Interaction Between Central Opioidergic and Glutamatergic Systems on Food Intake in Neonatal Chicks: Role of NMDA,AMPA and mGLU1 Receptors

The present study was designed to examine the role of opioidergic and glutamatergic systems on feeding behavior in neonatal meat-type chicken. In experiment 1, FD₃ neonatal broilers ICV injected with (A) saline, (B) DAMGO (µ-opioid receptor agonist, 125 pmol), (C) MK-801 (NMDA glutamate receptors antagonist, 15 nmol) and (D) combination of DAMGO plus MK-801. Experiments 2–5 were similar to experiment 1, except FD₃ chicks ICV injected with CNQX (AMPA glutamate receptors antagonist, 390 nmol), AIDA (mGLU₁ receptors antagonist, 2 nmol), LY341495 (mGLU₂ receptors antagonist, 150 nmol) and UBP1112 (mGLU₃ receptors antagonist, 2 nmol) instead of MK-801, respectively. In experiments 6–10, FD₃ chicks ICV injected as the same as procedure to the experiments 1–5, except to inject with DPDPE (δ-opioid receptor agonist, 40 nmol) instead of the DAMGO. The experiments 11–15 were similar to the experiments 1–5, except neonatal broilers ICV injected with U-50488H (κ-opioid receptor agonist, 30 nmol) instead of DAMGO. Then the cumulative food intake measured until 120 min post injection. According to the results, ICV injection of DAMGO, significantly decreased food intake (P?<?0.05) while DPDPE and U-50488H increased feeding behavior compared to the control group (P?<?0.05). Co-injection of the DAMGO?+?MK-801 and DAMGO?+?AIDA, significantly decreased DAMGO-induced hypophagia in neonatal chicks (P?<?0.05). Also, co-injection of the DPDPE?+?CNQX significantly amplified DPDPE induced feeding behavior (P?<?0.05). These results suggested interconnection between central opioidergic and glutamatergic systems on feeding behavior mediates via µ- and δ-opioid receptor with NMDA, AMPA and mGLU₁ receptors in FD₃ neonatal broilers. These findings may shed light on the circuitry underlying interconnection between central opioidergic and glutamatergic systems on feeding behavior.     

Role of Opioid Receptors on Food Choice and Macronutrient Selection in Meat-Type Chick

The present study was designed to examine the role of opioid receptors on food choice and macronutrient selection in neonatal chicks. In this study, 13 experiments designed, experiments 1–3 for effect of specific opioid receptors on appetite and experiments 4–13 on effect of opioid receptors on food choice and macronutrient selection in meat-type chick. In experiment 1, chicken intracerebroventricular (ICV) injected with 125, 250 and 500 pmol of DAMGO (µ-opioid receptor agonist). Experiment 2 was conducted to investigate the effect of DPDPE (δ-opioid receptor agonist) at doses of 20, 40 and 80 nmol. In experiment 3 ICV injection of the U-50488H (κ-opioid receptor agonist, of 10, 20 and 40 nmol) was done. In experiment 4, birds injected with saline and different diets: standard diet without fat, diet containing nutrient energy 20 % higher than standard, diet containing nutrient energy 20 % lower than standard and standard diet containing fat were offered to them to investigate desire of chicken to diets. Experiments 5–7 were similar to experiment 4, except, birds ICV injected with 125, 250 and 500 pmol of DAMGO. In experiments 8–10 chicken received ICV injection of DPDPE (20, 40 and 80 nmol). The experiments 11–13 was similar to previous experiments which birds injected with different doses of U-50488H (10, 20 and 40 nmol), respectively. Then the cumulative food intake measured until 180-min post injection. According to the results, ICV injection of DAMGO diminished food intake while DPDPE and U-50488H increased appetite (P < 0.05). Despite anorexigenic effect, ICV injection of DAMGO increased birds desire to eat fat containing standard diet compared to the standard diet without fat (P < 0.05). These findings suggest endogenous opioids governing preferences for fat rich foods.     

Interaction Between Opioidergic and Dopaminergic Systems on Food Intake in Neonatal Layer Type Chicken

Central regulatory mechanisms for food intake regulation vary among animals. Evidence from animal studies suggests central opioids and dopamine have prominent role on appetite regulation but their interaction(s) have not been studied in layer-type chicken. Thus, in this study six experiments designed to investigate intracerebroventricular (ICV) administration of SCH23390 (D₁ like receptors antagonist), Sulpride (D₂ like receptors antagonist), DAMGO (μ-opioid receptors agonist), DPDPE (δ-opioid receptors agonist), U-50488H (κ-opioid receptors agonist) on feeding behavior in 3 h food deprived neonatal layer-type chickens. In experiment 1, chicks ICV injected with control solution, SCH23390 (2.5 nmol), DAMGO (125 pmol) and their combination (SCH23390 + DAMGO). In experiment 2: control solution, SCH23390 (2.5 nmol), DPDPE (δ-opioid receptors agonist, 40 pmol) and SCH23390 + DPDPE were applied to the birds. In experiment 3, injections were control solution, SCH23390 (2.5 nmol), U-50488H (30 nmol) and SCH23390 + U-50488H. In experiments 4–6 were similar to experiments 1–3 except Sulpride (2.5 nmol) applied instead of SCH23390. Then, cumulative food intake was recorded until 120 min after injection. According to the results, ICV injection of DAMGO (125 pmol) significantly decreased food intake but co-injection of DAMGO + SCH23390 diminished DAMGO-induced hypophagia (P < 0.05). Also, SCH23390 was not able to decrease the DPDPE- and U-50488H-induced hyperphagia (P > 0.05). Furthermore, Sulpride had no role on DAMGO, DPDPE and U-50488H-induced food intake (P > 0.05). These results suggest there is an interaction between opioidergic and dopaminergic systems via μ and D₁ receptors in appetite regulation in chicken.     

Inhibitory effect of chicken gonadotropin-releasing hormone II on food intake in the goldfish, Carassius auratus

Gonadotropin-releasing hormone (GnRH) is an evolutionarily conserved neuropeptide with 10 amino acid residues, which possesses some structural variants. A molecular form known as chicken GnRH II ([His⁵ Trp⁷ Tyr⁸] GnRH, cGnRH II) is widely distributed in vertebrates, and has recently been implicated in the regulation of sexual behavior and food intake in an insectivore, the musk shrew. However, the influence of cGnRH II on feeding behavior has not yet been studied in model animals such as rodents and teleost fish. In this study, therefore, we investigated the role of cGnRH II in the regulation of feeding behavior in the goldfish, and examined its involvement in food intake after intracerebroventricular (ICV) administration. ICV-injected cGnRH II at graded doses, from 0.1 to 10 pmol/g body weight (BW), induced a decrease of food consumption in a dose-dependent manner during 60 min after treatment. Cumulative food intake was significantly decreased by ICV injection of cGnRH II at doses of 1 and 10 pmol/g BW during the 60-min post-treatment observation period. ICV injection of salmon GnRH ([Trp⁷ Leu⁸] GnRH, sGnRH) at doses of 0.1-10 pmol/g BW did not affect food intake. The anorexigenic action of cGnRH II was completely blocked by treatment with the GnRH type I receptor antagonist, Antide. However, the anorexigenic action of cGnRH II was not inhibited by treatment with the corticotropin-releasing hormone (CRH) 1/2 receptor antagonist, α-helical CRH₍₉₋₄₁₎, and the melanocortin 4 receptor antagonist, HS024. These results suggest that, in the goldfish, cGnRH II, but not sGnRH, acts as an anorexigenic factor, as is the case in the musk shrew, and that the anorexigenic action of cGnRH II is independent of CRH- and melanocortin-signaling pathways.     

Comprehensive in vitro regeneration study with SCoT marker assisted clonal stability assessment and flow cytometric genome size analysis of Carthamus tinctorius L.: an important medicinal plant

An efficacious and reproducible in vitro regeneration technique for safflower was established using varying concentrations and composition of plant growth regulators (PGRs) supplemented Murashige and Skoog (MS) medium. Successful in vitro seed germination in half strength MS (H-MS) with 1.4 µM GA₃ resulted in procurement of sterile explants (cotyledons, apical meristems) for in vitro study. Callogenesis (2.2 µM BAP?+?2.7 µM NAA), indirect organogenesis of shoot buds (0.54 µM NAA?+?9.08 µM TDZ), somatic embryogenesis (2.2 µM BAP?+?5.4 µM NAA) and somatic embryo germinated plantlets (H-MS?+?1.4 µM GA₃?+?2.2 µM BAP?+?5.4 µM NAA) were successfully obtained. Histological study and scanning electron micrographs of embryogenic callus revealed pre-globular, heart-shaped and torpedo stages of dicot embryogeny. H-MS?+?8 µM NAA showed maximum rhizogenic response with a mean root and shoot length of 17.5 mm and 48.50 mm respectively in 2.2 µM BAP?+?0.54 µM NAA bearing an average of 9 capitula per plantlet with 70% post transplantation survival rate. True to type nature of the regenerates was confirmed using Start Codon Targeted (SCoT) marker, exhibiting 100% and 97.3% monomorphic bands for direct and somatic embryo regenerated plants respectively. Flow cytometry method (FCM) was employed for 2C DNA content analysis. The histogram peaks of 2C nuclear DNA content of in vitro regenerated safflower (direct and embryo derived) were similar to the peak of field grown donor plant. 2C nuclear DNA content of field grown, direct and somatic embryo regenerated C. tinctorius was 2.65?±?0.04 pg, 2.62?±?0.06 pg and 2.68?±?0.04 pg respectively, further verifying genetic homogeneity. All things considered, the above protocol is insusceptible to genetic alteration and can be used for large scale production and sustainable utilization of desired genotype.

     

Involvement of nigral oxytocin in locomotor activity: A behavioral,immunohistochemical and lesion study in male rats

Oxytocin is involved in the control of different behaviors, from sexual behavior and food consumption to empathy, social and affective behaviors. An imbalance of central oxytocinergic neurotransmission has been also associated with different mental pathologies, from depression, anxiety and anorexia/bulimia to schizophrenia, autism and drug dependence. This study shows that oxytocin may also play a role in the control of locomotor activity. Accordingly, intraperitoneal oxytocin (0.5–2000 μg/kg) reduced locomotor activity of adult male rats. This effect was abolished by d(CH₂)₅Tyr(Me)²-Orn⁸-vasotocin, an oxytocin receptor antagonist, given into the lateral ventricles at the dose of 2 μg/rat, which was ineffective on locomotor activity. Oxytocin (50–200 ng/site) also reduced and d(CH₂)₅Tyr(Me)²-Orn⁸-vasotocin (2 μg/site) increased locomotor activity when injected bilaterally into the substantia nigra, a key area in the control of locomotor activity. Conversely, the destruction of nigral neurons bearing oxytocin receptors by the recently characterized neurotoxin oxytocin-saporin injected into the substantia nigra, increased basal locomotor activity. Since oxytocin-saporin injected into the substantia nigra caused a marked reduction of neurons immunoreactive for tyrosine hydroxylase (e.g., nigrostriatal dopaminergic neurons) and for vesicular glutamate transporters VGluT1, VGluT2 and VGluT3 (e.g., glutamatergic neurons), but not for glutamic acid decarboxylase (e.g., GABAergic neurons), together these findings suggest that oxytocin influences locomotor activity by acting on receptors localized presynaptically in nigral glutamatergic nerve terminals (which control the activity of nigral GABAergic efferent neurons projecting to brain stem nuclei controlling locomotor activity), rather than on receptors localized in the cell bodies/dendrites of nigrostriatal dopaminergic neurons.     

Interaction Between Nociceptin/Orphanin FQ and Adrenergic System on Food Intake in Neonatal Chicken

The information emerging from the studies demonstrates adrenergic system and nociceptin/orphanin FQ (N/OFQ) play a crucial role on appetite regulation but there is no information for their interaction. The purpose of this study was to examine the effects of intracerebroventricular (ICV) injection of prazosin (α₁ receptor antagonist), yohimbine (α₂ receptor antagonist), metoprolol (β₁ adrenergic receptor antagonist), ICI 118,551 (β₂ adrenergic receptor antagonist) and SR59230R (β₃ adrenergic receptor antagonist) on N/OFQ-induced hyperphagia by 3-h food-deprived neonatal broiler chicken. In experiment 1, chicken injected with saline, prazosin (10 nmol), N/OFQ (16 nmol) and co-injection of prazosin + N/OFQ. In experiment 2, ICV injection of saline, yohimbine (13 nmol), N/OFQ (16 nmol) and yohimbine + N/OFQ applied to the birds. In experiment 3, injections were saline, metoprolol (24 nmol), N/OFQ (16 nmol) and metoprolol + N/OFQ. In experiment 4, the birds received ICV injection of saline, ICI 118,551 (5 nmol), (C) N/OFQ (16 nmol) and co-administration of ICI 118,551 + N/OFQ. In experiment 5, chicken injected with saline, SR59230R (20 nmol), N/OFQ (16 nmol) and SR59230R + N/OFQ. Then, cumulative food intake was recorded until 120 min after injection. According to the results, ICV injection of N/OFQ significantly increased food intake (P < 0.001). The effect of N/OFQ significantly amplified by co-injection of N/OFQ + β₂ adrenergic receptor antagonist (P < 0.001). Also, administration of β₁ or β₃ adrenergic receptor antagonist had no effect on N/OFQ-induced hyperphagia (P > 0.05). These results suggest that the effect of N/OFQ on cumulative food intake is mediated via β₂ adrenergic receptors in neonatal chicken.     

Influence of oxytocin on feeding behavior in the rat

Oxytocin, whether administered intraperitoneally (IP) (375-6,000 micrograms/kg) or intracerebroventricularly (ICV) (1-10 micrograms/rat), dose-dependently reduced food consumption and time spent eating and increased the latency to the first meal in rats fasted for 21 hr. Pretreatment with the oxytocin antagonist d(CH2)5Tyr(Me)-[Orn8]vasotocin (ICV 10 micrograms/rat) completely prevented the feeding inhibitory effect of an equal dose of ICV oxytocin, and per se increased food intake. Our data further support the hypothesis that oxytocin plays the role of neurotransmitter or neuromodulator in the CNS, and suggest that its involvement in a number of homeostatic systems may include appetite control.     

Oxytocin induces penile erection and yawning when injected into the bed nucleus of the stria terminalis: Involvement of glutamic acid,dopamine, and nitric oxide

Oxytocin (5–100 ng), but not Arg⁸-vasopressin (100 ng), injected unilaterally into the bed nucleus of the stria terminalis (BNST) induces penile erection and yawning in a dose-dependent manner in male rats. The minimal effective dose was 20 ng for penile erection and 5 ng for yawning. Oxytocin responses were abolished not only by the oxytocin receptor antagonist d(CH₂)₅Tyr(Me)²-Orn⁸-vasotocin (1 μg), but also by (+) MK-801 (1 μg), an excitatory amino acid receptor antagonist of the N-methyl-d-aspartic acid (NMDA) subtype, SCH 23390 (1 μg), a D1 receptor antagonist, but not haloperidol (1 μg), a D2 receptor antagonist, and SMTC (40 μg), an inhibitor of neuronal nitric oxide synthase, injected into the BNST 15 min before oxytocin. Oxytocin-induced penile erection, but not yawning, was also abolished by CNQX (1 μg), an excitatory amino acid receptor antagonist of the AMPA subtype. In contrast, oxytocin responses were not reduced by bicuculline (20 ng), a GABA_A receptor antagonist, phaclofen (5 μg), a GABA_B receptor antagonist, CP 376395, a CRF receptor-1 antagonist (5 μg), or astressin 2B, a CRF receptor-2 antagonist (150 ng). Considering the ability of NMDA (100 ng) to induce penile erection and yawning when injected into the BNST and the available evidence showing possible interaction among oxytocin, glutamic acid, and dopamine in the BNST, oxytocin possibly activates glutamatergic neurotransmission in the BNST. This in turn leads to the activation of neural pathways projecting back to the paraventricular nucleus, medial preoptic area, ventral tegmental area, and/or ventral subiculum/amygdala, thereby inducing penile erection and yawning.     

Evidence that paraventricular nucleus oxytocin neurons link hypothalamic leptin action to caudal brain stem nuclei controlling meal size

Hindbrain projections of oxytocin neurons in the parvocellular paraventricular nucleus (pPVN) are hypothesized to transmit leptin signaling from the hypothalamus to the nucleus of the solitary tract (NTS), where satiety signals from the gastrointestinal tract are received. Using immunocytochemistry, we found that an anorectic dose of leptin administered into the third ventricle (3V) increased twofold the number of pPVN oxytocin neurons that expressed Fos. Injections of fluorescent cholera toxin B into the NTS labeled a subset of pPVN oxytocin neurons that expressed Fos in response to 3V leptin. Moreover, 3V administration of an oxytocin receptor antagonist, [d-(CH2)5,Tyr(Me)2,Orn8]-vasotocin (OVT), attenuated the effect of leptin on food intake over a 0.5- to 4-h period (P < 0.05). Furthermore, to determine whether oxytocin contributes to leptin's potentiation of Fos activation within NTS neurons in response to CCK, we counted the number of Fos-positive neurons in the medial NTS (mNTS) after 3V administration of OVT before 3V leptin and intraperitoneal CCK-8 administration. OVT resulted in a significant 37% decrease (P < 0.05) in the potentiating effect of leptin on CCK activation of mNTS neuronal Fos expression. Furthermore, 4V OVT stimulated 2-h food intake by 43% (P < 0.01), whereas 3V OVT at the same dose was ineffective. These findings suggest that release of oxytocin from a descending pPVN-to-NTS pathway contributes to leptin's attenuation of food intake by a mechanism that involves the activation of pPVN oxytocin neurons by leptin, resulting in increased sensitivity of NTS neurons to satiety signals.     

Gonadotropin-releasing hormone II (GnRH II) mediates the anorexigenic actions of α-melanocyte-stimulating hormone (α-MSH) and corticotropin-releasing hormone (CRH) in goldfish

Intracerebroventricular (ICV) administration of gonadotropin-releasing hormone II (GnRH II), which plays a crucial role in the regulation of reproduction in vertebrates, markedly reduces food intake in goldfish. However, the neurochemical pathways involved in the anorexigenic action of GnRH II and its interaction with other neuropeptides have not yet been identified. Alpha-melanocyte-stimulating hormone (α-MSH), corticotropin-releasing hormone (CRH) and CRH-related peptides play a major role in feeding control as potent anorexigenic neuropeptides in goldfish. However, our previous study has indicated that the GnRH II-induced anorexigenic action is not blocked by treatment with melanocortin 4 receptor (MC4R) and CRH receptor antagonists. Therefore, in the present study, we further examined whether the anorexigenic effects of α-MSH and CRH in goldfish could be mediated through the GnRH receptor neuronal pathway. ICV injection of the MC4R agonist, melanotan II (80 pmol/g body weight; BW), significantly reduced food intake, and its anorexigenic effect was suppressed by ICV pre-administration of the GnRH type I receptor antagonist, antide (100 pmol/g BW). The CRH-induced (50 pmol/g BW) anorexigenic action was also blocked by treatment with antide. ICV injection of CRH (50 pmol/g BW) induced a significant increase of the GnRH II mRNA level in the hypothalamus, while ICV injection of melanotan II (80 pmol/g BW) had no effect on the level of GnRH II mRNA. These results indicate that, in goldfish, the anorexigenic actions of α-MSH and CRH are mediated through the GnRH type I receptor-signaling pathway, and that the GnRH II system regulates feeding behavior.     

Effect of In Ovo Feeding of Folic Acid on Subsequent Growth Performance and Blood Constituents Levels in Broilers

This study designed to determine effect of in ovo feeding of folic acid on subsequent growth performance and blood constituents levels in broilers. A total of 1000 fertile broiler eggs were divided into four groups. Control group (1) received no injection. In group 2, eggs received in ovo feeding of distiller water (40 µg). Group 3 received in ovo feeding of folic acid (40 µg). Groups 4 and 5 were similar to Group 3, except eggs injected with 80 and 120 µg of folic acid. All eggs were incubated and after hatch chickens were randomly assigned into their experimental groups. On days 1 and 42 post-hatch, chicken randomly selected and blood constituents, carcass characteristics, food intake, body weight gain and food conversion ratio were determined. According to the results, no significant difference detected on hatchability rate of the in ovo injected eggs (P?>?0.05). Dose dependent increase observed in glucose and folic acid levels in chicken in ovo injected with folic acid on day 1 post hatch (P?=?0.001). Blood glucose, folic acid and phosphorous levels increased (P?=?0.001) while cholesterol, triglyceride, HDL and LDL, calcium and alkaline phosphatase decreased in ovo injected with folic acid on day 42 post hatch (P?=?0.001). Food conversion ratio increased by in ovo injection of the folic acid (P?=?0.001). These results suggest folic acid had positive effects in broiler chicken.     

The CCKB antagonist CI988 reduces food intake in fasted rats via a dopamine mediated pathway

Studies have shown a reduction of food intake following peripheral and brain injection of CCK. However, it remains to be established whether endogenous central CCK is involved in the regulation of food intake. We investigated the role of central CCK in the regulation of food intake by pharmacological manipulation of the CCK_B (CCK₂) receptor system. Intracerebroventricularly (ICV) cannulated male Sprague Dawley rats were fasted for 24 h and received an ICV injection of the CCK_B receptor antagonist CI988 at a dose of 10 nmol or 49 nmol or vehicle. Another group received two consecutive ICV injections consisting of the corticotropin-releasing factor (CRF) receptor-1 (CRF₁) antagonist, CP376395 (3 nmol) or the CRF₂ receptor antagonist, K41498 (2 nmol) alone, or followed by CI988 (49 nmol). Lastly, another group of rats received an intraperitoneal (IP) injection of the dopamine antagonist, flupentixol (∼197 and ∼493 nmol/kg) alone, or followed by CI988 (49 nmol, ICV). Cumulative food intake was assessed for 11 h. Vehicle injected rats showed a robust feeding response. CI988 at 49 nmol reduced food intake by 30% starting at 2 h post injection. CP376395 and K41498 had no effect on food intake. Flupentixol injected IP at a dose of 197 and 493 nmol/kg alone did not modulate food intake whereas the higher dose blocked the CI988-induced reduction of feeding. During the dark phase, CI988 had no effect on food intake in unfasted rats. In summary, CCK_B signaling is involved in the regulation of food intake after a fast likely by downstream dopamine signaling.     

The effects of bicuculline and muscimol on glutamate-induced feeding behavior in broiler cockerels

This study was designed to examine the effects of intracerebroventricular (ICV) injection of bicuculline (GABA_A receptor antagonist) and muscimol (GABA_A receptor agonist) on glutamate-induced eating response in 24-h food-deprived (FD24) broiler cockerels. At first, guide cannula was surgically implanted in the right lateral ventricle of chickens. In experiment 1, birds were ICV injected with different doses of glutamate. In experiment 2, birds were administered with effective dose of glutamate after bicuculline. In experiment 3, chickens received muscimol prior to the injection of glutamate, and cumulative food intake was determined at 3-h postinjection. The results of this study showed that glutamate decreases food consumption in FD24 broiler cockerels (P ≤ 0.05), and this reduction occurs in a dose-dependent manner. Moreover, the inhibitory effect of glutamate on food intake was significantly increased with bicuculline pretreatment, and this effect was attenuated with muscimol (P ≤ 0.05). These results suggest that there is an interaction between glutamatergic and GABAergic systems (through GABA_A receptor) on food intake in broiler cockerels.     

Irisin Peptide Protects Brain Against Ischemic Injury Through Reducing Apoptosis and Enhancing BDNF in a Rodent Model of Stroke

Evidence has shown therapeutic potential of irisin in cerebral stroke. The present study aimed to assess the effects of recombinant irisin on the infarct size, neurological outcomes, blood–brain barrier (BBB) permeability, apoptosis and brain-derived neurotrophic factor (BDNF) expression in a mouse model of stroke. Transient focal cerebral ischemia was established by middle cerebral artery occlusion (MCAO) for 45 min and followed reperfusion for 23 h in mice. Recombinant irisin was administrated at doses of 0.1, 0.5, 2.5, 7.5, and 15 µg/kg, intracerebroventricularly (ICV), on the MCAO beginning. Neurological outcomes, infarct size, brain edema and BBB permeability were evaluated by modified neurological severity score (mNSS), 2,3,5-triphenyltetrazolium chloride (TTC) staining and Evans blue (EB) extravasation methods, respectively, at 24 h after ischemia. Apoptotic cells and BDNF protein were detected by TUNEL assay and immunohistochemistry techniques. The levels of Bcl-2, Bax and caspase-3 proteins were measured by immunoblotting technique. ICV irisin administration at doses of 0.5, 2.5, 7.5 and 15 µg/kg, significantly reduced infarct size, whereas only in 7.5 and 15 µg/kg improved neurological outcome (P?<?0.001). Treatment with irisin (7.5 µg/kg) reduced brain edema (P?<?0.001) without changing BBB permeability (P?>?0.05). Additionally, irisin (7.5 µg/kg) significantly diminished apoptotic cells and increased BDNF immunoreactivity in the ischemic brain cortex (P?<?0.004). Irisin administration significantly downregulated the Bax and caspase-3 expression and upregulated the Bcl-2 protein. The present study indicated that irisin attenuates brain damage via reducing apoptosis and increasing BDNF protein of brain cortex in the experimental model of stroke in mice.     

Insensitivity of well-conditioned mature sheep to central administration of a leptin receptor antagonist

Ruminants remain productive during the energy insufficiency of late pregnancy or early lactation by evoking metabolic adaptations sparing available energy and nutrients (e.g. higher metabolic efficiency and induction of insulin resistance). A deficit in central leptin signaling triggers these adaptations in rodents but whether it does in ruminants remains unclear. To address this issue, five mature ewes were implanted with intracerebroventricular (ICV) cannula in the third ventricle. They were used in two experiments with an ovine leptin antagonist (OLA) when well-conditioned (average body condition score of 3.7 on a 5 point scale). The first experiment tested the ability of OLA to antagonize leptin under in vivo conditions. Ewes received continuous ICV infusion of artificial cerebrospinal fluid (aCSF), ovine leptin (4 µg/h) or the combination of ovine leptin (4 µg/h) and its mutant version OLA (40 µg/h) for 48 h. Dry matter intake (DMI) was measured every day and blood samples were collected on the last day of infusion. ICV infusion of leptin reduced DMI by 24% (P<0.05), and this effect was completely abolished by OLA co-infusion. A second experiment tested whether a reduction in endogenous leptin signaling in the brain triggers metabolic adaptations. This involved continuous ICV infusions of aCSF or OLA alone (40 µg/h) for 4 consecutive days. The infusion of OLA did not alter voluntary DMI over the treatment period or on any individual day. OLA did not affect plasma variables indicative of insulin action (glucose, non-esterified fatty acids, insulin and the disposition of plasma glucose during an insulin tolerance test) or plasma cortisol, but tended to reduce plasma triiodothyronine and thyroxine (P<0.07). Overall, these data show that a reduction of central leptin signaling has little impact on insulin action in well-conditioned mature sheep. They also raise the possibility that reduced central leptin signaling plays a role in controlling thyroid hormone production.     

In vitro acclimation to prolonged metallic stress is associated with modulation of antioxidant responses in a woody shrub Daphne jasminea

Comparative effect of meta-topolin and other cytokinins was assessed to develop an efficient and reliable regeneration protocol for Tecoma stans, using mature nodal explants. The morphogenic effect of benzyl adenine (BA), kinetin (Kin), meta- topolin (mT) and 2-iP (2-iso pentenyl adenine) at various concentrations (1.0–10 µM) was studied individually or in combination with auxins (IAA, IBA or NAA). Superior multiplication rates were achieved on MS medium supplemented with mT and NAA. Of the tested combinations, maximum shoot regeneration (95%), mean shoot number (19.6?±?0.60) and length (5.26?±?0.73 cm) was recorded on MS medium supplemented with 7.5 µM mT?+?0.5 µM NAA after 8 weeks of incubation. Among the different auxins employed for in vitro root induction, 92.5% microshoots rooted on MS medium enriched with 1.0 µM IBA with 10.8?±?0.20 mean root number and 5.62?±?0.17 cm length after 4 weeks of incubation. The acclimatized plants grew well in green house with 90% survival rate. The gas chromatography–mass spectrometry (GC–MS) analysis of ethanol leaf extract of in vitro-raised plants yielded a higher number of compounds than control plant. The assessment of genetic fidelity among regenerants, using ISSR markers did not reveal any somaclonal variation. Therefore, the protocol developed appears to be simple and reliable for mass production of clones with higher diversity of secondary metabolites.