Simplified panicle fertilization is applicable to japonica cultivars, but splits are preferred in indica rice for a higher paddy yield under wheat straw return.

Introduction: The panicle fertilization strategy for japonica and indica rice under wheat straw return (SR) has not been updated, especially on the elaboration of their impacts on spikelet differentiation and degeneration. This study aimed to verify the hypothesis that SR increases spikelet number by reducing spikelet degeneration and to explore the possibility of simplifying panicle fertilization. Methods: In three consecutive years, four varieties of japonica and indica rice were field-grown in Yangzhou, Jiangsu Province, China. Six panicle fertilization rates and split treatments were applied to SR and no straw return (NR) conditions. Results: The results showed that SR promoted rice yield significantly by 3.77%, and the highest yields were obtained under the T2 (split panicle fertilization at the panicle initiation (PI) and spikelet primordium differentiation (SPD) stages) and T1 (panicle fertilization only at the PI stage) treatments, for indica and japonica rice, respectively. Correlation and path analysis revealed that the number of spikelets per panicle was the most attributable to yield variation. SR significantly increased the concentration of alkali hydrolyzable N in the soil 40 days after rice transplantation, significantly increased the nitrogen accumulation per stem (NA) during the SPD-pollen mother cell meiosis (PMC) stage, and increased the brassinosteroids level in the young panicles at the PMC stage. SR also reduced the degeneration rate of spikelets (DRS) and increased the number of surviving spikelets (NSS). The dry matter accumulation per stem was more important to increasing the NA in japonica rice at the PMC stage, whereas NA was more affected by the N content than the dry matter accumulation in indica rice. In japonica rice, panicle N application once only at the PI stage combined with the N released from SR was enough to improve the plant N content, reduce the DRS, and increase the NSS. For indica rice, split application of N panicle fertilization at both the PI and SPD stages was still necessary to achieve a maximum NSS. Discussion: In conclusion, under wheat SR practice, panicle fertilization could be simplified to once in japonica rice with a significant yield increase, whereas equal splits might still be optimal for indica rice.

Endogenous leptin receptor signaling in the medial nucleus tractus solitarius affects meal size and potentiates intestinal satiation signals.

Leptin receptor (LepRb) signaling in the hindbrain is required for energy balance control. Yet the specific hindbrain neurons and the behavioral processes mediating energy balance control by hindbrain leptin signaling are unknown. Studies here employ genetic [adeno-associated virally mediated RNA interference (AAV-RNAi)] and pharmacological methodologies to specify the neurons and the mechanisms through which hindbrain LepRb signaling contributes to the control of food intake. Results show that AAV-RNAi-mediated LepRb knockdown targeting a region encompassing the mNTS and area postrema (AP) (mNTS/AP LepRbKD) increases overall cumulative food intake by increasing the size of spontaneous meals. Other results show that pharmacological hindbrain leptin delivery and RNAi-mediated mNTS/AP LepRb knockdown increased and decreased the intake-suppressive effects of intraduodenal nutrient infusion, respectively. These meal size and intestinally derived signal amplification effects are likely mediated by LepRb signaling in the mNTS and not the AP, since 4th icv and mNTS parenchymal leptin (0.5 µg) administration reduced food intake, whereas this dose did not influence food intake when injected into the AP. Overall, these findings deepen the understanding of the distributed neuronal systems and behavioral mechanisms that mediate the effects of leptin receptor signaling on the control of food intake.

Mechanism of vitamin B6 benzoyl hydrazone platinum(II) complexes overcomes multidrug resistance in lung cancer.

To overcome the resistance of tumour cells to cis-diaminedichloroplatinum(II) (cisplatin, DDP), we designed and synthesised platinum(II) complexes with copper coordination active sites using vitamin B6 and benzohydrazide derivatives as raw materials.The 3D structures of the complexes were confirmed by X-ray single-crystal diffraction. The results of the biological activity assay showed that the Pt(II) complexes (VB6-Pt1 and VB6-Pt2) have higher anti-tumour activity on detected typical lung cancer cells than DDP. Among them, VB6-Pt1 (IC50 = 0.78 µM) efficiently reversed DDP resistance in A549/DDP cell line and increased selectivity index (26) against mortal MRC-5 fibroblasts. The study showed that VB6-Pt1 overcomes tumor drug resistance by significantly increasing the level of reactive oxyge species and inducing lysosomal membrane permeability, which leads to mitochondrial dysfunction and cell apoptosis. Furthermore, the inhibitory effect of VB6-Pt1 on A549 xenograft tumours was 81.5%, which was much higher than that of cisplatin (50.0%), without significantly increasing p-glycoprotein (P-gp) protein expression. The copper-coordinated active site in Pt(II) complexes may be a key factor in their ability to overcome DDP-resistant cancer cells.

[µ-opioid receptors in the central nucleus of the amygdala modulate sucrose solution intake in rats].

OBJECTIVE: To explore the role of µ-opioid receptors (MOR) in the central nucleus of the amygdala (CeA) in modulating sucrose solution intake in rats. METHODS: Sprague-Dawley rats received intra-CeA injection of MOR agonist DAMGO or saline, and then underwent two bottle choice test between sucrose solution and distilled water. After intake of sucrose solution or distilled water, activated neurons in the CeA were labeled and identified with MOR/Fos-double labeling immunohistochemistry. RESULTS: Compared with saline injection, intra-CeA injection of DAMGO significantly increased sucrose solution intake in rats over a 3-h period. Sucrose solution intake induced significantly more c-Fos and MOR/Fos double-labeled neurons in the CeA than distilled water intake. CONCLUSIONS: The CeA participates in modulation of sucrose intake in rats, and MOR may partly mediate this mechanism.

Microinjection of NMDA-type glutamate receptor agonist NMDA and antagonist D-AP-5 into the central nucleus of the amygdale alters water intake rather than food intake.

OBJECTIVE: To investigate the role of N-Methyl-D-aspartic acid (NMDA)-type glutamate receptors in the central nucleus of the amygdale (CeA) in food and water intake. METHODS: Male Sprague-Dawley rats with stainless steel cannulae implanted unilaterally into the CeA were used. The prototypic NMDA receptor agonist NMDA, or the selective NMDA receptor antagonist D(-)-2-amino-5-phosphonopentanoic acid (D-AP-5) was microinjected into the CeA of satiated and euhydrated rats. RESULTS: Intra-CeA injection of 8.50, 17.00, or 34.00 nmol NMDA did not alter food intake but significantly increased water intake 0-1 h after the injection (F(3,32)=3.191, P=0.037) independent of food intake. Without affecting the food intake, injection of 6.34, 12.70, or 25.40 nmol D-AP-5 into the CeA significantly decreased water intake 0-1 h after the injection (F(3,28)=3.118, P=0.042) independent of food intake. CONCLUSION: NMDA receptors in the CeA may participate in the control of water intake rather than food intake.

Increased sucrose intake and corresponding c-Fos in amygdala and parabrachial nucleus of dietary obese rats.

The intake-excitatory effects of caloric foods are mainly due to the palatable taste and the ensuing positive postingestive effects. Dietary obese individuals are inclined to overeat high caloric foods. However, it is still unclear whether the taste or postingestive reinforcement mainly contributes to the excessive intake by obese individuals. In the present study, we measured 10- or 120-min sucrose solution drunk by dietary obese rats and measured c-Fos expression following 120-min tests in the central nucleus of amygdala (CeA), a forebrain nucleus involved in the hedonic reward and craving, and the parabrachial nucleus (PBN), a taste relay area responsive to positive postingestive effects. Dietary obese rats, compared with those fed normal chow, ingested larger amounts of sucrose solution (0.25 M) in the 120-min test, but not in the 10-min test. In addition, significantly more sucrose-induced c-Fos positive cells were found in the CeA, but much less in the external lateral subnucleus of the PBN of dietary obese rats. Our results demonstrate that increased sucrose intake in dietary obese rats is mainly due to the alteration of postingestive effects. The differences in these postingestive effects in obesity may involve greater positive/excitatory signals in which the CeA may play a role, and less negative/inhibitory signals in which the el-PBN may be involved.

Intracellular signals mediating the food intake-suppressive effects of hindbrain glucagon-like peptide-1 receptor activation.

Glucagon-like peptide-1 receptor (GLP-1R) activation within the nucleus tractus solitarius (NTS) suppresses food intake and body weight (BW), but the intracellular signals mediating these effects are unknown. Here, hindbrain (fourth i.c.v.) GLP-1R activation by Exendin-4 (Ex-4) increased PKA and MAPK activity and decreased phosphorylation of AMPK in NTS. PKA and MAPK signaling contribute to food intake and BW suppression by Ex-4, as inhibitors RpcAMP and U0126 (fourth i.c.v.), respectively, attenuated Ex-4's effects. Hindbrain GLP-1R activation inhibited feeding by reducing meal number, not meal size. This effect was attenuated with stimulation of AMPK activity by AICAR (fourth i.c.v.). The PKA, MAPK, and AMPK signaling responses by Ex-4 were present in immortalized GLP-1R-expressing neurons (GT1-7). In conclusion, hindbrain GLP-1R activation suppresses food intake and BW through coordinated PKA-mediated suppression of AMPK and activation of MAPK. Pharmacotherapies targeting these signaling pathways, which mediate intake-suppressive effects of CNS GLP-1R activation, may prove efficacious in treating obesity.

[GABAergic neurons in the central nucleus of amygdala modulate sodium appetite in rats].

OBJECTIVE: To determine whether the GABA-containing neurons in rat central nucleus of amygdala (CeA) can be activated by acute sodium deprivation. METHODS: Acute sodium depletion was induced by subcutaneous injection of furosemide in rats followed by 24 h of dietary sodium deprivation. The rats underwent 0.3 mol/L NaCl/distilled water two bottle choice test, and the activated neurons were labeled and identified with GABA/Fos-double labeling immunohistochemistry. RESULTS: The rats with acute sodium depletion exhibited significantly more numerous c-fos-positive neurons and GABA/Fos double-labeled neurons in the CeA than the control group (P<0.01, P<0.05). Consumption of 0.3 mol/L NaCl significantly increased the number of c-fos and GABA/Fos double labeled neurons compared to the distilled water group (P<0.001, P<0.01). CONCLUSION: GABAergic neurons in the CeA may play an inhibitory role in the regulation of sodium intake in rats with acute sodium depletion.

Fos expression and hormone changes following electrical stimulation of the posterodorsal amygdala and the effects on food intake in conscious female rats.

Previous studies have shown that lesions of the posterodorsal amygdala (PDA) produce hyperphagia and obesity in female rats. To better understand the role of the PDA in the regulation of feeding behavior, the current study examined the effects of electrical stimulation of the PDA of female rats on food intake and identified neurons activated by PDA stimulation using Fos immunohistochemistry. Hormonal levels following stimulation of the PDA were also investigated. Electrical stimulation (100 muA, 0.2 ms, 20 Hz, 10 min) of the PDA remarkably decreased 1 h food intake of rats. Following PDA stimulation, the number of Fos-like immunoreactive neurons increased in the caudal and intermediate parts of the nucleus of the solitary tract (NST), the area postrema (AP), the external lateral subnucleus of the parabrachial nucleus (PBN), the arcuate nucleus of the hypothalamus (Arc), and the central amygdaloid nucleus (CeA). The level of circulating leptin was elevated significantly by PDA stimulation as well. Together with previous studies, the results suggest that the PDA may play an important role in the regulation of feeding behavior, at least partly by modulating the circulating leptin, and that the caudal and intermediate parts of the NST, AP, external lateral PBN, Arc, and CeA probably participate in this regulation.