Effect of renoguanylin on hydrogen/bicarbonate ion transport in rat renal tubules

Renoguanylin (REN) is a recently described member of the guanylin family, which was first isolated from eels and is expressed in intestinal and specially kidney tissues. In the present work we evaluate the effects of REN on the mechanisms of hydrogen transport in rat renal tubules by the stationary microperfusion method. We evaluated the effect of 1 μM and 10 μM of renoguanylin (REN) on the reabsorption of bicarbonate in proximal and distal segments and found that there was a significant reduction in bicarbonate reabsorption. In proximal segments, REN promoted a significant effect at both 1 and 10 μM concentrations. Comparing control and REN concentration of 1 μM, JHCO₃⁻, nmol cm^− 2 s^− 1 − 1,76 ± 0,11_control × 1,29 ± 0,08_{REN 10 μM}; P < 0.05, was obtained. In distal segments the effect of both concentrations of REN was also effective, being significant e.g. at a concentration of 1 μM (JHCO₃⁻, nmol cm^− 2 s⁻ 1 − 0.80 ± 0.07_control × 0.60 ± 0.06_{REN 1 μM}; P < 0.05), although at a lower level than in the proximal tubule. Our results suggest that the action of REN on hydrogen transport involves the inhibition of Na⁺/H⁺exchanger and H⁺-ATPase in the luminal membrane of the perfused tubules by a PKG dependent pathway.     

Prostacyclin and steroidogenesis in goat ovari cell types in vitro

Granulosa, theca and corpus luteum cells of the goat ovary were isolated and incubated separately for 6 hours, with or without various modulators. Arachidonic acid (AA, 10 ng to 100 μg/ml), the precursor for prostaglandin synthesis, produced a dose-dependent increase in progesterone (P₄) and estradiol-17β (E₂) productin by all the cell types. Prostaglandin synthetase inhibitors, aspirin (10⁻⁶−10⁻³M) and indomethacin (100 ng−1 mg/ml), produced a dose-dependent decrease in arachidonic acid-stimulated (100 μ/ml) steroid production. Prostacyclin synthetase stimulators, trapidil (1.6 μg− 1 mg/ml) and dipyridamole (10⁻⁶−10⁻³M), when added alone or along with AA, did not effect steroid production. Up to 100 μg/ml of U-51605 (9,11-azoprosta-5, 13-dienoic acid), a prostacyclin synthetase inhibitor, did not inhibit basal or AA-stimulated steroid production. Prostacyclin (PGl₂) and its stable analog 6βPGl₁(0.01–10μg/ml) produced a dose-dependent increase in P₄ and E₂ production in all three cell types. Increase at 1 and 10μg/ml was significant in all cases. 6-keto-PGE₁ (an active metabolite of PGl₂ in certain systems) produced an increase in steroid production which was significant in theca at 1μg/ml concentrations but had no significant effect on granulosa and corpus luteum cells at any dose level. 6-keto-PGf₁ alpha (stable metabolite of PGl₂) was without effect inthe present system. The lack of effect of PGl₂ at lower concentrations was not altered by either differentiation of the cells with FSH and testosterone or addition of steroid precursors, testosterone and pregnenolene. The present results indicate that AA- stimualted steroid production in the goat ovarian cell type is mediated by prostaglandins other than PGl₂ though PGl₂ itself can positively modulate the steroid production.     

Role of nitric oxide on quality of freshly ejaculated bull spermatozoa during heparin-induced in vitro capacitation

The objective of this study was to assess the effects of nitric oxide (NO) on heparin-induced capacitation in vitro of fresh bull sperm, through the addition of Nω-nitro-l-arginine methyl ester (L-NAME, a NO-synthesis inhibitor) and l-arginine (L-Arg, a NO-synthesis precursor) to the capacitation medium. In Experiment 1, different concentrations of L-NAME (0.1, 1, 10 mM) and of L-Arg (10 mM) were added to the capacitation medium. Sperm motility and vigor were subjectively appraised using direct light microscopy; sperm membrane integrity was examined using a 2% Trypan blue solution while the concentration of nitrate/nitrite (NO₃⁻/NO₂⁻) was determined by using the Griess method over a 5 h capacitation period. The addition of 10 mM L-NAME has inhibited NO synthesis, sperm progressive motility, sperm vigor and sperm membrane integrity (P < 0.05) as compared to control. The addition of 10 mM L-Arg to the capacitation medium increased all variables evaluated in comparison to the control (P < 0.05). In Experiment 2, mitochondrial activity was assessed through the MTT test (3-(4,5-dimetylthiazol-2-yl)-2,5-diphenyltetrazolium bromide), and sperm capacitation was assessed through the test of penetration in homologous oocytes after addition of the 10 mM L-NAME, and of the 10 mM L-Arg. The addition of 10 mM L-NAME caused mitochondrial activity (40%) and the percentage of oocytes penetrated (77%) to decrease in relation to the control (P < 0.05). After addition of 0.6 mM L-Arg + 10 mM L-NAME, partial reversal of mitochondrial activity did occur (only 20%). The addition of 10 mM L-Arg increased the percentage of oocytes penetrated as compared to control (21%) (P < 0.05). These results indicate that: (1) NO is involved in control of progressive sperm motility, vigor, membrane integrity, and mitochondrial activity along the period of heparin-induced capacitation of fresh bovine sperm via NOS/NO; (2) adequate L-Arg/NO concentrations into the capacitation medium can potentiate heparin action or act independently for increasing the number or the quality of capacitated sperm.     

Surface-enhanced Raman spectroscopy combined with atomic force microscopy for ultrasensitive detection of thrombin

Indole-3-acetic acid (IAA) amide conjugates play an important role in balancing levels of free IAA in plant cells. The GH3 family of proteins conjugates free IAA with various amino acids. For example, auxin levels modulate expression of the Oryza sativa (rice) GH3-8 protein, which acts to prevent IAA accumulation by coupling the hormone to aspartate. To examine the kinetic properties of the enzyme, we developed a liquid chromatography–tandem mass spectrometry (LC–MS/MS) assay system. Bacterially expressed OsGH3-8 was purified to homogeneity and used to establish the assay system. Monitoring of the reaction confirms the reaction product as IAA–Asp and demonstrates that production of the conjugate increases proportionally with both time and enzyme amount. Steady-state kinetic analysis using the LC–MS/MS-based assay yields the following parameters: V/E_t^IAA = 20.3 min⁻¹, K_m^IAA = 123 μM, V/E_t^ATP = 14.1 min⁻¹, K_m^ATP = 50 μM, V/E_t^Asp = 28.8 min⁻¹, K_m^Asp = 1580 μM. This is the first assignment of kinetic values for any IAA–amido synthetase from plants. Compared with previously described LC- and thin-layer chromatography (TLC)-based assays, this LC–MS/MS method provides a robust and sensitive means for performing direct kinetic studies on a range of IAA-conjugating enzymes.     

Leptin controls rabbit ovarian function in vivo and in vitro: Possible interrelationships with ghrelin

The aim of these in vivo and in vitro studies was to examine the role of leptin in the control of plasma hormone concentrations, reproduction, and secretory activity of ovarian granulosa cells.In in vivo experiments, 15 female European domestic rabbit (Oryctolagus cuniculus) were treated with leptin (5 μg animal⁻¹ d⁻¹ for 1 wk before induction of ovulation with 25 IU equine chorionic gonadotropin and 0.25 IU human chorionic gonadotropin), and 15 females constituted the control group (treated with phosphate-buffered saline). Plasma concentrations of progesterone (P₄), testosterone (T), estradiol (E₂), estrone sulfate (ES), and insulin-like growth factor I (IGF-I) were determined at the estimated day of ovulation by radioimmunoassay (RIA), and number, viability, and body weight of newborns were recorded at parturition. In in vitro experiments, granulosa cells were isolated from periovulatory ovarian follicles of five control and five females treated with ghrelin (10 μg animal⁻¹ d⁻¹ for 1 wk before induced ovulation). Isolated cells were cultured for 2 d with and without leptin (0, 1, 10, or 100 ng/mL medium). Secretion of P₄, T, E₂, IGF-I, and prostaglandin F (PGF) was assessed in culture medium by RIA.In in vivo experiments, leptin administrations reduced plasma P₄, T, E₂, ES, and IGF-I levels. Leptin treatments did not affect ovarian weight or total number and body mass of newborns, but the proportion of pregnant females and number of live newborns were significantly higher in leptin-treated females than that in control females. In in vitro experiments, leptin significantly decreased (at 1 and 10 ng/mL) or increased (at 100 ng/mL) P₄ secretion, promoted E₂ and IGF-I (both at 100 ng/mL) secretion, and reduced T (at 1 and 10 ng/mL) and PGF (at 10 ng/mL) secretion. Granulosa cells from ghrelin-treated animals secreted less P₄, T, E₂, and PGF, but not IGF-I, than that secreted by granulosa cells from control animals. Furthermore, pretreatment of animals with ghrelin suppressed or even reversed subsequent leptin effects on P₄, T, E₂, IGF-I, and PGF secretion by cultured granulosa cells.These observations (1) show for the first time that leptin can increase the number of live newborns in rabbits, (2) confirm previous data on the ability of leptin to control ovarian secretory activity both directly and via upstream mechanisms, (3) demonstrate the involvement of ghrelin in the control of rabbit ovarian secretory functions, and (4) suggest an antagonistic interrelationship between leptin and ghrelin in the rabbit.     

Participation of high-density lipoprotein in vitellogenesis in Japanese eel hepatocytes

To investigate effect of estradiol-17β (E₂) treatment in vivo on binding of eel hepatocytes to HDL, we developed hepatocytes binding assay. When hepatocytes were incubated with 200 times excess of eel HDL, the binding of hepatocytes to HDL precoated on wells was inhibited competitively. This indicates that eel hepatocytes bound specifically to HDL. E₂ treatment in vivo induced vitellogenin (VTG) synthesis. Hepatocytes prepared from the same E₂ treatment eel showed 3-fold higher ability of binding to HDL compared to hepatocytes prepared from ells without E₂ treatment. We also examined effects of E₂ and HDL on VTG induction in cultured hepatocytes. VTG, determined by enzyme-linked immunosorbent assay (ELISA), induction was about two-times higher in the presence of both 10⁻⁵ M of E₂ and 400 μg of HDL than in the presence of 10⁻⁵ M E₂ alone. At concentrations below 10⁻⁶ M E₂, VTG was not induced in the presence or absence of HDL. By SDS–PAGE and immunoblotting, VTG was detected only in the presence of both 10⁻⁵ M of E₂ and HDL. Our findings strongly support the idea that HDL correlates with vitellogenesis in eel liver.     

Inhibition of mitochondria-dependent apoptosis by 635-nm irradiation in sodium nitroprusside-treated SH-SY5Y cells

Nitric oxide (NO) is a major factor contributing to the loss of neurons in ischemic stroke, demyelinating diseases, and other neurodegenerative disorders. NO not only functions as a direct neurotoxin, but also combines with superoxide (O₂⁻) by a diffusion-controlled reaction to form peroxynitrite (ONOO⁻), a species that contributes to oxidative signaling and cellular apoptosis. However, the mechanism by which ONOO⁻ induces apoptosis remains unclear, although subsequent formation of reactive oxygen species (ROS) has been suggested. The aim of this study was to further investigate the triggers of the apoptotic pathway using O₂⁻ scavenging with light irradiation to block ONOO⁻ production. Antiapoptotic effects of light irradiation in sodium nitroprusside (SNP)-treated SH-SY5Y cells were assayed by reduction of 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, DNA fragmentation, flow cytometry, Western blot, and caspase activity assays. In addition, NO, total ROS, O₂⁻, and ONOO⁻ levels were measured to observe changes in NO and its possible involvement in radical induction. Cell survival was reduced to approximately 40% of control levels by SNP treatment, and this reduction was increased to 60% by low-level light irradiation. Apoptotic cells were observed in the SNP-treated group, but the frequency of these was reduced in the irradiation group. NO, O₂⁻, total ROS, and ONOO⁻ levels were increased after SNP treatment, but O₂⁻, total ROS, and ONOO⁻ levels were decreased after irradiation, despite the high NO concentration induced by SNP treatment. Cytochrome c was released from mitochondria of SNP-treated SH-SY5Y cells, but not of irradiated cells, resulting in a decrease in caspase-3 and -9 activity in SNP-treated cells. Finally, these results show that 635-nm irradiation, by promoting the scavenging of O₂⁻, protected against neuronal death through blocking the mitochondrial apoptotic pathway induced by ONOO⁻ synthesis.     

Survival and photosynthetic activity of different Dinophysis acuminata populations in the northern Baltic Sea

This study deals with a recently found phenomenon in the northern Baltic Sea: the occurrence of the dinoflagellate Dinophysis acuminata in the deep water below the thermocline. This was first observed in July 2001 at the station BY 15 in the Gotland Deep, where a sharp and intensive chlorophyll fluorescence signal was encountered at 77 m depth. The fluorescence peak was due to a dinoflagellate community dominated by Dinophysis acuminata (approximately 18 000 cells l⁻¹). The survival of this community was followed in laboratory incubations in low light (20 μE m⁻² s⁻¹) and low temperature (+5 °C). After 5 weeks incubation, 67–84% of the initial cell abundance was lost, while few D. acuminata cells survived up to 24 weeks in the original sample. During the incubation, the fluorescence signal of the cells became fainter and the chloroplasts smaller and aggregated. On two occasions a D. acuminata cell was found attached to a smaller cell by a thin cytoplasm strand, possibly indicating mixotrophic behavior. During the following summer (2002), the photosynthetic efficiency of D. acuminata collected from thermocline layers of few stations and from the nitracline (75–80 m) at one station was studied in photosynthesis irradiance (P–E) incubations. Photosynthetic activity occurred in all populations, with differences in their photosynthetic carbon uptake rates. Photosynthesis of D. acuminata populations was saturated between 250 and 500 μE m⁻² s⁻¹; maximum cell-specific carbon uptake rates (P_m) ranged from 160–925 pg C cell⁻¹ h⁻¹. The P_m-rates in populations originating below the thermocline and in an artificially darkened population were markedly lower than in populations from upper water layers. The varying maximum photosynthetic rates of these populations may reflect their history, e.g. time spent in different light environments.     

Effects of prostaglandins and arachidonic acid on baboon cerebral and mesenteric arteries

Effects of prostaglandins (PGs) E₁, E₂, F_2α and I₂ in a wide range of concentration were examined in mesenteric and cerebral arteries isolated from mature baboons. PGs E₁, E₂ and F_2α at low concentrations (10⁻¹⁰ to 10⁻⁷ M) elicited relaxation in helically cut strips of cerebral arteries precontracted with phenylephrine. In contrast, the PGs did not cause relaxation in the mesentric artery. PGI₂ (10⁻⁹ to 10⁻⁶ M) produced marked relaxation in both arteries. The EC₂₅ for PGI₂ in the mesenteric artery was significantly lower than that in the cerebral artery. During baseline conditions, cerebral arteries contracted in response to high concentrations (greater than 10⁻⁷ M) of PGs E₁, E₂ and F_2α. In mesentric arteries, a large contraction was induced by PGs F_2α and E₂ but not by PGE₁. Arachidonic acid (10⁻⁶ M) produced an aspirin-inhibitable relaxation in both arteries to a similar extent, so that the vasodilator PG(s) formed in the two different arterial walls appear to exert a similar relaxant action. Thus, the baboon mesenteric artery was more sensitive to PGI₂ for the relaxant effect than was the cerebral artery, while PGs F_2α, E₁ and E₂ caused only a contraction in the mesenteric artery but both relaxation and contraction in the cerebral artery.     

The effect of the nitric oxide donor sodium nitroprusside on glucose uptake in human primary skeletal muscle cells

Nitric oxide (NO) has been implicated as an important signaling molecule in the insulin-independent, contraction-mediated glucose uptake pathway and may represent a novel strategy for blood glucose control in patients with type 2 diabetes (T2DM). The current study sought to determine whether the NO donor, sodium nitroprusside (SNP) increases glucose uptake in primary human skeletal muscle cells (HSkMC) derived from both healthy individuals and patients with T2DM. Vastus lateralis muscle cell cultures were derived from seven males with T2DM (aged 54 ± 2 years, BMI 31.7 ± 1.2 kg/m², fasting plasma glucose 9.52 ± 0.80 mmol/L) and eight healthy individuals (aged 46 ± 2 years, BMI 27.1 ± 1.5 kg/m², fasting plasma glucose 4.69 ± 0.12 mmol/L). Cultures were treated with both therapeutic (0.2 and 2 μM) and supratherapeutic (3, 10 and 30 mM) concentrations of SNP. An additional NO donor S-nitroso-N-acetyl-d,l-penicillamine (SNAP) was also examined at a concentration of 50 μM. Glucose uptake was significantly increased following both 30 and 60 min incubations with the supratherapeutic SNP treatments (P = 0.03) but not the therapeutic SNP doses (P = 0.60) or SNAP (P = 0.54). There was no difference in the response between the healthy and T2DM cell lines with any treatment or dose. The current study demonstrates that glucose uptake is elevated by supratherapeutic, but not therapeutic doses of SNP in human primary skeletal muscle cells derived from both healthy volunteers and patients with T2D. These data confirm that nitric oxide donors have potential therapeutic utility to increase glucose uptake in humans, but that SNP only achieves this in supratherapeutic doses. Further study to delineate mechanisms and the therapeutic window is warranted.     

The in vitro effect of indomethacin on basal bone resorption, on prostaglandin production and on the response to added prostaglandins

Mouse calvaria were maintained in organ culture without serum additives. Basal active resorption, as measured by ⁴⁵Ca and hydroxyproline release, was significantly inhibited to 74% control levels by indomethacin (1.4 × 10⁻⁷ M). Prostaglandin F and prostaglandin E₂ production, determined by radioimmunoassay, were both significantly lowered by this concentration of indomethacin. DNA, protein and hydroxyproline synthesis, as indices of cell toxicity, were unaffected by low concentrations of indomethacin, while concentrations of 1.4 × 10⁻⁶M inhibited protein synthesis (p<0.005). In the presence of indomethacin (1.4 × 10⁻⁷M) both PGE₂ and PGF_2α stimulated resorption in a dose-dependent manner, with PGE₂ being the more potent. Neither prostaglandin affected hydroxyproline synthesis at low concentrations, but PGE₂ had a marked inhibitory action at a higher concentration (10⁻⁶M). In combination, the effects of PGE₂ and PGF_2α showed no evidence of synergism or any antagonistic action. The study shows that in vitro calcium and hydroxyproline resorption in the unstimulated mouse calvaria are inhibited by indomethacin at concentrations measured in serum during human therapy. The decreased PGF and PGE₂ production associated with this decreased bone resorption in the presence of non-toxic concentrations of indomethacin would suggest a role for these prostaglandins in maintaining the basal resorption of cultured bone.     

Ecophysiology of the marine cyanobacterium, Lyngbya majuscula (Oscillatoriaceae) in Moreton Bay, Australia

Large blooms of the marine cyanobacterium Lyngbya majuscula in Moreton Bay, Australia (27°05′S, 153°08′E) have been re-occurring for several years. A bloom was studied in Deception Bay (Northern Moreton Bay) in detail over the period January–March 2000. In situ data loggers and field sampling characterised various environmental parameters before and during the L. majuscula bloom. Various ecophysiological experiments were conducted on L. majuscula collected in the field and transported to the laboratory, including short-term (2 h) ¹⁴C incorporation rates and long-term (7 days) pulse amplitude modulated (PAM) fluorometry assessments of photosynthetic capacity. The effects of L. majuscula on various seagrasses in the bloom region were also assessed with repeated biomass sampling. The bloom commenced in January 2000 following usual December rainfall events, water temperatures in excess of 24 °C and high light conditions. This bloom expanded rapidly from 0 to a maximum extent of 8 km² over 55 days with an average biomass of 210 g_dw⁻¹ m⁻² in late February, followed by a rapid decline in early April. Seagrass biomass, especially Syringodium isoetifolium, was found to decline in areas of dense L. majuscula accumulation. Dissolved and total nutrient concentrations did not differ significantly (P > 0.05) preceding or during the bloom. However, water samples from creeks discharging into the study region indicated elevated concentrations of total iron (2.7–80.6 μM) and dissolved organic carbon (2.5–24.7 mg L⁻¹), associated with low pH values (3.8–6.7). ¹⁴C incorporation rates by L. majuscula were significantly (P < 0.05) elevated by additions of iron (5 μM Fe), an organic chelator, ethylenediaminetetra-acetic acid (5 μM EDTA) and phosphorus (5 μM PO₄⁻³). Photosynthetic capacity measured with PAM fluorometry was also stimulated by various nutrient additions, but not significantly (P > 0.05). These results suggest that the L. majuscula bloom may have been stimulated by bioavailable iron, perhaps complexed by dissolved organic carbon. The rapid bloom expansion observed may then have been sustained by additional inputs of nutrients (N and P) and iron through sediment efflux, stimulated by redox changes due to decomposing L. majuscula mats.     

Nitric oxide promotes in vitro organogenesis in <Emphasis Type="Italic">Linum usitatissimum</Emphasis> L.

The effects of nitric oxide (NO) on caulogenesis, shoot organogenesis and rhizogenesis from hypocotyl explants of Linum usitatissimum were investigated. Exogenously supplied NO donors, 5 μM sodium nitroprusside (SNP), 2 μM S-nitroso-N-acetylpenicillamine (SNAP) and 2 μM 3-morpholinosydnonimine (SIN-1), significantly promoted shoot differentiation from the hypocotyl explants of L. usitatissimum excised from its in vitro raised seedlings. Potassium ferrocyanide, a structural analogue of SNP, lacking NO group, did not promote shoot organogenesis. Likewise, products of NO, \textNO₂ ^- {\text{NO}}_{2}^{ - } and \textNO₃ ^- {\text{NO}}_{3}^{ - } supplied as 5 μM NaNO₂ and 5 μM NaNO₃ did not enhance shoot differentiation. Another source of NO, a mixture of sodium nitrite (SN) provided along with ascorbic acid (AsA), also caused significant promotion in the average number of shoots per responding explant. SNP also augmented the rhizogenic response of the microshoots in terms of percentage of responding explants, number of roots per responding explant and average root length. The NO scavengers, 2-(4-carboxy-phenyl)-4, 4, 5, 5-tetramethylimideazoline-1-oxyl-3-oxide (cPTIO) or methylene blue (MB), provided along with SNP, SNAP, SIN-1 or SN + AsA, at concentrations equimolar to the optimum concentration of the donors, reversed the promotory influence, thereby, confirming the role of NO in promotion of in vitro morphogenesis. However, NO scavengers individually did not affect the observed morphogenic processes. Morphological and histological studies of hypocotyl segments cultured on BM or BM + SNP for 4, 8 and 12 days demonstrated that SNP enhanced shoot differentiation by inducing a higher number of shoot primordia, each of which develops into a single shoot.     

Fatty acid transport and activation and the expression patterns of genes involved in fatty acid trafficking

These studies defined the expression patterns of genes involved in fatty acid transport, activation and trafficking using quantitative PCR (qPCR) and established the kinetic constants of fatty acid transport in an effort to define whether vectorial acylation represents a common mechanism in different cell types (3T3-L1 fibroblasts and adipocytes, Caco-2 and HepG2 cells and three endothelial cell lines (b-END3, HAEC, and HMEC)). As expected, fatty acid transport protein (FATP)1 and long-chain acyl CoA synthetase (Acsl)1 were the predominant isoforms expressed in adipocytes consistent with their roles in the transport and activation of exogenous fatty acids destined for storage in the form of triglycerides. In cells involved in fatty acid processing including Caco-2 (intestinal-like) and HepG2 (liver-like), FATP2 was the predominant isoform. The patterns of Acsl expression were distinct between these two cell types with Acsl3 and Acsl5 being predominant in Caco-2 cells and Acsl4 in HepG2 cells. In the endothelial lines, FATP1 and FATP4 were the most highly expressed isoforms; the expression patterns for the different Acsl isoforms were highly variable between the different endothelial cell lines. The transport of the fluorescent long-chain fatty acid C₁-BODIPY-C₁₂ in 3T3-L1 fibroblasts and 3T3-L1 adipocytes followed typical Michaelis–Menten kinetics; the apparent efficiency (k_cat/K_T) of this process increases over 2-fold (2.1 × 10⁶–4.5 × 10⁶ s⁻¹ M⁻¹) upon adipocyte differentiation. The V_max values for fatty acid transport in Caco-2 and HepG2 cells were essentially the same, yet the efficiency was 55% higher in Caco-2 cells (2.3 × 10⁶ s⁻¹ M⁻¹ versus 1.5 × 10⁶ s⁻¹ M⁻¹). The kinetic parameters for fatty acid transport in three endothelial cell types demonstrated they were the least efficient cell types for this process giving V_max values that were nearly 4-fold lower than those defined form 3T3-L1 adipocytes, Caco-2 cells and HepG2 cells. The same cells had reduced efficiency for fatty acid transport (ranging from 0.82 × 10⁶ s⁻¹ M⁻¹ to 1.35 × 10⁶ s⁻¹ M⁻¹).     

Growth and functional responses of different cultivars of Lotus corniculatus to aluminum and low pH stress

Aluminum toxicity is an important stress factor in acid soils. Growth, respiration and permeability properties of root cells were studied in five cultivars of Lotus corniculatus subjected to aluminum (Al) or low pH stress. The cultivars showed significant differences in root elongation under stress conditions, which correlated with changes in membrane potential (E_M) of root cortical cells. A pH drop from 5.5 to 4.0 resulted in significant membrane depolarization and root growth inhibition. The strongest inhibition was observed in cv. São Gabriel (33.6%) and least in cv. UFRGS (25.8%). Application of an extremely high Al concentration (2 mM) stopped the root growth in cv. INIA Draco, while inhibition in cv. UFRGS reached only 75%.The E_M values of cortical cells of Lotus roots varied between −115 and −144 mV. Treatment with 250 μM of AlCl₃ (pH 4) resulted in rapid membrane depolarization. The extent of the membrane depolarization ranged between 51 mV (cv. UFGRS) and 16 mV (cv. INIA Draco). The membrane depolarization was followed by a loss of K⁺ from Al-treated roots (2 mM Al) and resulted in a decrease of the diffusion potential (E_D). The total amount of K⁺ in Al-treated roots dropped from 31.4 to 16.8 μmol g⁻¹ FW in sensitive cv. INIA Draco, or from 26.1 to 22.7 μmol g⁻¹ FW in tolerant cv. UFGRS. The rate of root respiration under control conditions as well as under Al treatment was higher in cv. INIA Draco than in cv. UFRGS. Al-induced inhibition of root respiration was 21–34% of the control.     

Thyroid hormone: Aldosterone antagonism in cultured epithelial cells

Thyroid hormone (T₃) has been demonstrated to inhibit the action of aldosterone on sodium transport in toad urinary bladder and rat kidney. We have exammined the effect of T₃ on aldosterone action and specific nuclear binding in cultured epithelial cells derived from toad urinary bladder. In cell line TB6-C, addition of 5·10⁻⁸ M T₃ to culture media for up to 3 days results in no change in short-circuit current or transepithelial resistance. This concentration of T₃ completely inhibits the maximal increase in short-circuit current in response to 1·10⁻⁷ M aldosterone. The inhibition can be demonstrated with 18 h preincubation or with simultaneous addition of T₃ and aldosterone. The half-maximal concentration for the inhibition of the aldosterone effect is approx. 5·10⁻⁹ M T₃. T₃ has no effect on cyclic AMP-stimulated short-circuit current in these cells. The effect of T₃ on nuclear binding of [³H]aldosterone was examined using a filtration assay with data analysis by at least-squares curve-fitting program. Best fit was obtained with a model for two binding sites. The dissociation constants for the binding were K′_d1 = (0.82 ± 0.36)·10⁻¹⁰ M and K′_d2 = (3.2±0.60)·10⁻⁸ M.The half-maximal concentration for aldosterone-stimulated sodium transport in these cells is approx. 1·10⁻⁸ M. Analysis of nuclear aldosterone binding in cells preincubated for 18 h with 5·10⁻⁸ M T₃ showed a K′_d1 = (0.15 ± 0.10)·10⁻¹⁰ M and K′_d2 = (3.5 ± 0.10)·10⁻⁸ M. We conclude that T₃ i action of aldosterone on sodium transport at a site after receptor binding in the nucleus.     

V1 receptor in ENS mediates the excitatory effect of vasopressin on circular muscle strips of gastric body in vitro in rats

The purpose of this study was to localize vasopressin (VP) V_1a receptor in stomach and to characterize the role of VP in the regulation of gastric motility in rats. Double staining was used to locate the V_1a receptor in the gastric body of the rat. The contraction of the circular muscle strips of gastric body was monitored by a polygraph. V_1a receptor was expressed on the neurons of myenteric plexus of the gastric body. VP (10^− 10–10^− 6 M) caused a concentration-dependent contractile effect on the circular muscle strips of gastric body in vitro. V-1880 ([deamino-Pen¹, O-Me-Tyr², Arg⁸]-Vasopressin, 10^− 7 M), a V₁ receptor antagonist, inhibited the spontaneous contraction of the strips. Tetradotoxin (TTX, 10^− 6 M) and V-1880 (10^− 7 M) abolished the excitatory effect of VP. Atropine (10^− 6 M) partially inhibited VP-induced excitatory effect on the muscle strips but hexamethonium (10^− 4 M) did not influence it. These results suggest that V_1a receptor was expressed on the neurons of myenteric nerves. The cholinergic nerve was involved in the excitatory effect of VP on the contraction of gastric body.     

The effect of arachidonic acid and prostanoids on collagen dissolution in human uterine cervix in vitro

Explants of human non-pregnant cervix produce collagenolytic enxymes which degrade collagen over a 10 day period in culture. This is significantly enhanced by the presence of very low concentrations of arachidonic acid (10⁻¹⁶−10⁻¹¹M). Prostaglandin E₂, F_2α and 6-keto-F_1α were synthesised in declining amounts over the 10 day period and synthesis was not increased by adding arachidonic acid (10−11M). Meclofenamic acid (10⁻⁶M) and indomethacin (10⁻⁵M), but not tranylcypromine (10⁻⁵) suppressed prostaglandin synthesis yet all reduced collagen dissolution. Mepacrine (phospholipase A₂ inhibitor) also suppressed collagen dissolution. Remodelling of the structure of the cervix matrix may, in part, depend upon arachidonic acid or one of its cyclo-oxygenase or lipoxygenase derived products.     

Laccase-catalyzed oxidation of phenolic compounds in organic media

Rhus vernificera laccase-catalyzed oxidation of phenolic compounds, i.e., (+)-catechin, (−)-epicatechin and catechol, was carried out in selected organic solvents to search for the favorable reaction medium. The investigation on reaction parameters showed that optimal laccase activity was obtained in hexane at 30 °C, pH 7.75 for the oxidation of (+)-catechin as well as for (−)-epicatechin, and in toluene at 35 °C, pH 7.25 for the oxidation of catechol. E_a and Q₁₀ values of the biocatalysis in the reaction media of the larger log p solvents like isooctane and hexane were relatively higher than those in the reaction media of lower log p solvents like toluene and dichloromethane. Maximum laccase activity in the organic media was found with 6.5% of buffer as co-solvent. A wider range of 0–28 μg protein/ml in hexane than that of 0–16.7 μg protein/ml in aqueous medium was observed for the linear increasing conversion of (+)-catechin. The kinetic studies revealed that in the presence of isooctane, hexane, toluene and dichloromethane, the K_m values were 0.77, 0.97, 0.53 and 2.9 mmol/L for the substrate of (+)-catechin; 0.43, 0.34, 0.14 and 3.4 mmol/L for (−)-epicatechin; 2.9, 1.8, 0.61 and 1.1 mmol/L for catechol, respectively, while the corresponding V_max values were 2.1 × 10⁻², 2.3 × 10⁻², 0.65 × 10⁻² and 0.71 × 10⁻² δA/μg protein min); 1.8 × 10⁻², 0.88 × 10⁻², 0.19 × 10⁻² and 1.0 × 10⁻² δA/μg protein min); 0.48 × 10⁻², 0.59 × 10⁻², 0.67 × 10⁻² and 0.54 × 10⁻² δA/μg protein min), respectively. FT-IR indicated the formation of probable dimer from (+)-catechin in organic solvent. These results suggest that this laccase has higher catalytic oxidation capacity of phenolic compounds in suitable organic media and favorite oligomers could be obtained.     

Plasma nitrite response and arterial reactivity differentiate vascular health and performance

NO is crucial for endothelial function and vascular health. Plasma nitrite (NO₂⁻) is the main oxidation product of NO and has been shown to reflect changes in eNOS activity. We hypothesized that plasma NO₂⁻ response to physical exercise stress along with physiological endothelial function would be reduced with increasing severity of vascular disease. Subject groups were: (a) risk factors but no vascular disease (RF); (b) Type 2 diabetes with no vascular disease (DM); (c) diagnosed peripheral arterial disease (PAD); and (d) DM + PAD. Venous blood was drawn at rest and 10 min following maximal exercise. Plasma samples were analyzed by reductive chemiluminescence. Brachial diameters were imaged prior to, during and following 5 min of forearm occlusion (BAFMD). There were no differences in resting plasma NO₂⁻ or BA diameters between groups. The PAD groups had lower age adjusted BAFMD responses (p  0.05). Within group analysis revealed an increase in NO₂⁻ in the RF group (+39.3%), no change in the DM (−15.51%), and a decrease in the PAD (−44.20%) and PAD + DM (−39.95%). This was maintained after adjusting for age and VO_2peak (p  0.05). ΔNO₂⁻ and BAFMD were the strongest independent predictors of VO_2peak in multivariate linear regression. These findings suggest ΔNO₂⁻ discriminates severity of cardiovascular disease risk, is related to endothelial function and predicts exercise capacity.