Cardiovascular activities of intravenous methionine-enkephalin-Arg6-Phe7 and methionine-enkephalin-Arg6-Gly7-Leu8 in the conscious dog

The preproenkephalin A molecule from the adrenal medulla contains the opioid peptides methionine-enkephalin (Met-ENK), leucine-enkephalin (Leu-ENK), methionine-enkephalin-Arg6-Phe7 (heptapeptide), and methionine-enkephalin-Arg6-Gly7-Leu8 (octapeptide). In the conscious, chronically instrumented dog, Met-ENK and Leu-ENK simultaneously increase heart rate and systemic arterial pressure following intravenous administration. In 19 of 23 dogs, heptapeptide produced a response identical to Met-ENK and Leu-ENK, which was inhibited by naloxone but unaffected by the dipeptidyl carboxypeptidase inhibitor SQ20881. However, in four dogs, heptapeptide produced only a fall in systemic pressure associated with an increase in heart rate despite characteristic Met-ENK responses in the same dogs; naloxone did not appear to alter this hypotensive response. Octapeptide produced slight increases in systemic pressure and heart rate. These data suggest that heptapeptide may possess intrinsic cardiovascular activity at opiate receptors; however, in certain dogs, non-opiate mechanisms, perhaps histamine release, may predominate.     

RADIOIMMUNOASSAY OF METHIONINE-AND LEUCINE-ENKEPHALINS IN REGIONS OF RAT BRAIN AND COMPARISON WITH ENDORPHINS ESTIMATED BY A RADIORECEPTOR ASSAY

Abstract— Radioimmunoassays (RIAs) selective for methionine-enkephalin (Met-ENK) and leucineenkephalin (Leu-ENK) have been developed using competition towards binding of 10 pM ¹²⁵I-enkephalins to antibodies raised in rabbits against ENKs coupled to ovalbumin with carbodiimide. The high sensitivity of the RIAs (IC₅₀ 0.57 n m and 0.55 n m for Met- and Leu-ENK, respectively) allowed estimation of the enkephalin content in extracts of all rat brain regions. Regional levels are compared with those determined on the same extracts by a radioreceptor assay (RRA) using competition towards binding of 5 n m [³H]Leu-ENK to rat striatal membranes. Optimal conditions for killing the animals and extracting the endorphins have been carefully investigated: killing by rapid microwave irradiation was not found necessary as long as brain regions were homogenized into 0.1 n -HCl before deproteinization.
Marked differences both in total endorphins (RRA) and ENKs (RIA) between regions are observed with similar ranking of the various regions: highest levels are found in striatum and hypothalamus and lowest in cerebellum and hippocampus. In each region the total ENK levels (RIA) represent only 2–13% of the total endorphins (RRA) suggesting the presence of large amounts of endorphins other than the ENKs.     

Multiple Factors Influencing the In Vitro Release of [Met5]-Enkephalin from Rat Hypothalamic Slices

This study examined several in vivo and in vitro factors which influence the release of [Met5]-enkephalin (Met-ENK) from male rat hypothalamic slices superfused in vitro. Met-ENK release was significantly stimulated by corticotropin-releasing hormone (CRH; 10(-12)-10(-8) M), an effect which was abolished in the presence of the CRH-receptor antagonist, alpha-helical CRF9-41 (10(-6) M). The amount of Met-ENK release diminished with time in experiments in which the slices were continuously exposed to CRH. The opioid receptor antagonist naloxone (10(-6) M) stimulated Met-ENK release, even in the presence of the Na+ -channel blocker tetrodotoxin (10(-6) M), a result indicating presynaptic opioid feedback inhibition of Met-ENK release. The role of gonadal steroids in the control of Met-ENK release in vitro was also examined. It was found that the basal and CRH-induced release of Met-ENK was not changed 1 week after castration. However, a significant increase in the basal release of this peptide was observed 4 weeks after gonadectomy, and the Met-ENK-releasing efficacy of CRH was found to be reduced. The Met-ENK content of hypothalami from 1-week castrates was not significantly changed from control levels, but was significantly reduced in those from 4-week castrates. These long-term effects of castration could be overcome by the subcutaneous implantation of testosterone-containing capsules at the time of castration.     

Distribution patterns and coexistence of neurohormonal peptides (ANP,BNP, NPY,SP, CGRP,enkephalins) in chromaffin cells and nerve fibers of the anuran adrenal organ

Summary Immunohistochemical techniques were used to study the adrenal organs of the anuran species Rana esculenta, Caldula pulchra and Bufo marinus with respect to the distribution and coexistence of atrial natriuretic peptide (ANP), brain natriuretic peptide (BNP), substance P (SP), calcitonin gene-related peptide (CGRP), neuropeptide Y (NPY), Leu-enkephalin (Leu-ENK). Met-enkephalin-Arg-Phe (MEAP) and dynorphin A 1–17 (DYN). Antisera against enzymes involved in catecholamine synthesis, i.e., dopamine--hydroxylase (DBH) and tyrosine hydroxylase (TH), were used for the identification of chromaffin cells. ANP-immunoreactive (-IR) cells occurred in high densities (30%–70% of the total cell population) in all species investigated. In C. pulchra and B. marinus, BNP-IR cells constituted a population of non-DBH-IR and non-TH-IR cells that were different from the ANP-IR cells. A large proportion of the adrenal cells (10%–55%) were immunoreactive to Leu-ENK, and a minority (2%–5%) showed MEAP-immunoreactivity. DYN-immunoreactivity was not observed. The anurans studied exhibited small numbers of SP-IR, CGRP-IR and NPY-IR cells. Immunoreactivities for ANP+Leu-ENK and Leu-ENK+ MEAP were shown to coexist. In C. pulchra and B. marinus, immunoreactions for ANP+NPY, ANP+SP and SP+CGRP were also colocalized. Except for DYN, all neurohormonal peptides also occurred in intra-adrenal nerve fibers. SP-IR fibers also displayed CGRP-immunoreactivity and some Leu-ENK-IR fibers contained MEAP-immunoreactivity. In C. pulchra, NPY-IR fibers were found that also showed ANP-immunoreactivity.Some results of this investigation have been presented in abstract form (Reinecke et al. 1991).     

Different patterns of expression of five neuropeptides in the adrenal gland and kidney of two species of frog

The aim of this study was to demonstrate in the adrenocortical and renal tissues of two species of frog, Rana italica and Rana esculenta, the presence and distribution of five neuropeptides: atrial natriuretic peptide (ANP), Leu-enkephalin (Leu-ENK), neuropeptide Y (NPY), substance P (SP) and vasoactive intestinal peptide (VIP).In anurans, the adrenal medulla is the site for the synthesis, storage and secretion of not only catecholamines but also various peptides. These peptides should not be regarded only as neurotransmitters or modulators for the secretion of catecholamines, but also as hormonal substances that induce systemic effects.All the peptides studied (ANP, Leu-ENK, NPY, SP and VIP) are present in both organs. However, different patterns of expression were observed for some of the peptides in two frogs.Immunopositivity to ANP was found in small clusters of chromaffin cells in both frogs whereas a clear strong positivity was present only in Rana esculenta kidney. Large clusters of chromaffin cells were immunoreactive to Leu-ENK in Rana italica but there were approximately 25% fewer compared to the positive cells present in Rana esculenta. Epithelial cells of renal tubules showed strong immunopositivity to Leu-ENK in Rana esculenta but not in Rana italica. A large number of adrenal cells (70–80%) were immunoreactive to NPY in Rana italica, while in Rana esculenta this peptide was localized in small clusters of chromaffin cells. Both frogs showed many NPY-positive cells in kidney. Many chromaffin cells were found positive to SP and VIP. A strong positivity was also observed in kidney in both frogs. These observations suggest a possible role of these peptides in the control of the physiological functions of adrenal glands and kidney of the two species of frogs studied.     

Influence of training on sleeping heart rate following daytime exercise

The purpose of this investigation was to examine the influence of daytime exercise on heart rate during sleep. Nine, untrained male college students volunteered to participate. They cycled at 75% maximum oxygen uptake, ( O_2max) 30 min·day^–1 for 12 weeks. The exercise duration was increased by 5 min every 4 weeks from 30 to 40 min per session. Post-training O_2max[mean (SE): 48.9 (1.7) ml · kg^–1 · min^–1] values were significantly (P<0.01) higher than pre-training [45.5 (1.8) ml-kg^–1·min^–1] values. Before and after training, sleeping heart rate was assessed on two separate nights. Data were obtained during a night following 30 min of daytime cycling at 75 (6) % O_2maxand on a night in which no daytime exercise was performed. A three-way repeated measures ANOVA [training status (pre-/post-training) × activity (exercise day/nonexercise day) × sleep time (18 epochs of 20 min each)] revealed a significant main effect for sleep time (P < 0.001) as well as a sleep time × training status interaction (P<0.02). No significant difference in sleeping heart rate was noted when exercise and non-exercise days were compared both before and after training. It is concluded that endurance training in these young adult men: (1) hastens the achievement of baseline heart rate during sleep, and (2) does not moderate the relationship between an acute bout of daytime exercise and sleeping heart rate.     

The effect of elevated temperatures and their duration on the incidence of hollow heart in pea seeds

Plants of Pisum sativum cv. Pania were exposed to high temperature (35 ^oC day/25 ^oC night) at three stages in development. These were: (i) at process crop maturity, when the seed moisture content (m.c.) was 80%, i.e. about 10 days prior to pod wrinkle, (ii) at a seed m.c. of 70 to 80%, about the onset of pod wrinkle, and (iii) when the seed m.c. was 50 to 60%, 10 days after the onset of pod wrinkle. At each stage of development the high temperature treatment was imposed for 2,4,6, 8 or 10 days. Plants exposed to high temperature at seed m.c. of 70 to 80% produced seed with the highest incidence of hollow heart and at all stages of development the incidence increased with the length of exposure to the high temperature. Where plants at the development stage of pod wrinkle (seed m.c. 70–80%) were exposed to a range of temperature regimes for 5 days, over 20% of the seeds had hollow heart when the mean day/night temperature was 25 ^oC. Above a mean temperature of 25 ^oC, the percentage of affected seed increased with increasing day or night temperature. Over 80% of the seeds had hollow heart symptoms after 5 days exposure to a daily mean temperature of 32-5 ^oC. The severity of symptom development was not related to the proportion of seeds with the disorder and, under laboratory conditions, seed germination was not affected.     

Effect of gibberellins and the growth retardant CCC on the nodulation of soya

Summary The effect of exogenous applications of gibberellins (GAs) or the growth retardant -chloroethyltrimethylammonium chloride (CCC) on root nodule formation and activity (C₂H₂-reduction) in soya was studied. Daily foliar application of GA₃ (2.89×10^–6 M) delayed the formation of nodule initials and reduced the numbers mass nodule^–1 and specific activity of nodules by 43%, 31% and 47% respectively, without affecting plant growth. Similar effects on nodulation were produced by foliar application of GA₄ (3.01×10^–5 M) or GA₇ (3.03×10^–5 M), or by the addition of GA₃ (2.89×10^–6 M) to the rooting medium. GA effectiveness in reducing nodule numbers was decreased by delaying its application until after the initial infection process had occurred, but the nodules formed were smaller and less active than those of the untreated control plants. The GA effect on nodulation and nodule activity was not associated with alterations in root exudate or due to a direct inhibitory effect of the hormone on the nitrogenase system. When the endogenous root content of GA-like substances was reduced (86% decrease) by foliar application of CCC (6.30×10^–5 M), nodule numbers were increased by 56%, but nodule size and total nodule activity were similar to those of control plants. The GA and CCC treatments had no effect on rhizobial growth in liquid culture nor on root colonisation by rhizobia.The results suggest that the endogenous content of root GA may have a regulatory role in both the infection process and in subsequent nodule morphogenesis, thus controlling both the number and effectiveness of the root nodules formed.     

Exogenous sphingosine enters Xenopus laevis embryos grown in petri dishes and it is metabolized

Xenopus embryos of different developmental stages were exposed to 0.1 M [1-³H]sphingosine. Labeled sphingosine was quickly absorbed by Xenopus embryos. The amount of radioactivity absorbed increased with embryo age and appeared to be linearly correlated (R=0.97) to the embryo surface area. About 45% of the total radioactivity associated to the embryos was found in the skin, 22% in the intestine, 15% in the heart, 12% in the liver and 6% in the brain.A portion of [1-³H]sphingosine entered very rapidly the biosynthetic pathway of sphingolipids; after 30 min of incubation, in fact, only a small amount of free radioactive sphingosine could be detected. Sphingomyelin was the main radioactive sphingolipid synthesized; radioactive ceramide, galactosylceramide and lactosylceramide could also be recognized and quantified. On the contrary, the amount of radioactive gangliosides was hardly detectable.A portion of [1-³H]sphinogosine absorbed by Xenopus embryos (30 to 60% depending on the developmental stage) entered the catabolic pathway producing radioactive phosphoethanolamine that was recycled for the biosynthesis of radioactive phosphatidylethanolamine. This phospholipid was produced mainly in the intestine and in the skin, while sphingomyelin was the main radioactive lipid in the heart, liver and brain.     

Operation of the Permeability Transition Pore in Rat Heart Mitochondria in Aging

The functioning of the mitochondrial permeability transition pore (mPTP) is involved in the mechanism of programmed cell death and mitochondrial dysfunction observed with aging. In this work, the functional state of heart mitochondria isolated from young (mature and 2–3-month-old) and old (20–22-month-old) rats under conditions of mPTP opening was studied. In the mitochondria of old rats, the rates of Ca²⁺ and TPP⁺ absorption decreased by 40 and 42%, respectively, the threshold concentration of Ca²⁺ decreased by 20%, and the swelling rate of mitochondria from old animals was by 40% higher than that of mitochondria from young ones. In the heart mitochondria of old animals, the content and production of reactive oxygen species (ROS) varied, the superoxide anion content was increased, and the level of hydroperoxide (H₂O₂) increased at a threshold calcium concentration. Electron microscopy revealed a decrease in the number of cristae in mitochondria of the rat heart during aging. To study the potential role of proteins modulating the mPTP functioning, the content of 2',3'-cyclonucleotide-3'-phosphodiesterase (CNPase) and translocator protein (TSPO) in the heart mitochondria of rats of different ages was measured. A significant age-related decrease in the level of CNPase and an increase in the amount of TSPO were detected. The role of these proteins in mitochondrial dysfunction observed during aging is discussed.     

Myocardial Na+/H+ exchanger-1 (NHE1) content is decreased by exercise training

The effect of exercise training on myocardial Na⁺/H⁺ exchanger-1 (NHE1) protein expression was examined. Adult female Sprague–Dawley rats were randomly divided into sedentary (S; n?=?8) and exercised (E; n?=?9) groups. Twenty-four hours after the last exercise bout, hearts were weighed and connected to an isolated perfused working heart apparatus for evaluation of cardiac functional performance. Heart weight and heart weight/body weight from E rats was significantly increased by 7.1 and 7.2 % (P?<?0.05), respectively, compared with S hearts. The E hearts displayed 15 % greater cardiac output and 35 % external cardiac work compared with the S group at both low and high workloads (P?<?0.05 for both parameters). Left ventricular tissue from the same hearts was homogenized and NHE1 and Na⁺/Ca²⁺ exchanger (NCX) content determined by Western blotting. E hearts had a 38 % (P?<?0.001) reduction in NHE1 content related to S hearts, and there was no difference in NCX content between groups. Cytochrome c oxidase activity in plantaris increased by 100 % (P?<?0.05) and was assessed as a marker of mitochondria content and to verify training status. Our data indicate that exercise training at an intensity that results in cardiac hypertrophy and improved performance is accompanied by decreased NHE1 content in heart.     

Bioelectrical activity in the heart of the lugworm Arenicola marina

Standard microelectrode technique was used to study electrical activity of the isolated heart of the polychaete annelid, Arenicola marina. Typical pacemaker activity with slow diastolic depolarization was observed in all recordings. The average maximum diastolic potential (−58.4 ± 3.2 mV), the average amplitude of the action potential (28.7 ± 4.7 mV) and the average total duration of the action potential (2,434 ± 430 ms) were determined. There has been no gradient of automaticity observed in our studies, which suggests that all regions of the Arenicola heart could possess pacemaker functions. Acetylcholine (ACh) produced a concentration dependent (5 × 10⁻⁸–5 × 10⁻⁵ M) increase of the beating rate via increase in the rate of the diastolic depolarization. ACh (5 × 10⁻⁵ M) increased beating rate by 2.5-fold compared to the control rate. A stronger action of ACh resulted in depolarization, block of action potential generation and contracture of the heart. The non-hydrolysable ACh analog carbacholine (10⁻⁸–10⁻⁶ M) produced similar effects. All effects of ACh and carbacholine were abolished by 5 × 10⁻⁶ M atropine. d-Tubocurarine (5 × 10⁻⁵ M) did not significantly alter effects of ACh or carbacholine. Epinephrine (10⁻⁸–10⁻⁶ M) caused the slowing of pacemaker activity and marked decrease of action potential duration. 10⁻⁶ M epinephrine produced complete cardiac arrest. The effects of epinephrine were not significantly altered by the β-blocker propranolol (5 × 10⁻⁶ M). The β-agonist isoproterenol (10⁻⁷–10⁻⁵ M) and the α-agonist xylometazoline (10⁻⁶–10⁻⁵ M) did not produce significant effects. Thus, cholinergic effects in the Arenicola heart are likely to be mediated via muscarinic receptors, while the nature of adrenergic effects needs further investigation.     

Ontogenesis of enkephalinergic systems in rat brain: Post-natal changes in enkephalin levels,receptors and degrading enzyme activities

The post-natal changes in enkephalin (ENK) levels, ENK receptor density and ENK degrading enzyme activities have been established in cerebral cortex and striatum. Met- and Leu-ENK levels both increase by 7- to 11-fold, but in an independent manner compatible with their presence in distinct neuronal systems. ³H-ENK binding sites increase only 4-fold in striatum, as reported for receptor sites labeled with ³H-opiate antagonists.The development of striatal “enkephalinase” i.e. of the particulate enzyme activity cleaving the Gly-Phe bond of ENKs is more of less parallel in time-course to that of ENK levels and receptors, with a 6-fold increase from birth. In contrast total ENK hydrolysing activity shows little change. The developmental pattern of angiotensin-converting enzyme (ACE) is clearly distinct from that of “enkephalinase”, thus confirming that the two enzymes are different species.     

Oxygen requirements,morphology, cell coat and membrane permeability of calcium-tolerant myocytes from hearts of adult rats

Summary The morphological, functional, and biochemical properties of freshly isolated heart muscle cells were examined. A reproducible method for the separation and purification of such cells isolated from adult rat heart was developed. It yields an average of 5×10⁶ striated rectangular cells which retain normal morphology (range) 2.5 to 11×10⁶ and 4×10⁶ calcium-tolerant cells (range) 2.5 to 5.5×10⁶ per heart. After purification, 85 to 95% of the cells retain normal morphology in solutions of calcium ion activity equal to 10M, and 65 to 79% of the cells are rectangular in solutions of calcium ion activity equal to 1 mM.Under the light microscope we were able to identify functionally intact individual cells that are calcium-tolerant and contract only in response to electrical stimulation, as well as dying myocytes that beat spontaneously. The examination of such cells under the electron microscope permitted us to address the question: What is the sequence of structural changes in a dying cell? The sarcomere lengths measured both in the living state and after preparation for electron microscopy are in the physiological range. In steady states of oxygen tension, respiration of the intact cells is undiminished from 50 torr to 2 torr. The oxygen tension for half maximal respiration is 0.15 torr. Therefore, the limitation of oxygen diffusion to the mitochondria of isolated heart muscle cells must be remarkably small.This work was supported in part by NIH HL 19299 (BAW), and NIH HL 24336 and N.Y. Heart Grant in Aid (TFR.)Dr. Thomas F. Robinson is the recipient of NIH, Research Career Development Award HL 00568     

Use of single heart cells from chick embryos for the Na+ current measurements

To record the fast Na⁺ current, spheroidal heart cells enzymatically-dispersed from 3 18-day-old chick embryos were used for voltage clamping. The peak of currents in response to voltage steps of 200 ms long from holding potentials of -90 -105 mV were measured. The current-voltage curves for the peak inward current showed U-shaped relations; the averaged peak current of about -1400 pA was observed at about -30 mV and the current reversed sign at +40 + 50 mV. Both the peak current and the reversal potential values showed marked [Na]_o- dependence, i.e. reduced by 36% and by 20 mV, respectively, for a halved [Na]_o. Tetrodotoxin (TTX) partially (10^-6 M) or completely (10^-5 M) suppressed the current. The steady-state inactivation of the current (h) was characterized by the half inactivation voltage of around -80 mV and the slope factor of -4 -8 mV. The half activation voltage and the slope factor for the steady-state activation (m) were -55 mV and 4-6 mV, respectively. The electrophysiological and pharmacological properties were similar between young (3-day-old) and old (15-18-day-old) embryonic heart cells, excepting the much smaller current and the slower onset of TTX action in young embryonic hearts.     

Characteristics of insulin receptors in the heart muscle Binding of insulin to isolated muscle cells from adult rat heart

Adult rat heart muscle cells obtained by perfusion of the heart with collagenase have been used to characterize the insulin receptors by equilibrium binding and kinetic measurements. Binding of ¹²⁵I-labelled insulin to heart cells exhibited a high degree of specificity; it was dependent on pH and temperature, binding at steady increased with decreasing temperatures. About 70% of the radioactivity bound at equilibrium at 25°C could be dissociated by addition of an excess of unlabelled insulin. 54 and 40% of ¹²⁵I-labelled insulin was degraded by isolated heart cells after 2 h at 37°C and 4 h at 25°C, respectively. This degrading activity was effectively inhibited by high concentration of albumin.Equilibrium binding studies were conducted at 25°C using insulin concentrations ranging from 2.5 · 10^?11 mol/l to 10^?6 mol/l. Scatchard analysis of the binding data resulted in a curvilinear plot (concave upward), which was further analyzed using the average affinity profile. The empty site affinity constant was calculated to be 9.5 · 10⁷ l/mol with a total receptor concentration of 3.4 · 10⁶ sites per cell.The presence of site-site interactions of the negative cooperative type among the insulin receptors has been confirmed by kinetic experiments. The rate of dilution induced dissociation was enhanced in the presence of native insulin (5 · 10^?9 mol/l), both, under conditions of low and high fractional saturation of receptors.     

Effects of Cationic Polyacrylamide Characteristics on Sewage Sludge Dewatering and Moisture Evaporation

The effects of the molecular weight (MW) and charge density (CD) of cationic polyacrylamide (CPAM) on sludge dewatering and moisture evaporation were investigated in this study. Results indicated that in sludge conditioning, the optimum dosages were 10, 6, 6, 4, and 4 mg g⁻¹ CPAM with 5 million MW and 20% CD, 5 million MW and 40% CD, 3 million MW and 40% CD, 8 million MW and 40% CD, and 5 million MW and 60% CD, respectively. The optimum dosage of CPAM was negatively correlated with its CD or MW if the CD or MW of CPAM was above 20% or 5 million. In the centrifugal dewatering of sludge, the moisture content in the conditioned sludge gradually decreased with the extension of centrifugation time, and the economical centrifugal force was 400×g. The moisture evaporation rates of the conditioned sludge were closely related to sludge dewaterability, which was in turn significantly correlated either positively with the solid content of sludge particles that were >2 mm in size or negatively with that of particles measuring 1 mm to 2 mm in diameter. During treatment, sludge moisture content was reduced from 80% to 20% by evaporation, and the moisture evaporation rates were 1.35, 1.49, 1.62, and 2.24 times faster in the sludge conditioned using 4 mg g⁻¹ CPAM with 5 million MW and 60% CD than in the sludge conditioned using 4 mg g⁻¹ CPAM with 8 million MW and 40% CD, 6 mg g⁻¹ CPAM with 5 million MW and 40% CD, 6 mg g⁻¹ CPAM with 3 million MW and 40% CD, and 10 mg g⁻¹ CPAM with 5 million MW and 20% CD, respectively. Hence, the CPAM with 5 million MW and 60% CD was ideal for sludge dewatering.     

The role of phospholipase A2 in calcium-induced damage in cardiac and skeletal muscle

Summary This study compares the action of inhibitors of the eicosanoid cascade on calcium-induced myofilament damage in cardiac muscle of the perfused frog heart and incubated frog ventricle slices, and in skeletal muscle of incubated mammalian diaphragm and isolated and saponin-skinned amphibian pectoris cutaneous muscle. Mepacrine (10^-5M) and indomethacin (3×10^-6M) protected completely against myofilament damage induced by entry of calcium in the calcium-paradox in frog heart. However, inhibition of phospholipase A₂ (PLA₂) (with chlorpromazine, 2×10^-4M, or mepacrine, 10^-5M, 5x10^-5M), of cyclo-oxygenase enzymes (with indomethacin, 3x10^-6M to 10^-5M or BW755C, 3.8x10^-4M), or of lipoxygenase enzymes (with BW755C, 3.8x10^-4M or nordihydroguaiaretic acid, 2x10^-6M or 5x10^-6M) all failed in intact cardiac or skeletal muscle cells to prevent the myofilament damage that is rapidly triggered by 10^-2M caffeine, 6x10^-6M ruthenium red, 10^-4M DNP or 5 g ml^-1 A23187. These agents also failed completely to protect against myofilament damage in saponin-skinned amphibian skeletal muscle when [Ca]_i was raised to 8x10^-6M. Thus, inhibition of PLA₂ does not protect the myofilament apparatus against calcium released intracellularly, and it is suggested that mepacrine and indomethacin can block entry of calcium in the calcium-paradox in the amphibian heart. Chlorpromazine (2x10^-4M) and mepacrine (10^-3M) at zero [Ca] caused severe myofilament damage in skinned muscle, possibly due to an effect on membranes. Since inhibitors of PLA₂ and of lipoxygenases prevent efflux of creatine kinase and sarcolemma damage in mammalian skeletal muscle, it is evident that experimentally-induced rises in [Ca]_i (by caffeine or A23187) can trigger two separate pathways: (i) PLA₂ and the arachidonic acid cascade which culminate in membrane damage, and (ii) a different, Ca-activated system that causes rapid damage of myofilaments.     

Potential role for pyruvate kinase M2 in the regulation of murine cardiac glycolytic flux during in vivo chronic hypoxia

Carbohydrate metabolism in heart failure shares similarities to that following hypoxic exposure, and is thought to maintain energy homoeostasis in the face of reduced O₂ availability. As part of these in vivo adaptations during sustained hypoxia, the heart up-regulates and maintains a high glycolytic flux, but the underlying mechanism is still elusive. We followed the cardiac glycolytic responses to a chronic hypoxic (CH) intervention using [5-³H]-glucose labelling in combination with detailed and extensive enzymatic and metabolomic approaches to provide evidence of the underlying mechanism that allows heart survivability. Following 3 weeks of in vivo hypoxia (11% oxygen), murine hearts were isolated and perfused in a retrograde mode with function measured via an intraventricular balloon and glycolytic flux quantified using [5-³H]-glucose labelling. At the end of perfusion, hearts were flash-frozen and central carbon intermediates determined via liquid chromatography tandem mass spectrometry (LC-MS/MS). The maximal activity of glycolytic enzymes considered rate-limiting was assessed enzymatically, and protein abundance was determined using Western blotting. Relative to normoxic hearts, CH increased ex vivo cardiac glycolytic flux 1.7-fold with no effect on cardiac function. CH up-regulated cardiac pyruvate kinase (PK) flux 3.1-fold and cardiac pyruvate kinase muscle isoenzyme M2 (PKM2) protein content 1.4-fold compared with normoxic hearts. CH also augmented cardiac pentose phosphate pathway (PPP) flux, reflected by higher ribose-5-phosphate (R5P) content. These findings support an increase in the covalent (protein expression) and allosteric (flux) control of PKM2 as being central to the sustained up-regulation of the glycolytic flux in the chronically hypoxic heart.     

Essential fatty acid profiles of maturation feeds used in freshwater ornamental fish culture

An investigation of live or freshly prepared feeds used as maturationdiets for freshwater ornamental fish was conducted to uncover similaritiesor differences in total and essential fatty acids. Analysis of these maturation feeds reveals that there are relatively low levels of totalfatty acids (0.81–8.96 mg/100 mg^–1 dry weight) and withthe exception of the beef heart diet all other feeds have undetectablelevels of docosahexaenoate (22:6n3). The beef heart diet was observed topossess 4.86 mg 100 mg^–1 dry weight of 22:6n3 most probablydue to the addition of skipjack tuna, Katsuwanus pelamis, roe. All otherfeeds examined were found to contain low to moderate levels ofeicosapentaenoate (20:5n3) 0.00–0.61 mg/100 mg^–1 dryweight. Surprisingly relatively high amounts of arachidonate (20:4n6)0.16–0.90 mg/100 mg^–1 dry weight were observed in all ofthe maturation diets and ranged between 3.79%–27.16% ona percent composition basis. The results obtained to date indicate a need toscrutinize the role of arachidonate in the maturation and spawningprocess.