A comparison of hemoglobins in five species of Microtus

The composition of tryptic peptides was determined for Hb (major or fast electrophoretic component) from four additional species of Microtus; M. p. pennsylvanicus, M. abbreviatus, M. miurus, and M. oeconomus, The amino acids from the four Hb were compared with Hb from M. p. tananaensis, and, on the basis of the combination of analyses for the several Hb. Ca 95% of the overall amino acid composition was considered. The compositions of most of the homologous peptides were identical, and two deletions in the sequence of 21 amino acids β 41–61 are believed to characterize the Hb of all four species. From differences in peptide composition the following substitutions were inferred. In the β chain, M. pennsylvanicus (2 ssp) differed from other species at two positions, 8: Ser vs Thr and 12: Thr vs Ash. In the β chain M. pennsylvanicus (2 ssp) differed from other species at two positions, β45: Phe vs Leu, and β50: Ser-Glx vs Thr. M. p. pennsylvanicus differed from M. p. tananaensis at position β88: Val-Leu vs Leu. All species showed ambiguity among the amino acids Ala-Ser-Phe-Leu centred presumably in positions β129 and β130. On the basis of an incomplete examination, the slow electrophoretic component of M. abbreviatus Hb could not be seen to differ from the fast component in its peptide map or in the general composition of its and β peptides.     

Branched-chain Amino Acid Metabolon: INTERACTION OF GLUTAMATE DEHYDROGENASE WITH THE MITOCHONDRIAL BRANCHED-CHAIN AMINOTRANSFERASE (BCATm)*

The catabolic pathway for branched-chain amino acids includes deamination followed by oxidative decarboxylation of the deaminated product branched-chain α-keto acids, catalyzed by the mitochondrial branched-chain aminotransferase (BCATm) and branched-chain α-keto acid dehydrogenase enzyme complex (BCKDC). We found that BCATm binds to the E1 decarboxylase of BCKDC, forming a metabolon that allows channeling of branched-chain α-keto acids from BCATm to E1. The protein complex also contains glutamate dehydrogenase (GDH1), 4-nitrophenylphosphatase domain and non-neuronal SNAP25-like protein homolog 1, pyruvate carboxylase, and BCKDC kinase. GDH1 binds to the pyridoxamine 5′-phosphate (PMP) form of BCATm (PMP-BCATm) but not to the pyridoxal 5′-phosphate-BCATm and other metabolon proteins. Leucine activates GDH1, and oxidative deamination of glutamate is increased further by addition of PMP-BCATm. Isoleucine and valine are not allosteric activators of GDH1, but in the presence of 5′-phosphate-BCATm, they convert BCATm to PMP-BCATm, stimulating GDH1 activity. Sensitivity to ADP activation of GDH1 was unaffected by PMP-BCATm; however, addition of a 3 or higher molar ratio of PMP-BCATm to GDH1 protected GDH1 from GTP inhibition by 50%. Kinetic results suggest that GDH1 facilitates regeneration of the form of BCATm that binds to E1 decarboxylase of the BCKDC, promotes metabolon formation, branched-chain amino acid oxidation, and cycling of nitrogen through glutamate.     

New ultrasensitive 32P-postlabelling method for the analysis of 3,N4-etheno-2'-deoxycytidine in human urine

Etheno-DNA adducts are generated from exogenous carcinogens such as vinyl chloride and urethane and also from endogenous lipid peroxidation products such as trans-4-hydroxy-2-nonenal (HNE). The present authors and others have established that 1,N⁶-ethenodeoxyadenosine (εdA) and 3,N⁴-ethenodeoxycytidine (εdC) are present in human urine and could be explored as biomarkers for monitoring whole-body oxidative stress. The present study reports on a new ultrasensitive ³²P-postlabelling/thin-layer chromatography (TLC) method for the analysis of εdC as deoxynucleoside in human urine. The urine samples were purified and enriched on a solid-phase silica C-18 column followed by a semi-preparative reverse-phase high-performance liquid chromatography. The purified sample was labelled with a multisubstrate deoxyribonucleoside kinase from Drosophila melanogaster (Dm-dNK) in the presence of 5'-bromo-2'-deoxyuridine (BrdU) as internal standard. The absolute sensitivity of the method was 0.1 fmol εdC detectable in 500 µl of human urine. The analysis of human urine samples from 15 healthy volunteers revealed a mean εdC level of 2.49±1.76 (SD) fmol µmol^-1 creatinine (range 0.66-6.42). By this non-invasive method, εdC in human urine could be explored as a biomarker for oxidative stress-related human diseases.     

Analysis and characteristics of multiple types of human 17beta-hydroxysteroid dehydrogenase

Androgens and estrogens are not only synthesized in the gonads but also in peripheral target tissues. Accordingly, recent molecular cloning has allowed us to identify multiple types of 17β-hydroxysteroid dehydrogenases (17β-HSD), the key and exclusive enzymes involved in the formation and inactivation of sex steroids. However, only one form, namely, type 3 17β-HSD, is responsible for pseudohermaphroditism in deficient boys. To date, seven human 17β-HSDs have been isolated and characterized. Although they catalyze substrates having a similar structure, 17β-HSDs have very low homology. In intact cells in culture, these enzymes catalyze the reaction in a unidirectional way — types 1, 3, 5 and 7 catalyze the reductive reaction, while types 2, 4 and 8 catalyze the oxidative reaction. It is noteworthy that rat type 6 17β-HSD also catalyzes the reaction in the oxidative direction. In this report, we analyze the different characteristics of the multiple types of human 17β-HSD.     

Synthesis and β-lactamase inhibitory activity of 6-fluoropenicillanic acids

The benzyl 6-fluoro-penicillanate sulfides 4a, 6a, 7a; and sulfones 6c, 7d were synthesized. The conversion to their free acids 4b, 4b, 6d, 7b, 7e and potassium salts 7c, 7f are described. These acids and salt 7c were evaluated as β- lactamase inhibitors using β-lactamase I from Bacillus cereus. The data indicate that substitution of the 6-hydrogen by a 6- fluorine atom on 6β-bromopenicillanic acid (1), leads to loss of β-lactamase inhibitory activity. In the case of the isomers 6β- and 6-fluoropenicillanic acids the 6β-enantiomer proved to be considerably more potent. Potassium salts of 6β- fluoropenicillanate sulfide and sulfone were unstable in solid state and in water solution. The fragmentation of the sulfone in two parts in water solution is consistent with the hydrolytic behavior of the penicillanic acid sulfone (2) with 0.5 N NaOH.     

The Production of γ-Decalactone by Fermentation of Castor Oil

A microbial process for the production of optically-active γ-decalactone from the ricinoleic acid present as triglycerides in castor oil has been developed, γ-decalactone (γDL) is a component of some fruit flavours, being an important organoleptic component of peach flavours. Screening showed two red yeast microorganisms, Rhodotorula glutinis and Sporobolomyces odortts to be especially suitable for this biotransformation. The process involves lipase-mediated hydrolysis of the castor oil to give free ricinoleic acid, uptake of the acid by the cells and aerobic fermentation to achieve abbreviated β-oxidation of the ricinoleic acid (12-hydroxyoleic acid) into 4-hydroxydecanoic acid (4HDA), lactonisation of the acid into γ-DL, followed by solvent extraction and distillation. γ-DL broth concentrations of 0.5-1.2g · 1^-t were obtained after 3-5 days from fermentation media containing 10 g · 1^-1 castor oil, representing an 8.3-20.0% theoretical yield. Intermediates detected were consistent with the operation of the β-oxidation pathway. Appreciable amounts of novel metabolites identified as cis and trans isomers of a tetrahydrofuran (C₁₀) were also produced. Their formation from 4HDA appeared to be non-enzymic and was favoured by anaerobic conditions. Yields of γ-DL were inversely proportional to the concentration of castor oil present in the medium, indicating that substrate inhibition takes place. The highest yields of γ-DL were obtained when castor oil was present from the beginning of the fermentation, rather than when added once the fermentation had become established, demonstrating that the β-oxidation pathway and/or transport system require continual induction. Significant amounts of γ-DL were not produced from other fatty acids, including ricinelaidic acid, the trans isomer of ricinoleic acid. γ-DL formation was dramatically inhibited by antibiotic inhibitors of oxidative phosphorylation, indicating the importance of intact β-oxidation pathways, whereas inhibitors of protein synthesis and cell-wall synthesis had much less marked effects. Selective extraction of 4HDA from the fermentation broths, and of γDL from broth lactonised by heating at low pH, could be achieved by adsorption to Amberlite XAD-1 and XAD-7 resins respectively. Some product could be recovered from the exit gases of the fermenter by passing through propylene glycol traps. This pathway is unusual in that it is a rare example of the truncated β-oxidation of a fatty acid by microorganisms. This effect probably occurs because of partial inhibition of one or more enzymes of the β-oxidation pathway by the C₁₀ hydroxylated fatty acid intermediate(s) allowing intracellular accumulation of the 4HDA, followed by leakage out of the cell; although further metabolism of this C₁₀ intermediate does take place slowly.     

Desensitization of the D-2 dopamine receptor and the β2-adrenoceptor in the intermediate lobe of the rat pituitary gland

A D-2 dopamine receptor and a β₂-adrenoceptor occur in the intermediate lobe of the rat pituitary gland (IL). Exposure of intact IL tissue to a D-2 agonist diminished the ability of dopaminergic agonists [but not 5′-guanylyl imidodiphosphate (Gpp(NH)p)] to inhibit adenylate cyclase activity. Conversely, exposure of intact IL tissue to a β-adrenergic agonist diminished the ability of a β-adrenergic agonist (but not forskolin) to stimulate adenylate cyclase activity. Treatment of ovariectomized rats with 17β-estradiol desensitizes the β₂-adrenoceptor but not the D-2 receptor. Desensitization of the IL catecholamine receptors is discussed within the framework of a previously published “working model” of these receptors.     

Withanolides of Acnistus breviflorus

The chemical examination of Acnistus breviflorus afforded nine withanolides, four of which are new and were established as 2,3,24,25-tetrahydro-27-desoxywithaferin A (4β-hydroxy-5β,6β-epoxy-1-oxo-22R-withanolide), 2,3-dihydro-27-desoxywithaferin A (4β-hydroxy-5β,6β-epoxy-22R-witha-24-enolide), 5,6-desoxywithaferin A (4β,27-dihydroxy-1-oxo-22R-witha-2,5,24-trienolide) and 2,3-dihydro-5,6-desoxywithaferin A (4β,27-dihydroxy-1-oxo-22R-witha-5,24-dienolide). The five known compounds were: withaferin A; 2,3-dihydrowithaferin A; 24,25-dihydro-27-desoxywithaferin A and withaferin A-6,5β-chlorohydrin.     

Production, purification and properties of γ-glutamyltranspeptidase from a newly isolated Bacillus subtilis NX-2

Production, purification and properties of γ-glutamyltranspeptidase from a newly isolated Bacillus subtilis NX-2 was investigated. At the optimum conditions for enzyme formation, a high level, 3.2 U/ml of γ-GTP was obtained. The extracellular γ-GTP from this strain was purified 111.15-fold to homogeneity from the culture supernatant by acetone precipitation, hydrophobic interaction chromatography and ion exchange chromatography. The purified enzyme was a heterodimer consisting of one large subunit (43 kDa) and one small subunit (32 kDa), and exhibited high activity at 40–60 °C, pH 8.0. It preferred basic amino acids as γ-glutamyl acceptor in transpeptidation, and the stereochemistry of the γ-glutamyl acceptor had no influence on the enzyme activity, which was different from other γ-GTPs reported. Furthermore, it was proved that γ-GTP of this strain could catalyze the transfer of l-glutamine to glycylglycine to synthesize Gln–Gly–Gly, which was promising for the synthesis of valuable γ-glutamyl peptides.     

A spirostane hexaglycoside from Agave cantala fruits.

A new steroidal glycoside, agaveside D, isolated from the fruits of Agave cantata was characterized as 3β-{- -rhamnopyranosyl-(1→2), β- -glycopyranosyl-(1→3)-β- -glucopyranosyl[β- -xylopyransoyl-(1→4)-- -rhamnopyranosyl-(1→2)]-β- -glucopyranosyl}-25R-5- spirostane on the basis of chemical degradation and spectrometry.     

The Large Hydrophilic Loop of Presenilin 1 Is Important for Regulating ��-Secretase Complex Assembly and Dictating the Amyloid �� Peptide (A��) Profile without Affecting Notch Processing

γ-Secretase is an enzyme complex that mediates both Notch signaling and β-amyloid precursor protein (APP) processing, resulting in the generation of Notch intracellular domain, APP intracellular domain, and the amyloid β peptide (Aβ), the latter playing a central role in Alzheimer disease (AD). By a hitherto undefined mechanism, the activity of γ-secretase gives rise to Aβ peptides of different lengths, where Aβ42 is considered to play a particular role in AD. In this study we have examined the role of the large hydrophilic loop (amino acids 320–374, encoded by exon 10) of presenilin 1 (PS1), the catalytic subunit of γ-secretase, for γ-secretase complex formation and activity on Notch and APP processing. Deletion of exon 10 resulted in impaired PS1 endoproteolysis, γ-secretase complex formation, and had a differential effect on Aβ-peptide production. Although the production of Aβ38, Aβ39, and Aβ40 was severely impaired, the effect on Aβ42 was affected to a lesser extent, implying that the production of the AD-related Aβ42 peptide is separate from the production of the Aβ38, Aβ39, and Aβ40 peptides. Interestingly, formation of the intracellular domains of both APP and Notch was intact, implying a differential cleavage activity between the ϵ/S3 and γ sites. The most C-terminal amino acids of the hydrophilic loop were important for regulating APP processing. In summary, the large hydrophilic loop of PS1 appears to differentially regulate the relative production of different Aβ peptides without affecting Notch processing, two parameters of significance when considering γ-secretase as a target for pharmaceutical intervention in AD.     

Production of malodorous steroids from androsta-5,16-dienes and androsta-4,16-dienes by Corynebacteria and other human axillary bacteria

The biotransformations of a number of steroids, chiefly 5,6,16,17-tetradehydro-androstanes, are reported. The strains investigated were Corynebacteria sp. G38, G40, G41, B, Brevis sp. CW5 and Micrococcus sp. M-DH2. Corynebacterium sp. G41 proved remarkably efficient in effecting oxidative isomerisation of 5-ene-3-sterols into the corresponding 4-en-3-ones. The main biochemical reactions involved were oxidation at C-3; no reduction processes were observed. Conversions of 3β-sterols into the C-3 oxo-steroids were high, but were correspondingly low for the 3-sterol epimers. Androsta-4,16-dien-3-one and 5β-androsta-16-en-3-one are crucial to the formation of malodour. The rate of formation of these compounds was measured over 72 h incubation periods using three substrates: androsta-5,16-dien-3β-ol, androsta-4,16-dien-3β-ol and androsta-5,16-dien-3-one. Induction studies of the transformation of the androsta-5,16-dien-3β-ol into the very odorous compound androsta-4,16-dien-3-one showed that cells incubated with a mixture of antibiotics displayed the same extent of biotransformation as normal cells if the concentration of antibiotic was low (1, 3, 5 and 7 μg/ml), although at concentrations higher than 10 μg/ml, biotransformation yields were reduced. Pre-incubation with a 3β-fluoro-steroid inhibited the formation of the odorous androsta-4,16-dien-3-one.     

Nicardipine normalizes elevated levels of antioxidant activity in response to xanthine oxidase-induced oxidative stress in hypertensive rat heart

It has been reported that the production of oxygen radicals mediated by xanthine oxidase (XO) is stimulated in hypertensive cardiovascular endothelium, suggesting involvement of oxidative stress in pathogenesis of hypertension. In this study we estimated the effect of nicardipine, a calcium blocker, on the oxidative stress and antioxidant activities in left ventricles from spontaneously hypertensive rat (SHR) and stroke-prone SHR (SHRSP). The activity of XO increased 3.5-fold in SHR and 6.2-fold in SHRSP compared to that in normal controls (WKY). Interestingly, the levels of glutathione (GSH) and the activity of its synthesizing enzyme (γ-glutamylcysteine synthetase, γ-GCS) elevated concomitantly in SHR and SHRSP: the level of GSH increased 1.2-fold in SHR and 1.3-fold in SHRSP. The activity of γ-GCS was elevated 1.5-fold in SHR and 2.4-fold in SHRSP, accompanying an increase in the expression of its mRNA. Treatment of these rats with nicardipine, for 4 weeks improved blood pressure, from 176 ± 10 to 140 ± 8 mmHg in SHR, and from 201 ± 11 to 167 ± 5 mmHg in SHRSP, respectively, and decreased wet weight of heart, levels of GSH, and the activities of XO and γ-GCS. Nicardipine reduced the expression of γ-GCS mRNA. Collectively, these results suggest that reactive oxygen species produced by XO in hypertensive rat heart cause induction of the expression of γ-GCS and nicardipine plays a role in reducing the oxidative stress in hypertensive heart.     

Isolation and characterization of a (1 → 3)-β-glucan endohydrolase from germinating barley (Hordeum vulgare): amino acid sequence similarity with barley (1 → 3, 1 → 4)-β-glucanases

A (1 → 3)-β-glucan 3-glucanohydrolase (EC 3.2.1.39) has been purified approx. 190-fold from extracts of germinating barley. The enzyme has an apparent M_r 32 000, a pI of 8.6, and a pH optimum of 5.6. Analysis of hydrolysis products released from the (1 → 3)-β-glucan, laminarin, shows that the enzyme is an endohydrolase. Sequence analysis of the 46 NH₂-terminal amino acids of the (1 → 3)-β-glucanase reveals 54% positional identity with barley (1 → 3,1 → 4)-β-glucanases (EC 3.2.1.73) and suggests a common evolutionary origin for these two classes of β-glucan endohydrolases. The barley (1 → 3)-β-glucanase also exhibits significant similarity with a (1 → 3)-β-glucanase from tobacco.     

MicroRNA‐146b‐5p overexpression attenuates premature ovarian failure in mice by inhibiting the Dab2ip/Ask1/p38‐Mapk pathway and γH2A.X phosphorylation

ObjectiveTo examine the role of high‐fat and high‐sugar (HFHS) diet‐induced oxidative stress, which is a risk factor for various diseases, in premature ovarian failure (POF).Materials and methodsOvarian granulosa cells (OGCs) were isolated from mice and cultured in medium supplemented with HFHS and poly (lactic‐co‐glycolic acid) (PLGA)‐cross‐linked miR‐146b‐5p nanoparticles (miR‐146@PLGA). RNA and protein expression levels were examined using quantitative real‐time polymerase chain reaction and Western blotting, respectively. HFHS diet‐induced POF model mice were administered miR‐146@PLGA.ResultsThe ovarian tissue of mice fed a HFHS diet exhibited the typical pathological characteristics of POF. HFHS supplementation induced oxidative stress injury in the mouse OGCs, activation of the Dab2ip/Ask1/p38‐Mapk signalling pathway and phosphorylation of γH2A.X in vitro and in vivo. The results of the luciferase reporter assay revealed that miR‐146 specifically downregulated p38‐Mapk14 expression. Meanwhile, co‐immunoprecipitation and Western blot analyses revealed that HFHS supplementation upregulated nuclear p38‐Mapk14 expression and consequently enhanced γH2A.X (Ser139) phosphorylation. The HFHS diet‐induced POF mouse model treated with miR‐146@PLGA exhibited downregulated p38‐Mapk14 expression in the OGCs, mitigated OGC ageing and alleviated the symptoms of POF.ConclusionsThis study demonstrated that HFHS supplementation activates the Dab2ip/Ask1/p38‐Mapk signalling pathway and promotes γH2A.X phosphorylation by inhibiting the expression of endogenous miR‐146b‐5p, which results in OGC ageing and POF development.     

Molecular characterization of mouse 17β-hydroxysteroid dehydrogenase IV

17β-hydroxysteroid dehydrogenases (17β-HSD) catalyze the conversion of estrogens and androgens at the C17 position. The 17β-HSD type I, II, III and IV share less than 25% amino acid similarity. The human and porcine 17β-HSD IV reveal a three-domain structure unknown among other dehydrogenases. The N-terminal domains resemble the short chain alcohol dehydrogenase family while the central parts are related to the C-terminal parts of enzymes involved in peroxisomal β-oxidation of fatty acids and the C-terminal domains are similar to sterol carrier protein 2. We describe the cloning of the mouse 17β-HSD IV cDNA and the expression of its mRNA. A probe derived from the human 17β-HSD IV was used to isolate a 2.5 kb mouse cDNA encoding for a protein of 735 amino acids showing 85 and 81% similarity with human and porcine 17β-HSD IV, respectively. The calculated molecular mass of the mouse enzyme amounts to 79,524 Da. The mRNA for 17β-HSD IV is a single species of about 3 kb, present in a multitude of tissues and expressed at high levels in liver and kidney, and at low levels in brain and spleen. The cloning and molecular characterization of murine, human and porcine 17β-HSD IV adds to the complexity of steroid synthesis and metabolism. The multitude of enzymes acting at C17 might be necessary for a precise control of hormone levels.     

Effect of a Single Bout of Exercise and β-Carotene Supplementation on the Urinary Excretion of 8-Hydroxy-deoxyguanosine in Humans

We investigated the effects of acute exhaustive exercise and β-carotene supplementation on urinary 8-hydroxy-deoxyguanosine (8-OHdG) excretion in healthy nonsmoking men. Fourteen untrained male (19-22 years old) volunteers participated in a double blind design. The subjects were randomly assigned to either the β-carotene or placebo supplement group. Eight subjects were given 30 mg of β-carotene per day for 1 month, while six subjects were given a placebo for the same period. All subjects performed incremental exercise to exhaustion on a bicycle ergometer both before and after the 1-month β-carotene supplementation period. The blood lactate and pyruvate concentrations significantly increased immediately after exercise in both groups. The baseline plasma p-carotene concentration was significantly 17-fold higher after β-carotene supplementation. The plasma β-carotene decreased immediately after both trials of exercise, suggesting that β-carotene may contribute to the protection of the increasing oxidative stress during exercise. Both plasma hypoxanthine and xanthine increased immediately after exercise before and after supplementation. This thus suggests that both trials of exercise might enhance the oxidative stress. The 24-h urinary excretion of 8-OHdG was unchanged for 3 days after exercise before and after supplementation in both groups. However, the baseline urinary excretion of 8-OHdG before exercise tended to be lower after β-carotene supplementation. These results thus suggest that a single bout of incremental exercise does not induce the oxidative DNA damage, while β-carotene supplementation may attenuate it.     

Dimeric and trimeric proanthocyanidins possessing a doubly linked structure from Pavetta owariensis

Pavetannin A-2, a new A-type proanthocyanidin, along with the trimers cinnamtannin B-1, pavetannin B-1, B-2, B-3, B-5 and B-6 have been isolated in their free phenolic form from the stem bark of Pavetta owariensis. Spectral data and partial acid-catalysed degradation established their structures as ent-epicatechin-(4→8,2→O→7)-catechin, epicatechin-(4β→8,2β→O→7)-epicatechin-(4→8)-epicatechin, epicatechin-(4β→8,2β→O→7)-epicatechin-(4β→8)-ent-epicatechin, epicatechin-(4β→8,2β→O→7)-epicatechin-(4β→8)-epicatechin, epicatechin-(4β→6,2β→O→7)-epicatechin-(4β→8)-epicatechin, epicatechin-(4β→6,2β→O→7)-catechin-(4β→8)-epicatechin, epicatechin-(4β→8,2β→O→7)-epicatechin-(4→8)-catechin, respectively.     

Potentiometric titration behavior of a copolymer of glutamic acid and alanine prepared by thermal polycondensation

The dissociation behavior of a copolymer of glutamic acid and alanine was investigated by means of potentiometric titration at various ionic strengths. From the curves of the apparent dissociation constants versus the degree of dissociation, the intrinsic dissociation constant of the carboxyl groups in the copolymer was estimated to be 3.92. This value is different from that of -linked polyglutamic acid and is similar to those of γ-linked polyglutamic acids such as bacterial poly-γ-D-glutamic acid. An analytical method of titration was used to determine the ratio of - and γ-glutamyl residues in the copolymer. From the results of this method and from the intrinsic dissociation constant, it was concluded that the glutamyl residues in this copolymer are mostly or entirely γ-linked.     

IGF-1 induction by acylated steryl β-glucosides found in a pre-germinated brown rice diet reduces oxidative stress in streptozotocin-induced diabetes

Background

The pathology of diabetic neuropathy involves oxidative stress on pancreatic β-cells, and is related to decreased levels of Insulin-like growth factor 1 (IGF-1). Acylated steryl β-glucoside (PR-ASG) found in pre-germiated brown rice is a bioactive substance exhibiting properties that enhance activity of homocysteine-thiolactonase (HTase), reducing oxidative stress in diabetic neuropathy. The biological importance of PR-ASG in pancreatic β-cells remains unknown.Here we examined the effects of PR-ASG on IGF-1 and glucose metabolism in β-cells exposed to oxidative stress.

Methodology/Principal Findings

In the present study, a pre-germinated brown rice (PR)-diet was tested in streptozotocin (STZ)-induced diabetic rats. Compared with diabetic rats fed control diets, the PR-diet fed rats showed an improvement of serum metabolic and neurophysiological parameters. In addition, IGF-1 levels were found to be increased in the serum, liver, and pancreas of diabetic rats fed the PR-diet. The increased IGF-1 level in the pancreas led us to hypothesize that PR-ASG is protective for islet β-cells against the extensive injury of advanced or severe diabetes. Thus we examined PR-ASG to determine whether it showed anti-apoptotic, pro-proliferative effects on the insulin-secreting β-cells line, INS-1; and additionally, whether PR-ASG stimulated IGF-1 autocrine secretion/IGF-1-dependent glucose metabolism. We have demonstrated for the first time that PR-ASG increases IGF-1 production and secretion from pancreatic β-cells.

Conclusion/Significance

These findings suggest that PR-ASG may affect pancreatic β-cells through the activation of an IGF-1-dependent mechanism in the diabetic condition. Thus, intake of pre-germinated brown rice may have a beneficial effect in the treatment of diabetes, in particular diabetic neuropathy.