Studies on the biological activity of an insulin-stimulating peptide from a tryptic digest of bovine serum albumin

Summary A two-chain polypeptide, which corresponds to amino acid residues 115–143 and 144–184(185) of bovine serum albumin, connected to each other by a disulfide bridge, potentiated the effects of insulin on glucose transport and glucose metabolism in isolated rat adipocytes. Although the peptide alone had little activity, it shifted the concentration-response curves of insulin-stimulated D-[I-¹⁴C]glucose oxidation, 2-deoxyglucose transport, and lipid synthesis from D-[U-¹⁴C]glucose to lower insulin concentrations. It also increased the maximal responses of these parameters to insulin. However, it did not affect insulin binding to adipocytes. The peptide protected insulin considerably from degradation, but this effect alone cannot account for its effect in increasing the maximal responses to the hormone, and even when degradation of a submaximal concentration of insulin was suppressed by bacitracin, the peptide still had an enhancing effect. These results suggest not only that the peptide influences a step distal to receptor-mediated insulin binding but also that inhibition of insulin degradation alone cannot explain its total effect.The peptide lost its insulin-stimulating activity completely when it was further digested with V8 or lysinespecific endopeptidase, or when it was reduced and then carboxamidomethylated or oxidized with performic acid. Similar active tryptic fragments were obtained from human and rat albumins.Insulin-stimulating peptides should be useful in studies on the mechanisms of insulin action including both the sensitivities and responsiveness of target cells to the hormone.Abbreviations ISP insulin-stimulating peptide - HEPES N-(2-hydroxyethyl)piperazine-N-2-ethanesulfonic acid - HPLC high-performance liquid chromatography - SDS sodium dodecyl sulfate     

Relationship Between Male Size and Newborn Size in the Seaweed Pipefish, Syngnathus Schlegeli

Relationships between male size, number, and weight of newborn were determined in the seaweed pipefish, Syngnathus schlegeli, with paternal care of embryos in the brood pouch. While the number of newborn increased linearly with the increase in male size, the pouch volume increased exponentially with the male size. This resulted in embryo density in the pouch negatively correlating with the male size. Newborn dry weight was negatively correlated with the embryo density in the pouch. Thus, larger males were considered to brood embryos at lower densities and give birth to heavier newborn. Neither paternal size nor embryo density seemed to have an effect upon developmental stage and total length of the newborn. Substantial weight loss of embryos during incubation indicated that paternal nutritional contribution to embryos is insignificant; therefore, the tendency of larger males to produce heavier newborn may not relate to allocation of paternal nourishment. Because egg weight increased with the female size, larger males are considered to receive the eggs of larger females and give birth to heavier newborn that developed from heavier eggs. Lower embryo density in larger males is attributable to the larger size of the heavier eggs. Assuming the pouch to be a cylindrical tube and the egg to be a sphere, geometrical calculations revealed that the relationship between the volumetric fraction of the pouch used by eggs (i.e. functional volume) and the male size was negatively quadric and had a peak. Increase in egg diameter increased the male size at which the functional volume of the pouch is maximized. Thus it appears that the size relationship of mates in pipefish is related to effective use of the pouch space.     

Interaction between leukemic-cell VLA-4 and stromal fibronectin is a decisive factor for minimal residual disease of acute myelogenous leukemia

Bone-marrow minimal residual disease (MRD) causes relapse after chemotherapy in patients with acute myelogenous leukemia (AML). We postulate that the drug resistance is induced by the attachment of very late antigen (VLA)-4 on leukemic cells to fibronectin on bone-marrow stromal cells. We found that VLA-4-positive cells acquired resistance to anoikis (loss of anchorage) or drug-induced apoptosis through the phosphatidylinositol-3-kinase (PI-3K)/AKT/Bcl-2 signaling pathway, which is activated by the interaction of VLA-4 and fibronectin. This resistance was negated by VLA-4-specific antibodies. In a mouse model of MRD, we achieved a 100% survival rate by combining VLA-4-specific antibodies and cytosine arabinoside (AraC), whereas AraC alone prolonged survival only slightly. In addition, overall survival at 5 years was 100% for 10 VLA-4-negative patients and 44.4% for 15 VLA-4-positive patients. Thus, the interaction between VLA-4 on leukemic cells and fibronectin on stromal cells may be crucial in bone marrow MRD and AML prognosis.     

Automated screening system for purine and pyrimidine metabolism disorders using high-performance liquid chromatography

An automated screening system for purine and pyrimidine metabolism disorders using high-performance liquid chromatography (HPLC) with column switching is described. The system consists of a reversed-phase column, a cation-exchange column, a column switch, four sets of ultraviolet absorbance detectors, a microcomputer and other conventional equipment. As this system permits the simultaneous determination of urinary orotic acid, uracil, dihydrouracil, pseudouridine, xanthine, 2,8-dihydroxyadenine and succinyladenosine, it offers a useful method for the detection of orotic aciduria, dihydropyrimidine dehydrogenase deficiency, diphydropyrimidinuria, xanthinuria, adenine phosphoribosyltransferase deficiency and adenylosuccinase deficiency.     

Effects of Kupffer cell-depletion on Concanavalin A-induced hepatitis

TNF-α, IFN-γ, IL-4, and MIP-2 are known to be involved in Con A-induced hepatitis. Although Kupffer cells are reportedly involved in TNF-α production, it is largely unknown whether or not Kupffer cells also play a role in the production of other cytokines, such as IFN-γ, IL-4, and MIP-2. In this study we examined the liver injury and the levels of plasma cytokines, including above four cytokines, KC, and IL-10 in Kupffer cell-depleted mice obtained through administration of liposome-encapsulated dichloromethylene bisphosphonate. The liver injury was significantly suppressed in Kupffer cell-depleted mice, as assessed as to the plasma ALT level and histochemistry. The cytokine levels were also significantly suppressed in such mice except for those of IFN-γ, which was slightly suppressed at 12 h, and IL-10, which was not significantly suppressed at any time. Apoptosis was also significantly suppressed in such mice, as found immunohistochemically with anti-ssDNA Ab. Taken together, these results suggest that Kupffer cells are involved in the production of MIP-2, KC, IL-4, and TNF-α in Con A-induced hepatitis, thereby contributing to the liver injury either directly or indirectly.     

How is autonomic nervous system activity in subjects who are sleepy but are unable to sleep in the daytime?

We investigated changes in the activity of the autonomic nervous system (ANS) in the relaxed condition in subjects who felt sleepy, but were unable to sleep. A total of 1021 subjects underwent daytime polysomnography. The sleep latency (SL) and the visual analog scale (VAS) were used to assess “immediate” objective and subjective sleepiness, respectively. The subjects were assigned to an “Alert-Alert” group (VAS ≤ 25 mm, SL ≥ 8 min), a “Sleepy-Alert” group (VAS ≥ 75 mm, SL ≥ 8 min), or a “Sleepy-Sleepy” group (VAS ≥ 75 mm, SL ≤ 4 min). In order to assess the ANS, the spectral analysis and the geometric method were used. The ANS data collected during the relaxed condition (after lights off, post-LO) was compared to that obtained during the control condition (before lights off, pre-LO). From the spectral analysis, a significant decrease of sympathetic function and an increase of parasympathetic function at post-LO in the Sleepy-Sleepy group, a tendency for sympathetic function decrease at post-LO in the Alert-Alert group, and no significant changes to sympathetic and parasympathetic function in the Sleepy-Alert group were observed. The results from the geometric method supported the results of the spectral analysis in the Alert-Alert group and the Sleepy-Sleepy group. The results of this study suggest that the ANS plays a role in individuals who are unable to sleep even though they feel sleepy and are given the opportunity to sleep.

     

Accumulation of anthranilic acid and N-glucosylanthranilic acid by a Corynebacterium glutamicum mutant resistant to DL-serine hydroxamate

During a study on the effect of DL-serine hydroxamate on Corynebacterium glutamicum (JCM1318, a wild strain), a mutant resistant to the drug, strain TO3002, was isolated. This mutant accumulated five Ehrlich's reagent positive fluorescent substances in the culture medium. Two major and one minor fluorescent products were isolated by preparative high-performance liquid chromatography following charcoal column chromatography from the culture supernatant. One major product was identified as anthranilic acid whose molecular ion was confirmed to be 137 by a measurement of liquid chromatography-mass spectrometry (LC-MS), and NMR spectrum coincided with that of anthranilic acid. LC-MS spectra of another major and the minor product showed that they had the same molecular weight of 299. This major product was supported to be N-glucosylanthranilic acid (N-o-carboxyphenyl-1-beta-glucosylamine) by two-dimensional (1)H and (13)C NMR analyses. The minor product was speculated to be an Amadori compound derived from N-glucosylanthranilic acid. N-Glucosylanthranilic acid accumulated in the early phase, then decreased in the late phase of the culture. In contrast, the accumulation of anthranilic acid increased remarkably in the late phase of the fermentation. Based on this phenomenon, it was assumed that N-glucosylanthranilic acid once accumulated was decomposed to form anthranilic acid, at least in large part, with the progress of fermentation. The strain TO3002 showed a leaky requirement for L-tryptophan or indole (but did not for anthranilic acid) and resistance to DL-serine hydroxamate.     

Effect of Ribocitrin on Glucan Synthesizing Enzymes of Streptococcus mutans E49

Enzymes participating in glucan synthesis by Streptococcus mutans E49 were separated into two fractions with distinctly different activities by chromatography on DEAE Bio-Gel A. The insoluble glucan (IG) was revealed to be formed by the coupling reaction of these two enzymes, dextransucrase (SGE), which synthesizes soluble glucan from sucrose, and a glucan insolubilizing enzyme (IGE), which forms IG from soluble glucan.

Ribocitrin was found to inhibit IG synthesis by inhibiting SGE.     

Off-response property of an acid-activated cation channel complex PKD1L3-PKD2L1

Ligand-gated ion channels are important in sensory and synaptic transduction. The PKD1L3-PKD2L1 channel complex is a sour taste receptor candidate that is activated by acids. Here, we report that the proton-activated PKD1L3-PKD2L1 ion channels have the unique ability to be activated after the removal of an acid stimulus. We refer to this property as the off-response (previously described as a delayed response). Electrophysiological analyses show that acid-induced responses are observed only after the removal of an acid solution at less than pH 3.0. A small increase in pH is sufficient for PKD1L3-PKD2L1 channel activation, after exposure to an acid at pH 2.5. These results indicate that this channel is a new type of ion channel-designated as an 'off-channel'-which is activated during stimulus application but not gated open until the removal of the stimulus. The off-response property of PKD1L3-PKD2L1 channels might explain the physiological phenomena occurring during sour taste sensation.