Age-related increases of 8-hydroxy-2′-deoxyguanosine and DNA–protein crosslinks in mouse organs

Experimental data suggest a possible role of DNA damage in aging, mainly related to oxidative lesions. With the objective of evaluating DNA lesions as molecular biomarkers of aging, we measured 8-hydroxy-2′-deoxyguanosine (8-OH-dG) and DNA–protein crosslinks (DPXL) levels in different organs of mice aged 12 and 24 months. 8-OH-dG was detected by ³²P postlabelling after removing unmodified dG by trifluoracetic acid, which prevented the artificial formation of 8-OH-dG during ³²P labelling procedures. Appreciable 8-OH-dG amounts were detected in 12-month-old mice in liver (1.8±0.7 8-OH-dG/10⁵ normal nucleotides), brain (1.6±0.5) and heart (2.3±0.5). In 24-month-old mice these values were higher in all examined organs (liver, 2.7±0.4; brain, 3.6±1.1; heart, 6.8±2.2 8-OH-dG/10⁵ normal nucleotides). This accounted for a 1.5-fold increase in liver (not significant), 2.3-fold increase in brain (P<0.01), and 3.0-fold increase in heart (P<0.001). A similar trend was observed for DPXL levels, which were the 1.8±0.3%, 1.2±0.2%, and 2.2±0.3% of total DNA in liver, brain, and heart of 12-month-old mice and 1.9±0.4%, 2.0±0.4%, and 3.4±0.5% in 24-month-old mice, with ratios of 1.0, 1.7 (P<0.01), and 1.5 (P<0.001), respectively. Highly significant correlations between 8-OH-dG and DPXL levels were recorded in brain (r=0.619, P<0.001) and heart (r=0.800, P<0.0001), but not in liver (r=0.201, not significant). These data suggest that brain and heart are more severely affected by the monitored age-related DNA lesions than liver, which can be ascribed to certain characteristics of these postmitotic organs, including the low detoxifying capacities, the high oxygen consumption, and the impossibility to replace damaged cells by mitosis. The strong correlation between 8-OH-dG and DPXL supports a possible contribution of oxidative mechanisms to formation of DPXL in those organs, such as brain and heart, which play a primary role in the aging of the whole organism.     

Prednisolone enhances aminopeptidase turnover in adult rat small intestine

In adult male rats, fed prednisolone (0.75 mg/kg/day) for 7 days, brush border aminopeptidase activity was increased (P < 0.001) by 106% compared to pair-fed controls. [¹⁴C]Tyrosine was injected intraperitoneally 16 h and [³H]tyrosine 6 h before death. The ³H/¹⁴C ratio was 1.79 ± 0.21 (S.D.) in purified microvillus membranes from treated rats compared to 1.30 ± 0.16 (P < 0.01) in controls. Polyacrylamide gel electrophoresis of brush border membranes under denaturing conditions showed that the increased double-isotope ratio in membranes from treated rats was mainly in the high molecular weight protein subunits (> 80 kDa) Detergent-solubilized aminopeptidase was purified after in vivo labeling by protein A-Sepharose-antiaminopeptidase affinity chromatography. The ³H/¹⁴C ratio in aminopeptidase was 2.42 ± 0.15 (P < 0.05) in treated rats compared to 1.63 ± 0.13 in controls. Over the experimental period steady-state isotope reutilization and protein labeling was demonstrated and there was no isotope metabolism. Total microvillus membrane lipid content was unaffected by prednisolone. We conclude that prednisolone increases brush border aminopeptidase activity by increasing enzyme turnover. Other high molecular weight brush border proteins were similarly affected.     

Comparisons Between the Kinetic Behaviour of the Muscle Carnitine Palmitoyltransferase I of a Higher and Lower Vertebrate

The V_max of rat muscle mitochondrial CPT I toward the coenzyme A derivatives of 16:0, 16:1n-7, 18:1n-9, and 22:6n-3 were far lower than those recorded previously for this enzyme in rat liver at the same temperature (37°C). However, the V_max of 7.0 nmol · min⁻¹ · mg mitochondrial protein⁻¹ for linoleoyl CoA (18:2n-6), which was the greatest recorded for the five acyl CoAs examined in muscle, was similar to that in liver. These comparisons presumably reflect a difference in the essential fatty acid requirements of these two rat tissues. Although the V_max values for CPT I in the musculature of a lower vertebrate (larval lamprey) at 20°C were similar to those exhibited toward the coenzyme A derivatives of 16:0, 16:1n-7, 18:1n-9, and 22:6n-3 by the CPT I of rat musculature at 37°C, the corresponding V_max toward 18:2n-6 (3.2 nmol · min⁻¹ · mg mitochondrial protein⁻¹) was lower. The latter relatively low activity may spare from oxidation this essential fatty acid, which is in low abundance in the diet of larval lampreys. Although the V_max values toward the four nonessential fatty acids in larval lamprey muscle were similar to those in rat muscle, the corresponding K_0.5 values were lower, thus indicating that the musculature of larval lampreys has a high capacity for energy generation through β-oxidation.     

Both substrate availability and utilisation contribute to the defence of core temperature in response to acute cold

Acute cooling significantly increases energy demand in non-hibernators for the defence of core temperature but the contribution of the liver to thermogenesis is poorly understood. A two-tracer method to estimate lipid metabolism in cold-naïve control (CON) and cold-acclimated (CA) rats was employed to quantify hepatic rates of fat metabolism. Both fenofibrate, to increase liver mass and fat oxidation and dichloroacetate (DCA) to inhibit fat oxidation were used to alter lipid metabolism in CON animals. Following acute cooling, CA led to a doubling of the time to reach a core temperature 25 °C (P < 0.001), whereas DCA treatment decreased time of cooling (P < 0.01). DCA-treatment increased the gradient of Arrhenius-transformed rate–pressure product (P < 0.01). CA increased both palmitate uptake (P < 0.001) and β-oxidation (P < 0.01) whilst DCA treatment decreased uptake (P < 0.01) and β-oxidation (P < 0.05). Tissue-specific estimates of metabolism revealed that CA led to a 12-fold increase in β-oxidation for brown adipose tissue (P < 0.001) whilst fenofibrate halved β-oxidation in the liver (P < 0.01) despite doubling the liver mass (P < 0.001) and DCA decreased hepatic β-oxidation to 15% of control levels. Taken together, these results suggest that the liver has minimal contribution to thermogenesis in the rat, with brown adipose tissue significantly increasing both fat uptake and oxidation in response to CA.     

Influence of low plasma progesterone concentrations on the release of prostaglandin F2α during luteolysis and oestrus in heifers

A study was conducted to determine the effect of suprabasal plasma concentrations of progesterone on the release of prostaglandin F_2α (PGF_2α) at luteolysis and oestrus. Heifers received silicone implants containing 2.5 (n = 4), 5 (n = 4), 6 (n = 3), 7.5 (n = 3), 10 (n = 4), or 15 (n = 3) g of progesterone, or an empty implant (controls, n = 4) between Days 8 and 25 post ovulation. Blood was collected frequently between Days 14 and 28 and assayed for progesterone and 15-ketodihydroprostaglandin F_2α. Basal progesterone concentrations in control heifers did not differ from those in heifers with 2.5- or 5-g implants and remained around 0.4−0.5 nmol l⁻¹ until ovulation in all three groups. In the heifers treated with 6–15 g of progesterone, basal concentrations were maintained at higher (P < 0.05) levels compared with those in the controls, ranging from 0.8 to 1.6 nmol 1⁻¹. The effect of these elevated progesterone levels was to delay ovulation by prolonging the growth of the ovulatory follicle, which continued growing until the implant was removed. In all experimental groups, the first significant increase of the PGF_2α metabolite occurred between Days 15.3 and 16.3 (P > 0.05) and was associated with the onset of a decrease in progesterone concentrations, which had reached levels below 3 nmol 1⁻¹ by Days 17.4−19.1. PGF_2α metabolite peaks associated with luteolysis were frequent until Day 20. In the period from Day 20 until implant removal, sporadic peaks were observed, ranging in number from 1.0 ± 1.2 (mean ± SEM) in the control group to 3.0 ± 1.4 peaks in the heifers treated with 7.5 g of progesterone (P > 0.05). The number of PGF_2α metabolite peaks during that period was higher (P < 0.05) in heifers treated with 10 and 15 g than in controls. A positive correlation was found between the basal concentration of progesterone and the number of PGF_2α peaks after luteolysis (r = 0.54; P < 0.01). Plasma progesterone concentrations above approximately 1.4 nmol l⁻¹ were able to maintain the release of PGF_2α until the progesterone implants were removed and plasma levels decreased to basal values. These heifers had a preovulatory PGF_2α release pattern resembling that found in repeat breeder heifers.     

Lactate Up-Regulates the Expression of Lactate Oxidation Complex-Related Genes in Left Ventricular Cardiac Tissue of Rats

Background

Besides its role as a fuel source in intermediary metabolism, lactate has been considered a signaling molecule modulating lactate-sensitive genes involved in the regulation of skeletal muscle metabolism. Even though the flux of lactate is significantly high in the heart, its role on regulation of cardiac genes regulating lactate oxidation has not been clarified yet. We tested the hypothesis that lactate would increase cardiac levels of reactive oxygen species and up-regulate the expression of genes related to lactate oxidation complex.

Methods/Principal Findings

Isolated hearts from male adult Wistar rats were perfused with control, lactate or acetate (20mM) added Krebs-Henseleit solution during 120 min in modified Langendorff apparatus. Reactive oxygen species (O₂ ^●-/H₂O₂) levels, and NADH and NADPH oxidase activities (in enriched microsomal or plasmatic membranes, respectively) were evaluated by fluorimetry while SOD and catalase activities were evaluated by spectrophotometry. mRNA levels of lactate oxidation complex and energetic enzymes MCT1, MCT4, HK, LDH, PDH, CS, PGC1α and COXIV were quantified by real time RT-PCR. Mitochondrial DNA levels were also evaluated. Hemodynamic parameters were acquired during the experiment. The key findings of this work were that lactate elevated cardiac NADH oxidase activity but not NADPH activity. This response was associated with increased cardiac O₂ ^●-/H₂O₂ levels and up-regulation of MCT1, MCT4, LDH and PGC1α with no changes in HK, PDH, CS, COXIV mRNA levels and mitochondrial DNA levels. Lactate increased NRF-2 nuclear expression and SOD activity probably as counter-regulatory responses to increased O₂ ^●-/H₂O₂.

Conclusions

Our results provide evidence for lactate-induced up-regulation of lactate oxidation complex associated with increased NADH oxidase activity and cardiac O₂ ^●-/H₂O₂ driving to an anti-oxidant response. These results unveil lactate as an important signaling molecule regulating components of the lactate oxidation complex in cardiac muscle.     

Evaluation of genotoxic effects of Apitol (cymiazole hydrochloride) in vitro by measurement of sister chromatid exchange

Apitol^®, with cymiazole hydrochloride as the active ingredient, is used in bee-keeping against the ectoparasitic mite Varroa destructor. The preparation was evaluated for genotoxicity in cultured human peripheral blood lymphocytes. Sister chromatid exchange, the mitotic index and the cell proliferation index were determined for three experimental concentrations of Apitol^® (0.001, 0.01 and 0.1 mg/ml). All concentrations significantly (p < 0.001) increased the mitotic index (MI = 7.35 ± 0.18%, 8.31 ± 0.20% and 12.33 ± 0.25%, respectively), the proliferative index (PI = 1.83 ± 0.01, 1.84 ± 0.01 and 1.88 ± 0.02, respectively) and the frequency of sister chromatid exchange (SCE = 8.19 ± 1.81, 8.78 ± 1.80 and 13.46 ± 1.88, respectively), suggesting that cymiazole hydrochloride has genotoxic potential.     

Biochemical and microbiological properties of a cereal mix fermented with whey, wet wheat distillers’ grain or water at different temperatures

Microbiological and biochemical properties of three different liquid diets fermented at 10, 15 or 20 °C were studied. The liquid diets consisted of a cereal grain mix of wheat, barley and triticale, blended with whey (diet WH), wet wheat distillers’ grain (diet WDG) or water (diet WAT). The diets were fermented for 5 days without disturbance, followed by 14 days of daily feed replacements, where 4/5 of the contents were replaced with fresh feed mixtures. Starting pH values were 5.1, 3.9 and 6.3 in WH, WDG and WAT, respectively. For most diets, the pH decreased to approximately 4.0 by day 5. However, the WAT diet fermented at 10 °C required 7 days to reach a pH of 4.0. A higher (P<0.001) pH was seen in the WH diet fermented at 10 °C than in the other diets. Composition of the diets was determined during day 17–19 of fermentation to allow the microbial populations to stabilise and to reflect conditions in practice. Lactic acid bacteria (LAB) grew in all diets during fermentation and the growth was affected by temperature and type of diet (P<0.001), and the interaction between these two factors (P<0.001). The highest LAB counts were found at higher temperatures in the WAT and WH diets and the lowest counts were found in diet WDG. The highest levels of acetic, succinic and propionic acids were found in diet WDG (P<0.001). Lactic acid concentrations increased with temperature (P<0.001) and were highest in the WAT and WH diets. In vitro digestibility of organic matter was highest for diet WH and lowest for diet WDG (P<0.001). Inositol hexaphosphate-bound phosphorus (P) and total P in the cereal grain mix were 2.2 and 3.7 g kg⁻¹ dry matter, respectively. No inositol phosphate-bound P was found in any of the diets after fermentation. Some moulds, probably originating from spores in the cereal grain mix, were detected in the fermented diets, but total numbers did not increase with time. Enterobacteriaceae detected in diet WH, probably originated from the cereal grain mix and the whey. Yeasts were present in all diet ingredients. In conclusion, fermentation processes and biochemical properties differed greatly due to temperature, type of diet and the interaction of these two factors. Dietary inositol hexaphosphate was completely degraded in all fermented diets.     

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.     

Variation in δC values for the seagrass Thalassia testudinum and its relations to mangrove carbon

Carbon isotope ratios (¹³C/¹²C) were measured for the leaves of the seagrass Thalassia testudinum Banks ex König and carbonates of shells collected at the seagrass beds from seven sites along the coast of southern Florida, U.S.A. The δ¹³C values of seagrass leaves ranged from −7.3 to −16.3‰ among different study sites, with a significantly lower mean value for seagrass leaves from those sites near mangrove forests (−12.8 ± 1.1‰) than those far from mangrove forests (−8.3 ± 0.9‰; P < 0.05). Furthermore, seagrass leaves from a shallow water area had significantly lower δ¹³C values than those found in a deep water area (P < 0.01). There was no significant variation in δ¹³C values between young and mature leaves (P = 0.59) or between the tip and base of a leaf blade (P = 0.46). Carbonates of shells also showed a significantly lower mean δ¹³C value in the mangrove areas (−2.3 ± 0.6‰) than in the non-mangrove areas (0.6 ± 0.3‰; P <0.025). In addition, the δ¹³C values of seagrass leaves were significantly correlated with those of shell carbonates (δ¹³C seagrass leaf = −9.1 + 1.3δ¹³C shell carbonate (R² = 0.83, P < 0.01)). These results indicated that the input of carbon dioxide from the mineralization of mangrove detritus caused the variation in carbon isotope ratios of seagrass leaves among different sites in this study.     

Inhibitory effect of aluminium on calcium absorption in small intestine of rats with different thyroid hormone status

To analyse the influence of thyroid status on the effect of aluminium (Al) upon intestinal calcium (Ca) absorption, adult male Wistar rats with experimentally altered thyroid hormones circulating levels, were orally treated (o.g.) with 0 (control), or 50 mg elemental Al (as chloride)/kg body weight (b.w.) per day, for a 14 d period. Hyper- and hypo-thyroid conditions were respectively achieved by means of administration of either sodium levothyroxine (50 μg/kg b.w. per day, o.g.) or methimazole, a thyroxine synthesis inhibitor (1 mg/kg b.w. per day, o.g.). In duodenum–jejunum segments, in vitro mucosa-to-serosa ⁴⁵Ca flux (JCa_ms) and kinetics of ⁴⁵Ca uptake in isolated enterocytes, were determined. In serum, concentrations of thyroxine (T4) and triiodothyronine (T3) were measured by chemiluminescent enzyme immunoassay. Unlike non-Al-treated rats, JCa_ms of Al-exposed rats decreased as serum levels of T4 and T3 increased, showing a significant inverse correlation in both cases (T4: r² = 0.414, P = 0.024; T3: r² = 0.443, P = 0.018). Enterocytes isolated from rats treated with Al plus thyroxine showed a reduction of both maximum Ca uptake (4.86 ± 0.44 vs. 6.85 ± 1.04 nmol Ca/mg protein, P < 0.05) and K_m (0.84 ± 0.18 vs. 1.05 ± 0.36 mM, P < 0.05) when compared to control. The observed variability in the Al effect on Ca transport with thyroid status of rats could be reflecting a negative interaction of Al with thyroid hormone action mechanisms on intestinal Ca absorption, which would take place mainly at Ca entry into enterocyte from lumen.     

Effects of free amino acids on the isolated symbiotic algae of the coral Plesiastrea versipora (Lamarck): absence of a host release factor response

Symbiotic algae incubated in host tissue homogenate of the coral Plesiastrea versipora for 2 h in the light released at least four and a half times as much photosynthetically fixed carbon (range 13.8±3.1 to 158±9.5 nmol C/10⁶ algae) as algae incubated in seawater (range 1.4±0.3 to 10.8±0.6 nmol C/10⁶ algae) indicating the presence of ‘host release factor’. When algae were incubated in a low molecular weight fraction of homogenate containing partially purified ‘host release factor’ they also released more carbon (range 62.2±3.7 to 279±11.4 nmol C/10⁶ algae) than algae incubated in seawater. This low molecular weight fraction contained free amino acids. We tested the hypothesis that the free amino acids in this fraction were responsible for ‘host release factor’ activity. Algae incubated in a mixture of free amino acids equivalent to those found in this fraction, released more fixed carbon (range 2.4±0.3 to 25.2±0.2 nmol C/10⁶ algae) than algae incubated in seawater but in each experiment, release was much lower than when algae were incubated in host tissue homogenate. These data indicate that the stimulation of release of photosynthetically fixed carbon from the symbiotic algae of Plesiastrea versipora incubated in partially purified host release factor is not primarily due to the presence of free amino acids. We are continuing further studies to determine the exact nature of the active compound.     

Exercise and recovery metabolism in the pacific spiny dogfish (<Emphasis Type="Italic">Squalus acanthias</Emphasis>)

We examined the effects of exhaustive exercise and post-exercise recovery on white muscle substrate depletion and metabolite distribution between white muscle and blood plasma in the Pacific spiny dogfish, both in vivo and in an electrically stimulated perfused tail-trunk preparation. Measurements of arterial-venous lactate, total ammonia, -hydroxybutyrate, glucose, and l-alanine concentrations in the perfused tail-trunk assessed white muscle metabolite fluxes. Exhaustive exercise was fuelled primarily by creatine phosphate hydrolysis and glycolysis as indicated by 62, 71, and 85% decreases in ATP, creatine phosphate, and glycogen, respectively. White muscle lactate production during exercise caused a sustained increase (~12 h post-exercise) in plasma lactate load and a short-lived increase (~4 h post-exercise) in plasma metabolic acid load during recovery. Exhaustive exercise and recovery did not affect arterial PO₂, PCO₂, or PNH₃ but the metabolic acidosis caused a decrease in arterial HCO₃^– immediately after exercise and during the first 8 h recovery. During recovery, lactate was retained in the white muscle at higher concentrations than in the plasma despite increased lactate efflux from the muscle. Pyruvate dehydrogenase activity was very low in dogfish white muscle at rest and during recovery (0.53±0.15 nmol g wet tissue^–1 min^–1; n=40) indicating that lactate oxidation is not the major fate of lactate during post-exercise recovery. The lack of change in white muscle free-carnitine and variable changes in short-chain fatty acyl-carnitine suggest that dogfish white muscle does not rely on lipid oxidation to fuel exhaustive exercise or recovery. These findings support the notion that extrahepatic tissues cannot utilize fatty acids as an oxidative fuel. Furthermore, our data strongly suggest that ketone body oxidation is important in fuelling recovery metabolism in dogfish white muscle and at least 20% of the ATP required for recovery could be supplied by uptake and oxidation of -hydroxybutyrate from the plasma.Abbreviations CoA-SH free coenzyme A - CPT-1 carnitine palmitoyltransferase-1 - CrP creatine phosphate - H⁺_m metabolic proton load - Lac lactate load - PDH pyruvate dehydrogenase - PVP polyvinylpyrrolidone - SCFA-carnitine short-chain fatty acyl-carnitine - TAG triacylglycerol - TENS trancutaneous electrical nerve stimulator Communicated by: L.C.-H. Wang     

Fluorimetric determination of monobromobimane and o-phthalaldehyde adducts of γ-glutamylcysteine and glutathione: application to assay of γ-glutamylcysteinyl synthetase activity and glutathione concentration in liver

The reversed-phase HPLC separation of fluorescent o-phthalaldehyde (OPA) derivatives has been applied to the assay of hepatic γ-glutamylcysteine and glutathione (GSH) levels and the enzymes producing these peptides. The method has been compared to the assay using monobromobimane (MB) as the derivatizing agent. The OPA method has the advantage of faster derivitization, the lack of need to adjust the pH, isocratic separation and selectivity for GSH and γ-glutamylcysteine. The MB method requires pH adjustment following derivatization and gradient elution chromatography. MB is also non-selective, yielding fluorescent derivatives of all biological thiols and more interfering peaks on the chromatogram. MB-based analyses are also approximately sixty times more expensive per sample. MB yields fluorescent degradation products on exposure to light. OPA adducts are stable for up to ten days when stored at −20°C. OPA detection is sensitive to 12.5 pmol in the sample, at a signal-to-noise ratio of 2.5. The two methods correlate well. Hepatic γ-glutamylcysteine synthetase in the same liver preparation was found to be 4.85±0.47 nmol min⁻¹ mg⁻¹ protein by the OPA method and 4.42±0.52 nmol min⁻¹ mg⁻¹ protein by the MB method. GSH concentrations were found to be 90.4±6.5 nmol/mg protein for the OPA method and 92.5±3.4 for the MB method.     

NMR studies of glycerol permeability in lipid vesicles, erythrocytes and the alga Dunaliella

Glycerol diffusional permeabilities through the cytoplasmic cell membrane of Dunaliella salina, the cell envelope of pig erythrocyte and egg phosphattidylcholine vesicles were measured by NMR spectroscopy employing the spin-echo method and nuclear T₁ relaxation. The following permeability coefficients (P) and corresponding enthalpies of activation (ΔH^‡) were determined for glycerol at 25°C: for phosphatidylcholine vesicles 5·10⁻⁶ cm/s and 11±2 kcal/mol; for pig erythrocytes 7·10⁻⁸ cm/s and 18±3 kcal/mol, respectively; for the cytoplasmic membrane of D. salina the permeability at 17°C was found to be exceptionally low and only a lower limit (P<5·10⁻¹¹cm/s) could be calculated. At temperatures above 50°C a change in membrane permeability occurred leading to rapid leakage of glycerol accompanied by cell death. The data reinforce the notion that the cytoplasmic membrane of Dunaliella represents a genuine anomaly in its exceptional low permeability to glycerol.     

Efficacy of a remote-controlled, positive-reinforcement, dog-training system for modifying problem behaviors exhibited when people arrive at the door

This study was conducted to determine the efficacy of a multi-step, positive-reinforcement training protocol, involving a remote-controlled food reward dispenser, for treatment of excessive barking, jumping, and crowding of the door by dogs when people come to the door. In Experiment 1, we tested the multi-step protocol in a laboratory setting to determine whether the protocol is successful in a controlled environment when implemented by dog trainers. Six dogs with a history of problem behaviors at the door were trained to run to a platform with a rug on it, lie down and stay (“down-stay”) for 1 min while common household door distractions such as loud knocking, ringing doorbells, and running people were presented. The dog's ability to remain in a down-stay for 1 min with such distractions was measured before and after training. During training, the number of training trials required and the numbers of trials performed correctly and incorrectly were recorded for each dog. The results revealed that dogs remained in a down-stay with distractions significantly longer after training (60 ± 0.0 s) than before (5 ± 1.18 s) (P = 0.016). Dogs completed the training protocol in 8 d with only 8.4% incorrect trials, and in a similar number of trials with a coefficient of variation of 10.6%. These results indicated that this protocol was a good candidate for testing in a clinical setting, a home situation with owners doing the training. In Experiment 2, 15 dogs were trained by their owners to run to a rug or bed, lie down, and stay for 1 min while their owners answered the door. After training, barking decreased from 19.3 ± 4.62 barks/min to 2.1 ± 0.79 barks/min (P < 0.0001), jumping decreased from 8.2 ± 2.12 jumps/min to 0.02 ± 0.02 jumps/min (P < 0.0005) and time spent within 0.3 m of the door when visitors were outside decreased from 84.5% ± 4.23% to 0.0% ± 0.00% (P < 0.0001). Percent time spent in contact with the visitor when the visitor was inside decreased from 69.2% ± 4.19% to 0.18% ± 0.13% (P < 0.0001). Additionally, owner perception of their dog's behavior improved significantly (P < 0.0001). Six dogs that were not trained with the protocol showed no significant improvement (P = 0.344).     

Smoking-related DNA adducts in anal epithelium

Several studies have identified tobacco smoking as a risk factor for anal cancer in both women and men. Samples of anal epithelium from haemorrhoidectomy specimens from current smokers (n=20) and age-matched life-long non-smokers (n=16) were analysed for DNA adducts by the nuclease P₁ digestion enhancement procedure of ³²P-postlabelling analysis. The study included 14 men and 22 women. Both qualitative and quantitative differences in the adduct profiles were observed between the smokers and non-smokers. The mean adduct level was significantly higher in the smokers than in the non-smokers (1.88±0.71 (S.D.) versus 1.36±0.60 adducts per 10⁸ nucleotides, P=0.02, two-tailed unpaired t-test with Welch’s correction); furthermore, the adduct pattern seen in two-dimensional chromatograms revealed the smoking-related diagonal radioactive zone in 17/20 smokers, but not in any of the non-smokers (P<0.00001, Fisher’s exact test). These results indicate that components of tobacco smoke inflict genotoxic damage in the anal epithelium of smokers and provide a plausible mechanism for a causal association between smoking and anal cancer.     

Determination of three different pools of reduced one-carbon-substituted folates. III. Reversed-phase high-performance liquid chromatography of the azo dye derivatives of p-aminobenzoylpoly-γ-glutamates and its application to the study of unlabeled endogenous pteroylpolyglutamates of rat liver

A new reversed-phase high-performance liquid chromatographic (hplc) method is described for the separation and quantitation of picomole amounts of the azo dye derivatives of p-aminobenzoylpoly-γ-glutamates. In conjunction with our previously described procedures for the differential cleavage of one-carbon-substituted, reduced folates, this hplc method provides a rapid, sensitive, and reproducible approach to the quantitation and chain-length determination of three pools of unlabeled endogenous pteroylpolyglutamates. Analysis of rat liver (n = 9) yielded the following results ( ): total folates 14.5 ± 1.0 nmol/g; folates of pool 1 (5,10-methylenetetrahydro- and unsubstituted tetra- and dihydrofolates) 2.65 ± 0.74 nmol/g; folates of pool 2 (5-methyltetrahydrofolates) 5.30 ± 0.36 nmol/g; and folates of pool 3 (5,10-methenyltetrahydro-, 10-formyltetrahydro-, 5-formyltetrahydro-, and 5-formiminotetrahydrofolates) 6.40 ± 1.60 nmol/g. Most of the folates of rat liver occur as penta- (7.60 ± 0.69 nmol/g) and hexaglutamates (6.00 ± 0.29 nmol/g). In pool 3 the hexaglutamates predominate. We also report experiments showing that folate patterns based on the amount of radioactive label incorporated after a pulse dose of [³H]folic acid differ at all times from the true steady-state pattern of unlabeled endogenous folates.     

Application of high-performance liquid chromatography of plasma fatty acids as their phenacyl esters to evaluate splanchnic and renal fatty acid balance in vivo

Plasma fatty acids from renal and hepatic veins, and arterialized hand vein obtained in 20 subjects before and after insulin infusion were separated by reversed-phase high-performance liquid chromatography following phenacyl esterification. Separation and quantification over the range 1.0–100 nmol per injection of nine fatty acids was achieved within 60 min using [²H₃₁]palmitic acid as internal standard. Analytical recoveries were greater than 90% and the intra- and inter-assay coefficients of variation were less than 2.5 and 4.0%, respectively. Following insulin infusion, net splanchnic uptake of total fatty acids decreased from 3.0±0.3 to 1.0±0.1 μmol/kg min (p<0.01), whereas net renal balance remained neutral (−0.04±0.04 vs. −0.06±0.03 μmol/kg min, p=N.S.). Individual fatty acid balance varied from a low of 0.012±0.005 (myristic acid) to a high of 0.95±0.08 (oleic acid) μmol/kg min across the splanchnic tissues and from 0.005±0.002 (stearic acid) to 0.21±0.1 (oleic acid) μmol/kg min across the kidney. There is a substantial diversity in changes in plasma concentration and regional balance of individual fatty acid during short-term fasting and hyperinsulinemia. This method is simple, accurate, and can be applied to assess individual fatty acid metabolism in vivo.     

Interaction of the autonomic nervous system with intrinsic cardiac rate regulation in the guinea-pig, Cavia porcellus

In the denervated mammalian heart a change in right atrial pressure will still alter heart rate (intrinsic rate response, IRR). We have examined the IRR in isolated right atria of the guinea-pig maintained in oxygenated Krebs–Henseleit solution at 37°C, to compare with and extend studies in other species, and to determine whether the guinea-pig is a suitable model for electrophysiological studies of the IRR. Baseline diastolic transmural pressure was set at 2 mmHg. A 6-mmHg increase in right atrial pressure (RAP) caused an increase in atrial rate that reached a steady value of 15 min⁻¹ after 1–2 min. This response was enhanced by carbamylcholine and attenuated by isoprenaline. The influence of RAP on the rate response to vagal stimulation was examined. With RAP set at 8 mmHg, the reduction in atrial rate following vagal stimulation was 72±5% of that at 2 mmHg (n=6, mean±S.E., P<0.005). Continuous vagal stimulation produced a sustained bradycardia, and the effect of this bradycardia on the IRR was examined. When atrial rate was reduced 6% by vagal stimulation, the IRR was augmented to 202±21% of the control (n=6, P<0.005). This augmentation was larger (P<0.05) than that seen when atrial rate was reduced 8% by carbamylcholine (130±8% of control; n=7, P<0.05). Overall, the IRR in the guinea-pig is similar to that in the rabbit, and shows similar interactions with the autonomic nervous system.