Soy-fortelin: A ghrelin sensitivity-enhancing peptide that stimulates food intake in aged mice.

Ghrelin sensitivity is known to decrease with aging in mice and humans, and the decrease contributes to anorexia with aging. In this study, we discovered novel ghrelin sensitivity-enhancing peptides. Ghrelin sensitivity was evaluated by examining whether dipeptide samples enhanced the calcium response to ghrelin in the growth hormone secretagogue receptor-transfected cell line. First, dipeptides were screened using a 336-dipeptide library and we revealed that Ser-Tyr (SY) potentiated ghrelin sensitivity in particular. Based on the structure-activity relationship determined using the dipeptide library and comprehensive analysis of peptides in the chymotrypsin digest of soy ß-conglycinin (ß-CG), which enhanced ghrelin sensitivity, candidate peptides were narrowed down. Among the chemosynthesized peptides, we discovered that an undecapeptide, SLVNNDDRDSY, corresponding to ß-CGα(267-277), stimulated ghrelin sensitivity in vitro. This peptide enhanced the orexigenic activity of ghrelin in C57BL/6 mice and stimulated food intake. Thus, we demonstrated that SLVNNDDRDSY stimulated ghrelin sensitivity in vitro and in vivo and named it "soy-fortelin". Moreover, orally administered soy-fortelin had a similar but smaller effect in the young C57BL/6 mice, whereas it strongly stimulated food intake in 2-year-old aged mice that exhibited high blood ghrelin levels and low ghrelin sensitivity. In conclusion, we discovered soy-fortelin as a novel peptide that enhances ghrelin sensitivity in vivo and in vitro and increases food intake in young and aged ghrelin-resistant mice. Soy-fortelin is the first food-derived peptide reported to enhance ghrelin sensitivity.

Human milk-specific fat components enhance the secretion of ghrelin by MGN3-1 cells.

Triacylglycerols (TAGs) are a major fat component in human milk. Since gastric lipase produces 1,2-diacylglycerol from TAGs, we focused on the bioactivity of human milk-derived diacylglycerols in stomach cells. Ghrelin is produced in the stomach and acts as an important regulator of growth hormone secretion and energy homeostasis. In this study, we showed that 1-oleoyl-2-palmitoylglycerol (OP) increased ghrelin secretion, whereas 1,3-dioleoyl-2-palmitoylglycerol (OPO), a major component of human milk TAGs, did not increase ghrelin secretion in the ghrelin-secreting cell line, MGN3-1. Therefore, diacylglycerol OP may directly contribute to the regulation of ghrelin secretion. We also found that 2-palmitoylglycerol and 1- and 2-oleoylglycerol increased ghrelin secretion. Finally, we demonstrated that intracellular cAMP levels and preproghrelin and ghrelin O-acyl transferase expression levels were enhanced by OP treatment in MGN3-1 cells. This may represent an example of a novel mother-infant interaction mediated by fat components derived from human breast milk.

Orally administered milk-derived tripeptide improved cognitive decline in mice fed a high-fat diet.

The functions of the brain, which is thought of as an organ highly independent from the periphery, are often affected by the peripheral environment. Indeed, epidemiologic studies demonstrated that diabetes was a risk factor for dementia. It was also reported that the intake of dairy products, such as milk, reduces the risk of developing dementia. We found that mice on a short-term high-fat diet (HFD) for 1 wk had reduced cognitive function. Thus, using this acute model, we investigated the effects of milk-derived peptide on cognitive decline induced by HFD. Tyr-Leu-Gly (YLG), a tripeptide derived from αS1-casein, a major bovine milk protein, is released by gastrointestinal proteases. We found that orally administered YLG improved cognitive decline induced by 1-wk HFD intake in the object recognition test. YLG also improved cognitive decline in the object location test. Thus, we found that YLG improved cognitive decline induced by HFD. Next, we examined the effects of YLG on the hippocampus, a brain area essential for cognitive function. HFD intake decreased the number of 5-bromo-2'-deoxyuridine (BrdU)-positive cells, and this decrease was improved by YLG administration. HFD intake decreased nerve growth factor (NGF) and glial cell line-derived neurotrophic factor, whereas YLG increased NGF and ciliary neurotrophic factor, suggesting that these neurotropic factors play a role in hippocampal neurogenesis after YLG administration. In conclusion, we demonstrated that 1-wk HFD reduced cognitive function. Furthermore, we found that YLG, a milk-derived tripeptide, improved cognitive decline in mice on HFD. The HFD reduced neural stem cell proliferation, and YLG improved this reduction. YLG is the first reported milk peptide to improve cognitive decline induced by HFD intake.-Nagai, A., Mizushige, T., Matsumura, S., Inoue, K., Ohinata, K. Orally administered milk-derived tripeptide improved cognitive decline in mice fed a high-fat diet.

Characterization of soy-deprestatin, a novel orally active decapeptide that exerts antidepressant-like effects via gut-brain communication.

We found that the orally administered thermolysin digest of ß-conglycinin exhibits antidepressant-like effects in tail suspension and forced swim tests in mice. A comprehensive peptide analysis of the digest using liquid chromatography/mass spectrometry was performed, and LSSTQAQQSY emerged as a candidate antidepressant-like peptide. Orally administered synthetic LSSTQAQQSY exhibited antidepressant-like effects at a dose of 0.3 mg/kg; therefore, we named the decapeptide soy-deprestatin. In contrast, intraperitoneally administered soy-deprestatin was ineffective. We then hypothesized that it acted on the gut, and its signal was transferred to the brain. Indeed, orally administered soy-deprestatin exhibited antidepressant-like activity in sham-treated, but not vagotomized, mice. Oral administration of soy-deprestatin also increased the c-Fos expression in the nucleus of the solitary tract, which receives inputs from the vagus nerve. These results suggested that the antidepressant-like effects were mediated by the vagus nerve. Thermolysin digest- and soy-deprestatin-induced antidepressant-like effects were also blocked by antagonists of serotonin 5-HT1A, dopamine D1, or GABAA receptors. We also clarified the order of receptor activation as 5-HT1A, D1, and GABAA, using selective agonists and antagonists. Taken together, soy-deprestatin may exhibit antidepressant-like effects after oral administration via a novel pathway mediated by 5-HT1A, followed by D1 and GABAA systems. This is the first orally active peptide demonstrating antidepressant-like effects via gut-brain communication.-Mori, Y., Asakura, S., Yamamoto, A., Odagiri, S., Yamada, D., Sekiguchi, M., Wada, K., Sato, M., Kurabayashi, A., Suzuki, H., Kanamoto, R., Ohinata, K. Characterization of soy-deprestatin, a novel orally active decapeptide that exerts antidepressant-like effects via gut-brain communication.

Soy undecapeptide induces Drosophila hind leg grooming via dopamine receptor.

ß-Conglycinin α subunit (323-333) [ßCGα(323-333)] is an exogenous neuromodulating undecapeptide found from enzymatic digest of ß-conglycinin, a soy major storage protein by mice behavior tests. We investigated effect of ßCGα(323-333) on Drosophila behavior. Oral administration of ßCGα(323-333) in Drosophila increased hind leg grooming, which may act through specific sets of neurons. It was reported that dopamine receptor (DopR) meditates hind leg grooming, and we tested involvement of DopR in ßCGα(323-333)-induced hind leg grooming by using DopR knockout flies. In the wild type but not in the DopR-knockout flies, ßCGα(323-333) increased hind leg grooming. These results suggest that ßCGα(323-333) induces hind leg grooming via activating the DopR. This is the first report showing that exogenously administered peptide changes fly behaviors.

Orally active anti-hypertensive peptides found based on enteroendocrine cell responses to a dipeptide library.

We previously reported that an orally administered dipeptide, Arg-Phe (RF), which causes enteroendocrine cell responses, lowered blood pressure in spontaneously hypertensive rats (SHRs). In this study, we found that Phe-Trp (FW), induced the most potent enteroendocrine cell responses out of total 338 dipeptides. An FW analogue, Phe-Trp-Gly-Lys (FWGK), which was effectively produced by tryptic digestion of bovine serum albumin, decreased blood pressure after oral administration. The minimum effective dose of FWGK (50 µg/kg) was 1/300 of that of RF (15 mg/kg). FWGK stimulated cholecystokinin (CCK) secretion in the enteroendocrine cells and exhibited vasorelaxing and antihypertensive effects via the CCK1 system.

Identification of Rubisco anxiolytic-like peptides (rALPs) by comprehensive analysis of spinach green leaf protein digest.

Rubisco, an enzyme for photosynthetic carbon dioxide fixation, is a major green leaf protein and known as the most abundant protein on the Earth. We found that Rubisco digested mimicking gastrointestinal enzymatic conditions exhibited anxiolytic-like effects after oral administration in mice. Based on a comprehensive peptide analysis of the digest using nanoLC-Orbitrap-MS and the structure-activity relationship of known anxiolytic-like peptides, we identified SYLPPLTT, SYLPPLT and YHIEPV [termed Rubisco anxiolytic-like peptide (rALP)-1, rALP-1(1-7) and rALP-2, respectively], which exhibited potent anxiolytic-like effects after oral administration. The anxiolytic-like effects of rALP-1/rALP-1(1-7) were blocked by a serotonin 5-HT1A receptor antagonist, whereas rALP-2-induced effects were inhibited by a δ-opioid receptor antagonist. In conclusion, novel Rubisco-derived anxiolytic-like peptides, rALP-1/rALP-1(1-7) and rALP-2, act via independent neural pathways.

δ-Opioid receptor activation stimulates normal diet intake but conversely suppresses high-fat diet intake in mice.

The central opioid system is involved in a broadly distributed neural network that regulates food intake. Here, we show that activation of central δ-opioid receptor not only stimulated normal diet intake but conversely suppressed high-fat diet intake as well. [D-Pen(2,5)]-enkephalin (DPDPE), an agonist selective for the δ-receptor, increased normal diet intake after central administration to nonfasted male mice. The orexigenic activity of DPDPE was inhibited by blockade of cyclooxygenase (COX)-2, lipocalin-type prostaglandin D synthase (L-PGDS), D-type prostanoid receptor 1 (DP(1)), and neuropeptide Y (NPY) receptor type 1 (Y1) for PGD(2) and NPY, respectively, suggesting that this was mediated by the PGD(2)-NPY system. In contrast, DPDPE decreased high-fat diet intake in mice fed a high-fat diet. DPDPE-induced suppression of high-fat diet intake was blocked by antagonists of melanocortin 4 (MC(4)) and corticotropin-releasing factor (CRF) receptors but not by knockout of the L-PGDS gene. These results suggest that central δ-opioid receptor activation suppresses high-fat diet intake via the MC-CRF system, independent of the orexigenic PGD(2) system. Furthermore, orally administered rubiscolin-6, an opioid peptide derived from spinach Rubisco, suppressed high-fat diet intake. This suppression was also blocked by centrally administered naltrindole, an antagonist for the δ-receptor, suggesting that rubiscolin-6 suppressed high-fat diet intake via activation of central δ-opioid receptor.

Characterization of Tyr-Leu-Gly, a novel anxiolytic-like peptide released from bovine αS-casein.

We found previously that dipeptide YL exhibits orally active anxiolytic activity comparable to diazepam. The YL sequence is often observed in the primary structure of natural food proteins. In the present study, we investigated whether YL and YL analogues are released from bovine αS-casein by gastrointestinal proteases. YLG, corresponding to αS1-casein (aa 91-93), was more effectively released from αS-casein than YL by pepsin-pancreatin digestion, mimicking gastrointestinal enzymatic conditions. Using the synthetic model peptide, we determined that trypsin cleaved the N terminus of YLG, and elastase and carboxypeptidase contributed to cleave the C-terminus. YLG exhibited orally active anxiolytic-like activity in the elevated plus maze and open-field tests in mice. The anxiolytic-like activity of YLG was inhibited by WAY100135, SCH23390 or bicuculline, antagonists of serotonin 5-HT1A, dopamine D1, and GABA(A) receptors, respectively; however, YLG had no affinity for these receptors. The pepsin-pancreatin digest of αS-Casein also exhibited anxiolytic-like activity. Meanwhile, anxiolytic-like activity of α-casozepine, an αS1-casein-derived decapeptide with YL sequence in the N terminus, was blocked by WAY100135, SCH23390, or bicuculline, equally to YLG and YL; however, it was not detected in the pepsin-pancreatic digest. Taken together, we found that YLG is released after pepsin-pancreatic digestion of αS-casein and exhibits potent anxiolytic-like activity via activation of serotonin, dopamine, and the GABA receptor system.

Fatty acid amides present in Camembert cheese improved cognitive decline after oral administration in mice.

Herein, we investigated the effects of Camembert cheese (CC) and its fatty acid contents on cognitive function in mice by employing the object recognition test to evaluate hippocampus-dependent memory. Orally administered CC improved the cognitive decline induced by a high-fat diet. Next, we focused on myristamide (MA), oleamide, and stearamide, which are fatty acid amides produced during the fermentation process of CC. We found that oral administration of MA improved cognitive decline. Notably, an improvement was not observed using myristic acid, a free fatty acid that is not amidated. Thus, fatty acid amidation may contribute to the physiological activity. Moreover, we investigated changes in gene expression related to neurogenesis in the hippocampus. After MA administration, mRNA expression analysis indicated that MA increased hippocampal brain-derived neurotrophic factor expression.

Ovomemolins: Egg-derived peptides that improved cognitive decline after oral administration in mice.

Eggs not only contain all the molecules necessary to nurture new life but are also rich in nutrients such as high-quality protein. For example, epidemiologic studies have shown that egg intake is positively correlated with cognitive function. Thus, we specifically examined the effect of ovalbumin, a major protein present in egg whites, on cognitive function. First, we found that an orally administered enzymatic digest of ovalbumin improves cognitive function in mice fed a high-fat diet. Then, we narrowed down candidate peptides based on the prediction of peptide production according to enzyme-substrate specificity and comprehensive peptide analysis of the digest. We found that three peptides, namely ILPEY, LYRGGLEP, and ILELP, improve cognitive function after oral administration. We also showed that ILPEY, LYRGGLEP, and ILELP were present in the digest and named them ovomemolins A (OMA), B, and C, respectively. Notably, ovomemolins are the first peptides derived from egg whites that have been shown to improve cognitive function. The cognitive improvement induced by OMA, the most abundant of the peptides in the digest, was inhibited by methyllycaconitine, an antagonist of α7nAChR, which is known to be related to memory. These results suggest that OMA improves cognitive function through the acetylcholine system. After OMA administration, brain-derived neurotrophic factor (BDNF) mRNA expression and the number of 5-bromo-2'-deoxyuridine-positive cells suggested that OMA increases hippocampal BDNF expression and neurogenesis.

Characterization of rice endosperm-derived antidepressant-like peptide (REAP): An orally active novel tridecapeptide derived from rice protein.

It is ideal to ingest bioactive substances from daily foods to stay healthy. Rice is the staple food for almost half of the human population. We found that an orally administered enzymatic digest of rice endosperm protein exhibits antidepressant-like effects in the tail suspension test (TST) using mice. A comprehensive peptide analysis of the digest using liquid chromatography-tandem mass spectrometry was performed, and a tridecapeptide QQFLPEGQSQSQK, detected in the digest, was chemosynthesized. Oral administration of the tridecapeptide exhibited antidepressant-like effects at a low dose comparable to classical antidepressant in the TST. This also exhibited anti-depressant-like effect in the forced swim test. We named it rice endosperm-derived antidepressant-like peptide (REAP). Intriguingly, intraperitoneal administration had no effect. Orally administered REAP(8-13) but not REAP(1-7) exhibited antidepressant-like activity, suggesting that the C-terminal structure is important for the antidepressant-like effect. We confirmed the presence of REAP, corresponding to rice glutelin type B4(130-142) and B5(130-142), in the digest. The effects of REAP were blocked by both dopamine D1 and D2 antagonists. These results suggest that it exerts its antidepressant-like activity through activation of the dopamine system. Taken together, oral administration of a novel tridecapeptide exhibited antidepressant-like effects via the dopamine system. This is the first report of a rice-derived peptide that exhibits antidepressant-like effects.

The vagotomy alleviates the anorectic effect of an excess amount of dietary leucine on rats fed a low-protein diet.

It is well known that large dose of leucine reduces the food intake and causes growth retardation in experimental animals when leucine is given with a low-protein diet. However, the mechanism for the anorectic effect of leucine has not yet been clarified. We demonstrate here that the anorectic effect of leucine was significantly reduced in a vagotomized rat.

Rice-memolin, a novel peptide derived from rice bran, improves cognitive function after oral administration in mice.

Many people eat polished rice, while rice bran, a by-product known to be rich in protein and expected to have potential functions for health benefits, has not been effectively utilized. In this study, we determined that orally administered Val-Tyr-Thr-Pro-Gly (VYTPG) derived from rice bran protein improved cognitive decline in mice fed a high-fat diet (HFD). It was demonstrated that VYTPG was released from model peptides corresponding to fragment sequences of original rice proteins (Os01g0941500, Os01g0872700, and allergenic protein) after treatment with thermolysin, a microorganism-derived enzyme often used in industrial scale processes. The thermolysin digest also improved cognitive decline after oral administration in mice. Because VYTPG (1.0 mg/kg) potently improved cognitive decline and is enzymatically produced from the rice bran, we named it rice-memolin. Next, we investigated the mechanisms underlying the cognitive decline improvement associated with rice-memolin. Methyllycaconitine, an antagonist for α7 nicotinic acetylcholine receptor, suppressed the rice-memolin-induced effect, suggesting that rice-memolin improved cognitive decline coupled to the acetylcholine system. Rice-memolin increased the number of 5-bromo-2'-deoxyuridine (BrdU)-positive cells and promoted the mRNA expression of EGF and FGF-2 in the hippocampus, implying that these neurotropic factors play a role in hippocampal neurogenesis after rice-memolin administration. Epidemiologic studies demonstrated that diabetes is a risk factor for dementia; therefore, we also examined the effect of rice-memolin on glucose metabolism. Rice-memolin improved glucose intolerance. In conclusion, we identified a novel rice-derived peptide that can improve cognitive decline. The mechanisms are associated with acetylcholine and hippocampal neurogenesis. Rice-memolin is the first rice-brain-derived peptide able to improve cognitive decline.

The Effect of the Rice Endosperm Protein Hydrolysate on the Subjective Negative Mood Status in Healthy Humans: A Randomized, Double-Blind, and Placebo-Controlled Clinical Trial.

The rice endosperm protein (REP) hydrolysate containing the following rice endosperm protein derived oligopeptides QQFLPEGQSQSQK, LPEGQSQSQK, and pEQFLPEGQSQSQK (a N-terminal pyroglutamate residue-modified peptide) reportedly showed an antidepressant-like effect in an animal model. We investigated the effect of the REP hydrolysate on healthy humans who self-reported mental fatigue with subjectively low vigor. Seventy-six participants (age: 20-64 years) were randomly allocated to two groups. The influence of the REP hydrolysate on the mood state was evaluated in two studies: single intake (Study 1) and repeated intake over 4 weeks (Study 2). A salivary stress marker, Chromogranin A (CgA), was measured in Study 1. The single intake of the REP hydrolysate significantly improved the Profile of Mood Status 2nd edition for adults (POMS 2) subscale of Tension-Anxiety. Additionally, the salivary CgA concentrations were remarkably reduced after the single intake of the REP hydrolysate. Though a single intake of the REP hydrolysate did not significantly influence the other subscales and the TMD of the POMS 2 and the Euthymia Scale, both the subjective and objective results supported the possible effect of the REP hydrolysate on reducing anxiety and nervousness. No significant positive effects on the subjective mood state (Euthymia Scale and POMS 2) and sleep quality (Insomnia Severity Index) were observed in the trial setting employed for Study 2. In conclusion, a single intake of REP hydrolysate might help relax the subjective feelings of tension and anxiety. The effectiveness of repeated REP hydrolysate intake needs to be tested in a different clinical setting.

Rice Endoplasmic Protein-Derived Peptides, Rice-Ghretropins A and B, Stimulate Ghrelin Release in MGN3-1 Cells and Increase Plasma Acylated Ghrelin and Food Intake in Mice.

In this study, we demonstrated that novel rice-derived bioactive peptides promote the secretion of ghrelin, an endogenous orexigenic hormone secreted from the stomach. The enzymatic digest of rice endosperm protein with subtilisin, a microorganism-derived enzyme, stimulated acylated ghrelin secretion in the ghrelin-releasing cell line MGN3-1 and increased food intake after oral administration in mice. By performing a comprehensive analysis based on structure-activity relationships, we selected candidate peptides from over 30,000 peptides in the rice digest. Among them, we found that QAFEPIRSV and TNPWHSPRQGSF, corresponding to the amino acid sequence of the rice endoplasmic proteins glutelin A1 or A2(52-60) and B1 or B2(31-42), respectively, stimulated acylated ghrelin release in MGN3-1 cells. We named them rice-ghretropins A and B. Pyroglutamate formation of rice-ghretropin A, [pyr1]-rice-ghretropin A, also promoted ghrelin secretion. Furthermore, oral administration of rice-ghretropins increased food intake, plasma ghrelin concentration, and small intestinal transit in mice. In addition, the subtilisin digest of the rice protein significantly increased food intake for 4 h in 9 month-old (control: 0.61 ± 0.049 g; digest: 0.83 ± 0.059 g) and 24 month-old mice (control: 0.52 ± 0.067 g; digest: 1.01 ± 0.064 g). In summary, we found that novel bioactive peptides, namely, rice-ghretropins, from the enzymatic digest of rice endosperm stimulated acylated ghrelin secretion and increased food intake. This is the first report of rice-derived exogenous bioactive peptides that increase acylated ghrelin secretion.

Soymorphin-5, a soy-derived µ-opioid peptide, decreases glucose and triglyceride levels through activating adiponectin and PPARα systems in diabetic KKAy mice.

Soymorphin-5 (YPFVV) derived from soybean ß-conglycinin ß-subunit is a µ-opioid agonist peptide having anxiolytic-like activity. Here, we show that soymorphin-5 improves glucose and lipid metabolism after long-term oral administration to KKAy mice, a type 2 diabetes model animal. Soymorphin-5 inhibited hyperglycemia without an increase in plasma insulin levels in KKAy mice. Soymorphin-5 also decreased plasma and liver triglyceride (TG) levels and liver weight, suggesting that soymorphin-5 improved lipid metabolism. Soymorphin-5 increased plasma adiponectin concentration and liver mRNA expression of AdipoR2, a subtype of adiponectin receptor that is involved in stimulating the peroxisome proliferator-activated receptor (PPAR)α pathway and fatty acid ß-oxidation. The expressions of the mRNA of PPARα and its target genes acyl-CoA oxidase, carnitine palmitoyltransferase 1 A, and uncoupling protein-2, in the liver were also increased after oral administration of soymorphin-5. Furthermore, des-Tyr-soymorphin-5 (PFVV) without µ-opioid and anxiolytic-like activities did not decrease blood glucose levels in KKAy mice. These results suggest that µ-opioid peptide soymorphin-5 improves glucose and lipid metabolism via activation of the adiponectin and PPARα system and subsequent increases of ß-oxidation and energy expenditure in KKAy mice.

Characterization of ovolin, an orally active tryptic peptide released from ovalbumin with anxiolytic-like activity.

We found that tryptic digest of ovalbumin after oral (p.o.) and intraperitoneal (i.p.) administration exhibited anxiolytic-like activity in mice, and then searched for orally active low-molecular-weight peptides with anxiolytic-like activity in the tryptic digest. Val-Tyr-Leu-Pro-Arg, named ovolin, corresponding to ovalbumin (280-284), mimicked the anxiolytic-like activity after p.o. and i.p. administration. The anxiolytic-like activity of ovolin was inhibited by indomethacin, a cyclooxygenase (COX) inhibitor, or BWA868C, an antagonist of the DP1 receptor for prostaglandin (PG) D2 . Ovolin-induced anxiolytic-like activity was also blocked by SCH58261 or bicuculline, antagonists of the adenosine A2A and GABAA receptors, respectively. Ovolin has no affinity for the DP1 , A2A and GABAA receptors. Taken together, ovolin may exhibit anxiolytic-like activity in a manner dependent on the PGD2 -DP1 system coupled to the A2A and GABAA receptors.

Complement C5a exhibits anxiolytic-like activity via the prostaglandin D2-DP1 receptor system coupled to adenosine A2A and GABAA receptors.

We have recently found that central PGD(2) exhibits anxiolytic-like activity. Here we show that complement C5a exhibits anxiolytic-like activity via the PGD(2) system. Centrally administered C5a had anxiolytic-like activity at a dose of 0.3 pmol/mouse in the elevated plus-maze test in mice. C5a-induced anxiolytic-like activity was inhibited by indomethacin, a cyclooxygenase inhibitor, or BWA868C, an antagonist of DP(1) receptor for PGD(2), respectively. The anxiolytic effect of C5a was also blocked by SCH58261 or bicuculline, antagonists of adenosine A(2A) and GABA(A) receptors, respectively, which were activated downstream of PGD(2)-DP(1) receptor. These results suggest that C5a exhibits anxiolytic-like activity via the PGD(2)-DP(1) receptor system coupled to the activation of adenosine A(2A) and GABA(A) receptors.

Lupeol supplementation improves blood pressure and lipid metabolism parameters in stroke-prone spontaneously hypertensive rats.

Supplementation with lupeol (0.67 g·kg(-1)) of the AIN-93M-based diet fed for 7 weeks to stroke-prone spontaneously hypertensive rats caused significantly decreased blood pressure as compared with a control group. Urinary 8-hydroxy-2'-deoxyguanosine was significantly lower in the lupeol group. Finally, lupeol suppressed the hepatic mRNA expression levels of the genes involved in triglyceride and cholesterol synthesis.