Moderate protein intake percentage in mice for maintaining metabolic health during approach to old age.

Nutritional requirements for maintaining metabolic health may vary with each life stage, such as young, middle, and old age. To investigate the appropriate ratio of nutrients, particularly proteins, for maintaining metabolic health while approaching old age, young (6-month-old) and middle-aged (16-month-old) mice were fed isocaloric diets with varying protein percentages (5%, 15%, 25%, 35%, and 45% by calorie ratio) for two months. The low-protein diet developed mild fatty liver, with middle-aged mice showing more lipids than young mice, whereas the moderate-protein diet suppressed lipid contents and lowered the levels of blood glucose and lipids. Self-organizing map (SOM) analysis revealed that plasma amino acid profiles differed depending on age and difference in protein diet and were associated with hepatic triglyceride and cholesterol levels. Results indicate that the moderate protein intake percentages (25% and 35%) are required for maintaining metabolic health in middle-aged mice, which is similar to that in young mice.

Utilization of Mechanical Stress to Treat Osteoporosis: The Effects of Electrical Stimulation, Radial Extracorporeal Shock Wave, and Ultrasound on Experimental Osteoporosis in Ovariectomized Rats.

Current treatment options for osteoporosis primarily involve pharmacotherapies, but they are often accompanied by undesirable side effects. Utilization of mechanical stress which can noninvasively induce bone formation has been suggested as an alternative to conventional treatments. Here, we examined the efficacy of mechanical stress induced by electrical stimulation, radial extracorporeal shock waves, and ultrasound for estrogen-deficient osteoporosis. Female Wistar rats were divided into following five groups: sham-operated group, untreated after ovariectomy, and treated with electrical stimulation, radial extracorporeal shock wave, or ultrasound starting at 8 weeks after ovariectomy for 4 weeks. Trabecular bone architecture of the femur was assessed by micro-CT and its biomechanical properties were obtained by mechanical testing. The femurs were further evaluated by histochemical, immunohistochemical, and real-time PCR analyses. Radial extracorporeal shock wave and ultrasound treatment improved trabecular bone microarchitecture and bone strength in osteoporotic rats, but not electrical stimulation. The shock wave decreased osteoclast activity and RANKL expression. The exposure of ultrasound increased osteoblast activity and ß-catenin-positive cells, and they decreased sclerostin-positive osteocytes. These findings suggest that mechanical stress induced by radial extracorporeal shock wave and ultrasound can improve estrogen-deficient bone loss and bone fragility through promoted bone formation or attenuated bone resorption.

Effects of ultrasound, radial extracorporeal shock waves, and electrical stimulation on rat bone defect healing.

Fractures associated with osteoporosis are a major public health concern. Current treatments for fractures are limited to surgery or fixation, leading to long-term bedrest, which is linked to increased mortality. Alternatively, utilization of physical agents has been suggested as a promising therapeutic approach for fractures. Here, we examined the effects of ultrasound, radial extracorporeal shock waves, and electrical stimulation on normal or osteoporotic fracture healing. Femoral bone defects were created in normal or ovariectomized rats. Rats were divided into four groups: untreated, and treated with ultrasound, shock waves, or electrical stimulation after surgery. Samples were collected at 2 or 4 weeks after surgery, and the healing process was evaluated with micro-CT, histological, and immunohistochemical analyses. Ultrasound at intensities of 0.5 and 1.0 W/cm2 , but not 0.05 W/cm2 , accelerated new bone formation. Shock wave exposure also increased newly formed bone, but formed abnormal periosteal callus around the defect site. Conversely, electrical stimulation did not affect the healing process. Ultrasound exposure increased osteoblast activity and cell proliferation and decreased sclerostin-positive osteocytes. We demonstrated that higher-intensity ultrasound and radial extracorporeal shock waves accelerate fracture healing, but shock wave treatment may increase the risk of periosteal callus formation.

Acerola (Malpighia emarginata DC.) Promotes Ascorbic Acid Uptake into Human Intestinal Caco-2 Cells via Enhancing the Gene Expression of Sodium-Dependent Vitamin C Transporter 1.

Acerola (Malpighia emarginata DC.) is a fruit containing abundant ascorbic acid (AsA) and numerous functional phytochemicals. We previously reported that the intake of acerola juice increased the absorption of AsA in plasma of healthy Japanese subjects. The functional phytochemicals in acerola may influence the intestinal epithelial cells to increase the cellular uptake of AsA. Therefore, in this study, we compared the AsA uptake into Caco-2 cells between AsA alone and that in acerola juice at the same concentration using a human intestinal model. Caco-2 cells were incubated with 3 mM AsA and 3 mM AsA in acerola juice. Intracellular AsA contents gradually increased until 24 h upon incubation with both AsA alone and AsA in acerola juice; however, these contents when incubated with AsA in acerola juice, were significantly higher than those incubated with AsA alone at 2, 3, 4, 8, and 24 h. Furthermore, the mRNA expression level of the sodium-dependent vitamin C transporter (SVCT) 1 was significantly higher in the cells incubated with AsA in acerola juice than those incubated with AsA alone. Moreover, polyphenols such as cyanidin-3-glucoside chloride and quercetin enhanced the SVCT1 gene expression in Caco-2 cells. Collectively, these results suggest that acerola polyphenols enhances the SVCT1 gene expression in Caco-2 cells and promotes AsA uptake.

Acerola (Malpighia emarginata DC.) Juice Intake Suppresses UVB-Induced Skin Pigmentation in SMP30/GNL Knockout Hairless Mice.

BACKGROUND/AIMS: Acerola (Malpighia emarginata DC.) is a fruit that is known to contain high amounts of ascorbic acid (AA) and various phytochemicals. We have previously reported that AA deficiency leads to ultraviolet B (UVB)-induced skin pigmentation in senescence marker protein 30 (SMP30)/gluconolactonase (GNL) knockout (KO) hairless mice. The present study was undertaken to investigate the effects of acerola juice (AJ) intake on the skin of UVB-irradiated SMP30/GNL KO mice. RESEARCH DESIGN/PRINCIPAL FINDINGS: Five-week old hairless mice were given drinking water containing physiologically sufficient AA (1.5 g/L) [AA (+)], no AA [AA (-)] or 1.67% acerola juice [AJ]. All mice were exposed to UVB irradiation for 6 weeks. UVB irradiation was performed three times per week. The dorsal skin color and stratum corneum water content were measured every weekly, and finally, the AA contents of the skin was determined. The skin AA and stratum corneum water content was similar between the AA (+) and AJ groups. The L* value of the AA (+) group was significantly decreased by UVB irradiation, whereas AJ intake suppressed the decrease in the L* value throughout the experiment. Moreover, in the AJ group, there was a significant decrease in the expression level of dopachrome tautomerase, an enzyme that is involved in melanin biosynthesis. CONCLUSION: These results indicate that AJ intake is effective in suppressing UVB-induced skin pigmentation by inhibiting melanogenesis-related genes.

Absorption and excretion of ascorbic acid alone and in acerola (Malpighia emarginata) juice: comparison in healthy Japanese subjects.

It has been suggested that some food components, such as bioflavonoids, affect the bioavailability of ascorbic acid in humans. Since little is known in Japan about the effective intake of this dietary requirement, we tested young Japanese males after the ingestion of commercial ascorbic acid or acerola (Malpighia emarginata DC.) juice to compare the quantities absorbed and excreted. Healthy Japanese subjects received a single oral dose of ascorbic acid solution (50, 100, 200 or 500 mg) and received distilled water as a reference at intervals of 14 d or longer. All subjects were collected blood and urine until 6 h after ingestion and evaluated for time-dependent changes in plasma and urinary ascorbic acid levels. Predictably, the area under the curve (AUC) values in plasma and urine after ingestion increased dose-dependently. Next, each subject received diluted acerola juice containing 50 mg ascorbic acid. Likewise, their plasma and urinary ascorbic acid concentrations were measured. In plasma, the AUC value of ascorbic acid after ingestion of acerola juice tended to be higher than that from ascorbic acid alone. In contrast, the urinary excretion of ascorbic acid at 1, 2 and 5 h after ingestion of acerola juice were significantly less than that of ascorbic acid. These results indicate that some component of acerola juice favorably affected the absorption and excretion of ascorbic acid.

Toward 100 Mega-frames per second: design of an ultimate ultra-high-speed image sensor.

Our experience in the design of an ultra-high speed image sensor targeting the theoretical maximum frame rate is summarized. The imager is the backside illuminated in situ storage image sensor (BSI ISIS). It is confirmed that the critical factor limiting the highest frame rate is the signal electron transit time from the generation layer at the back side of each pixel to the input gate to the in situ storage area on the front side. The theoretical maximum frame rate is estimated at 100 Mega-frames per second (Mfps) by transient simulation study. The sensor has a spatial resolution of 140,800 pixels with 126 linear storage elements installed in each pixel. The very high sensitivity is ensured by application of backside illumination technology and cooling. The ultra-high frame rate is achieved by the in situ storage image sensor (ISIS) structure on the front side. In this paper, we summarize technologies developed to achieve the theoretical maximum frame rate, including: (1) a special p-well design by triple injections to generate a smooth electric field backside towards the collection gate on the front side, resulting in much shorter electron transit time; (2) design technique to reduce RC delay by employing an extra metal layer exclusively to electrodes responsible for ultra-high speed image capturing; (3) a CCD specific complementary on-chip inductance minimization technique with a couple of stacked differential bus lines.

Identification of high gamma-aminobutyric acid producing marine yeast strains by physiological and biochemical characteristics and gene sequence analyses.

Four marine yeasts isolated from the Pacific Ocean off Japan (Siki No. 4, Siki No. 15, Hach No. 6, and Inub No. 11), which showed high gamma-aminobutyric acid (GABA) producing abilities, were identified and classified by physiological and biochemical characteristics and gene sequence analyses. Analysis of biochemical data suggested that while Siki No. 15 was identical to Candida, the remaining three isolates belonged to the genus Pichia. However, these data were insufficient to resolve their identity at the species level. Subsequently, analysis of the 5.8S rRNA genes and the two internal transcribed spacer regions (ITS) sequences revealed that Siki No. 15 belongs to Pichia guilliermondii, while the remaining three isolates corresponded to Pichia anomala. Since Siki No. 4 showed slightly different biochemical properties than the other two isolates, which were otherwise identical, we sought to investigate the sequences of the intergenic spacer region 1 (IGS1). We observed few nucleotide changes, suggesting that the Hach No. 6 and Inub No. 11 isolates belong to different but new strains for which we propose the names P. anomola MR-1 and MR-2 respectively.

Skin-lightening effect of a polyphenol extract from Acerola (Malpighia emarginata DC.) fruit on UV-induced pigmentation.

To investigate the physiological functions of polyphenols from acerola (Malpighia emarginata DC.) fruit, the effects on melanogenesis were studied. The crude polyphenol concentrated extract from acerola (C-AP) was used to examine the skin-lightening effect on brownish guinea pigs which had been subjected to controlled UVB irradiation. The results show that C-AP significantly lightened the UVB-irradiated skin pigmentation. Furthermore, treatment with C-AP reduced the content of melanin in B16 melanoma cells, suggesting that the in vivo skin-lightening effect of C-AP was due to the suppression of melanin biosynthesis in melanocytes. In addition, we found that C-AP could effectively inhibit mushroom tyrosinase activity, the main constituents responsible for this effect being thought to be such anthocyanins as cyanidin-3-alpha-O-rhamnoside (C3R) and pelargonidin-3-alpha-O-rhamnoside (P3R). This result indicates that the skin-lightening effect of C-AP can be partly attributed to the suppression of melanogenesis through the inhibition of tyrosinase activity in melanocytes. An oral ingestion of C-AP may therefore be efficacious for reducing UVB-induced hyper-pigmentation by inhibiting the tyrosinase in melanocytes.

Antihyperglycemic effect of polyphenols from Acerola (Malpighia emarginata DC.) fruit.

A crude acerola polyphenol fraction (C-AP) was prepared by subjecting an acerola extract to a C18 cartridge column, and eluting the adsorbed fraction with ethanol containing 10% of acetic acid. C-AP appeared in a previous study to have an inhibitory effect on alpha-glucosidase and particularly on maltase activities. To elucidate the antihyperglycemic effect of C-AP further, we examined the regulation by C-AP of glucose uptake in Caco-2 cell; this resulted in the inhibition of glucose uptake. We next conducted single administration tests of glucose and maltose to ICR mice to investigate whether C-AP really controlled the intestinal glucose absorption in an animal body. The results showed that C-AP significantly suppressed the plasma glucose level after administering both glucose and maltose, suggesting that C-AP had a preventive effect on hyperglycemia in the postprandial state. The mechanism for this effect is considered to have been both suppression of the intestinal glucose transport and the inhibition of alpha-glucosidase. Despite such a preventive effect, the therapeutic effect of C-AP on hyperglycemia appeared to be low from the experiment with KKAy mice.

Characterization of cDNA clones encoding two distinct cathepsins with restricted expression pattern in a marine pelagic fish.

Cathepsin L (EC 3.4.22.15) from aquatic animals are quite stable and active at neutral or alkaline pH values while their mammalian equivalents work at an acidic environment of the lysosomes. To understand the molecular properties at the gene level we employed a PCR-based strategy using degenerate oligonucleotide primers to isolate cathepsin L-like genes from anchovy Engraulis japonicus. As a result, we obtained two closely related genes encoding cathepsins (aCat1 and aCat2) similar to both cathepsins L and S from other organisms. The predicted precursor protein of 324 amino acid residues for genes differed in six residues and contained conserved residues characteristic of cathepsin L-like cysteine proteases. Phylogenetic analyses failed to produce any precise relationships of aCat1 and aCat2 with other cysteine proteases. However, with a bootstrap value less than 50, these two fish cathepsins formed a separate group to that bearing cathepsins L and S of various organisms. Interestingly, unlike mammalian cathepsin L transcripts of aCat1 and aCat2 were almost exclusively detected in the stomach suggesting that the fish homologues are non-lysosomal secretory enzymes present in the extracellular acidic environment of the stomach and that marine teleosts developed digestive cysteine proteases as a result of evolutionary pressure in response to varying dietary conditions.

Overexpression in Escherichia coli and functional reconstitution of anchovy trypsinogen from the bacterial inclusion body.

We have synthesized and optimized a high-yielding Escherichia coli expression system to produce trypsinogen from anchovy Engraulis japonicus and have developed conditions for its successful refolding. Recombinant anchovy trypsinogen precipitated in E. coli Rosetta (DE3) pLacI strain as inclusion bodies was denatured by 6 M guanidine-HCl followed by refolding with drop wise addition to a large excess of a folding buffer containing 0.5 M non-detergent sulfobetaine (NDSB-251) and a redox potential of oxidized and reduced glutathiones. The folded trypsinogen was autocatalytically activated to its mature form, trypsin, and purified with a MonoQ ion-exchange column. NH2-terminal amino acid sequencings revealed that E. coli efficiently processed NH2-terminal methionine residue from the expressed trypsinogen and that trypsinogen was activated at the correct site to generate active trypsin. The recombinant enzyme showed kinetic properties comparable to those of the native enzyme and demonstrated a typical cleavage preference for arginine over lysine residue against a protein substrate. The optimized expression and folding procedures yielded 12 mg of purified, active trypsin from 1 L of bacterial culture or 45 g wet weight cells, which is quite enough for various analytical and semipreparative purposes.

Heterologous expression in Pichia pastoris and single-step purification of a cysteine proteinase from northern shrimp.

A distinct cysteine proteinase (NsCys) of northern shrimp Pandalus borealis belonging to cathepsin L subgroup of the papain superfamily has been overexpressed as a precursor form (proNsCys) in Pichia pastoris. We adopted a simple and quick procedure to generate an expression cassette by constructing a donor vector harboring proNsCys followed by recombination with an acceptor vector in a way so that the proNsCys gene was placed downstream of the methanol-inducible AOX1 promoter and alpha-mating factor signal sequence gene. In addition, we used glycerol complex medium that supported high growth of yeast before induction while induction was carried out in minimal methanol medium thereby facilitating the secreted protein to be purified with a single size-exclusion chromatography. The recombinant enzyme was purified in two enzymatically active fractions: both corresponding to mature NsCys with, however, the major one comprising two molecular species of NsCys which had their severed prodomain non-covalently attached. The overall yield was about 100 mg of crude or 60 mg of purified recombinant enzyme comprising both mature and prodomain-attached forms of NsCys per liter of yeast culture. The recombinant NsCys was biologically active as observed by gelatin zymography and its ability to cleave Z-Phe-Arg-MCA, a synthetic substrate for cathepsin L. The development of the system reported here provides a cost-effective and easy to manipulate expression system to obtain large quantities of fully functional shrimp enzyme that will enable the functional characterization of this unique enzyme for both research and industrial purposes.

Molecular cloning and functional characterization of crustapain: a distinct cysteine proteinase with unique substrate specificity from northern shrimp Pandalus borealis.

A cDNA clone encoding a cysteine proteinase of the papain superfamily has been isolated from the hepatopancreas of northern shrimp Pandalus borealis (NsCys). NsCys shares the highest identity of 64% with a cathepsin L-like cysteine proteinase from lobster, and its identity to the well-characterized mammalian cathepsins S, L, and K falls within a narrow range of 54-59%. However, it differs from each of these cathepsins in certain key residues including, for example, the unique occurrence of tryptophan and cysteine residues at the structurally important S2 subsite. Consequently, NsCys produced in Pichia pastoris appears to be distinct in various physicokinetic properties. The recombinant enzyme is active and stable over a wide range of pH values, and its substrate specificity is unusual, as demonstrated by its poor affinity for phenylalanine residues. Instead, it shows the highest specificity for proline residues, a property similar to cathepsin K. Unlike cathepsin K, however, NsCys cleaves valine residues more efficiently than leucine. Similar results were obtained with the natural peptide substrate glucagon. The shrimp proteinase is further distinguished by its potent collagenolytic activity, resulting in a cleavage pattern reminiscent of bacterial collagenase. To distinguish such unique structural and enzymatic properties, we propose the trivial name "crustapain" for the shrimp proteinase, indicating that it is a papain-like cysteine proteinase from a crustacean species.

Molecular cloning and characterization of cathepsin B from the hepatopancreas of northern shrimp Pandalus borealis.

We cloned a cDNA encoding cathepsin B from the hepatopancreas of northern shrimp Pandalus borealis (NsCtB). Nucleotide sequence of the isolated clone encoded a preproenzyme of 328 amino acids, comprising a 15-residue putative signal peptide, a 60-residue propeptide and the 253-residue mature enzyme. The mature NsCtB was 53% identical to human cathepsin B and conserved all the structural features characteristic of cysteine protease. The presence of an occluding loop in the mature region, a unique feature of cathepsin B, suggested the shrimp protein to be cathepsin B. Northern blot analysis revealed expression of NsCtB transcripts exclusively in the hepatopancreas tissues, suggesting a possible digestive role of this enzyme. An interesting feature of NsCtB was its remarkably high negative charge in comparison with other cysteine proteases, which was predicted to effectively locate and guide the positively charged residues of a substrate into the binding cleft. We also observed a repertoire of cysteine protease activities in the acidic milieu of shrimp hepatopancreas using synthetic substrates specific to various cathepsins. The activity profile revealed cathepsin B as the single most dominant enzyme with a specific activity comparable to that attributable to combined activities of other cathepsins. This activity could be blocked by E-64, a cysteine protease inhibitor, but not by Z-Phe-Tyr (t-Bu)-CHN(2), a specific inhibitor of cathepsin L.

Purification and characterization of collagenolytic proteases from the hepatopancreas of northern shrimp (Pandalus eous).

Three gelatinolytic proteases (A1, A2, and B) were purified using a synthetic substrate, DNP-Pro-Gln-Gly-Ile-Ala-Gly-Gln-d-Arg, from the hepatopancreas of Northern shrimp (Pandalus eous) by several chromatographic steps involving hydroxyapatite column chromatography, gel filtration on Superdex75, and ion-exchange chromatography on a MonoQ column. Collagenolytic proteases A2 and B, but not protease A1, were demonstrated to digest native porcine type I collagen at 25 degrees C and pH 7.5. Further characterizations of these two collagenolytic proteases showed that the pH optimum of enzyme A2 against DNP-peptide was found to be 11, whereas that of enzyme B was 8.5. The optimum temperature ranged between 40 and 45 degrees C for both enzymes, although enzyme B appeared to be thermally more stable than enzyme A2 at pH 7.5. Both enzymes were strongly inhibited by PMSF and antipain, which suggests that they belong to collagenolytic serine proteases.