrus and estrus) and then declined on estrus. In contrast ER alpha mRNA levels began to decrease on diestrus, reached statistical significance both in the morning and the afternoon on proestrus (P<0.01, vs metestrus, diestrus and estrus) and returned to the value of metestrus on estrus. ERbeta mRNA levels were low in the morning and the afternoon on proestrus (P<0.01, vs metestrus and estrus) and also returned to metestrus values on estrus. Treatments with estrogen for 3 days significantly decreased both ERalpha and ERbeta mRNA levels. It can be concluded from these results that during the estrous cycle, OTR mRNA levels in rat uterus predominantly increase at proestrus with a decrease in ERalpha and ERbeta mRNA levels, which is probably due to the increased estrogen levels in circulation before ovulation.

Leptin affects the electrical activity of neurones in the hypothalamic supraoptic nucleus.

The present experiments were undertaken to examine whether leptin affects the electrical activity of neurones in the supraoptic nucleus (SON) by using brain slice preparation of male Wistar and obese Zucker rats. Bath application of leptin (10(-8) - 10(-12) M) induced mainly inhibitory response in SON neurones of Wistar rats, although a minority showed excitation. These effects were observed in both continuously and phasically active cells. The inhibitory effect of leptin still persisted in low Ca(2+), high Mg(2+) medium. Bath application of tolbutamide, which is known to inhibit ATP-sensitive potassium channel activity, did not reverse the inhibitory effect of leptin on SON neurones. The effect of bath application of leptin was also tested in SON neurones of obese Zucker rats. Although leptin still affected the electrical activity of some SON neurones of Zucker rats, the proportion of unaffected neurones was significantly higher than in Wistar rats. The results suggest that leptin may inhibit the secretion of both oxytocin and vasopressin by inhibiting the electrical activity of neurones in the SON via direct action. This inhibitory effect of leptin may be exerted through mechanisms other than activation of ATP-sensitive potassium channels.