Curtisians A-D, new free radical scavengers from the mushroom Paxillus curtisii. (33/729)

In our continuous investigation for free radical scavengers from extracts of fruit body of basidiomycetes, we have isolated four new p-terphenyl compounds, designated as curtisians A-D, from the methanolic extract of the fruit body of Paxillus curtisii. These compounds were isolated by silica gel and Sephadex LH-20 column chromatographies, preparative-TLC and HPLC, consecutively. The structures of curtisians were assigned as p-terphenyls with substituents of acetyl, benzoyl, phenylbutyryl, 3-hydroxybutyryl and 3-acetoxybutyryl. Curtisians A, B, C and D exhibited inhibitory activity against lipid peroxidation with IC50, values of 0.15, 0.17, 0.24 and 0.14 microg/ml, respectively.  (+info)

Antigen-initiated B-lymphocyte differentiation. VII. Quantification of AFC progenitor levels in adoptive and culture responses to NIP-POL antigen. (34/729)

Quantitative studies on B cells require a direct assay for antibody-forming cell (AFC) progenitor function, in which the number of AFC produced bears a simple, linear arithmetic relationship to the number of progenitors present. This might be expected under conditions where helper T-cell and accessory cell requirements are by-passed, or provided in excess. This possibility has been tested using as antigen the hapten NIP (4-hydroxy-3-iodo-5-nitrophenylacetic acid) on the carrier POL (polymerized bacterial flagellin), in adoptive transfer of normal and nude mouse spleen cells to irradiated recipients, and in cell culture. Primary and secondary IgM responses to this antigen are "T cell-independent'. The secondard IgG response is T cell-dependent but this function can be provided by 'carrier-primed' irradiated recipients. However in no case did the cell dose response curve show a linear, arithmetic relationship between cells transferred or cultured, and AFC produced. If less than 10 X 10(6) cells were adoptively transferred or cultured, a sigmoid curve was obtained, approximately linear with a slope of around 1-6 on a log-log scale. In adoptive transfer, a plateau was then seen above 10 X 10(6) cells, followed by a second sharp rise beginning around 15 X 10(6) cells. Addition of irradiated spleen cells as 'fillers' to maintain cell numbers constant produced a linear (arithmetic scale) dose response curve for the primary IgM responses, both adoptive and in culture. Lipopolysaccharide injection of recipients also produced linear regions in the adoptive transfer system. These techniques provide more direct, quantitative assay systems for the primary IgM responses to this antigen. However, arithmetic linear cell dose response curves were still not obtained for the secondary IgG responses, using irradiated filler cells.  (+info)

Metabolism of carnitine in phenylacetic acid-treated rats and in patients with phenylketonuria. (35/729)

The effect of metabolites accumulating in phenylketonuria (PKU) was investigated on carnitine metabolism in rats and in patients with PKU. Of phenylacetic acid (PEAA), phenylpyruvic acid and homogentisic acid the PEAA was found to be the most effective in inhibiting carnitine biosynthesis in rats. Following 60 min, a single intraperitoneal dose of PEAA the relative conversion rate, i. e. the hydroxylation, of tracer [Me-(3)H]butyrobetaine to [Me-(3)H]carnitine decreased from 62.2+/-6.00% to 39.4+/-5.11% (means+/-S.E.M., P<0.01) in the liver, in the only organ doing this conversion in rats. The conversion of loading amount of unlabeled butyrobetaine to carnitine was also markedly reduced. The impaired hydroxylation of butyrobetaine was reflected by a reduced free and total carnitine levels in the liver and a reduced total carnitine concentration in the plasma. PEAA decreased the hepatic level of glutamic acid and alpha-ketoglutaric acid (alpha-KG), suggesting a mechanism for the reduced flux through the butyrobetaine hydroxylase enzyme, because alpha-KG is an obligatory co-enzyme. In the plasma and urine of PKU patients on unrestricted diet, markedly decreased total carnitine levels were detected. In the liver of PEAA-treated rats and urine of PKU patients, a novel carnitine derivative, phenacetyl-carnitine was verified by HPLC and gas chromatography-mass spectrometry.  (+info)

Glucose-regulated anaplerosis and cataplerosis in pancreatic beta-cells: possible implication of a pyruvate/citrate shuttle in insulin secretion. (36/729)

The hypothesis proposing that anaplerosis and cataplerosis play an important role in fuel signaling by providing mitochondrially derived coupling factors for stimulation of insulin secretion was tested. A rise in citrate coincided with the initiation of insulin secretion in response to glucose in INS-1 beta-cells. The dose dependence of glucose-stimulated insulin release correlated closely with those of the cellular contents of citrate, malate, and citrate-derived malonyl-CoA. The glucose-induced elevations in citrate, alpha-ketoglutarate, malonyl-CoA, and the 3-[4,5-dimethylthiazol-2yl]-2,5-diphenyltetrazolium reduction state, an index of beta-cell metabolic activity, were unaffected by the Ca2+ chelator EGTA. Glucose induced a rise in both mitochondrial and cytosolic citrate and promoted efflux of citrate from the cells. The latter amounted to approximately 20% of glucose carbons entering the glycolytic pathway. Phenylacetic acid, a pyruvate carboxylase inhibitor, reduced the glucose-induced rise in citrate in INS-1 cells and insulin secretion in both INS-1 cells and rat islets. The results indicate the feasibility of a pyruvate/citrate shuttle in INS-1 beta-cells, allowing the regeneration of NAD+ in the cytosol and the formation of cytosolic acetyl-CoA, malonyl-CoA, and NADPH. The data suggest that anaplerosis and cataplerosis are early signaling events in beta-cell activation that do not require a rise in Ca2+. It is proposed that citrate is a signal of fuel abundance that contributes to beta-cell activation in both the mitochondrial and cytosolic compartments and that a major fate of anaplerotic glucose carbons is external citrate.  (+info)

Impaired affinity maturation in Cr2-/- mice is rescued by adjuvants without improvement in germinal center development. (37/729)

Cr2-/- mice have an impairment in humoral immunity, as shown by the decrease in the Ab titers against T cell-dependent Ags and abnormalities in germinal center formation. Germinal centers are present, but they are decreased in size and number, indicating problems in their development. In this study, we investigated whether this abnormality in germinal center development is associated with problems in the establishment of optimal affinity maturation and the generation of memory B cells, processes closely related to the germinal center reaction. We immunized the Cr2-/- animals with different Ags with or without adjuvants. We showed that, when immunized without adjuvants, complement receptors are absolutely required for optimal affinity maturation. Although limited affinity maturation is elicited in the Cr2-/- Ab response, it is decreased as compared with normal animals. Memory B cell generation is also impaired. In the presence of adjuvants, germinal center development in the Cr2-/- mice is still abnormal, as demonstrated by their decreased size and number. Surprisingly, adjuvants establish optimal affinity maturation and partially restore the amount of Ab produced during the primary response and memory B cell generation. However, adjuvants cannot improve the ability of follicular dendritic cells to retain Ags in the form of immune complexes. These observations indicate that immunization with inflammatory Ags offset some of the immunological abnormalities found in the Cr2-/- mice and show that optimal affinity maturation in the Cr2-/- mice can be achieved in the absence of normal germinal centers.  (+info)

Oxidation and reduction of nitrite ion in the TiO2 photo-induced catalytic reaction. (38/729)

During a photo-induced catalytic reaction under near UV irradiation to an aqueous suspension of Ti4O2, about 95% of NO2- was oxidized to NO3-, but NH4+ was not detected. The oxidation was inhibited by the addition of mannitol or under anaerobic conditions. The nitration of HPA was observed in the presence of t-buthanol, suggesting the formation of ONOO. An ESR spectrum gave a triplet signal at g = 2.041,in the presence of NO2-, mannitol, FeSO4, and MGD, indicating the reduction of NO2- to NO.  (+info)

Phenylacetyl-coenzyme A is the true inducer of the phenylacetic acid catabolism pathway in Pseudomonas putida U. (39/729)

Aerobic degradation of phenylacetic acid in Pseudomonas putida U is carried out by a central catabolism pathway (phenylacetyl-coenzyme A [CoA] catabolon core). Induction of this route was analyzed by using different mutants specifically designed for this objective. Our results revealed that the true inducer molecule is phenylacetyl-CoA and not other structurally or catabolically related aromatic compounds.  (+info)

Germinal center initiation, variable gene region hypermutation, and mutant B cell selection without detectable immune complexes on follicular dendritic cells. (40/729)

Serum antibody (Ab) can play several roles during B cell immune responses. Among these is to promote the deposition of immune complexes (ICs) on follicular dendritic cells (FDCs). ICs on FDCs are generally thought to be critical for normal germinal center (GC) formation and the development and selection of memory B cells. However, it has been very difficult to test these ideas. To determine directly whether FDC-bound complexes do indeed function in these roles, we have developed a transgenic (Tg) mouse in which all B lymphocytes produce only the membrane-bound form of immunoglobulin M. Immune Tg mice have 10,000-fold less specific Ab than wild-type mice and lack detectable ICs on FDCs. Nonetheless, primary immune responses and the GC reaction in these mice are robust, suggesting that ICs on FDCs do not play critical roles in immune response initiation and GC formation. Moreover, as indicated by the presence and pattern of somatic mutations, memory cell formation and selection appear normal in these IC-deficient GCs.  (+info)