Salutary effect of tedisamil on post-ischemic recovery rat heart: Involvement of sarcolemmal (Na,K)-ATPase

The in vitro effect of tedisamil on the specific activity and kinetic parameters of the sarcolemmal (Na,K)-ATPase as well as its ex vivo effect on the (Na,K)-ATPase in the isolated, perfused rat hearts was determined. Five mol/l of tedisamil was added 5 min before the onset of 30 min global normothermic ischemia followed by 10 min reperfusion. At the conditions of its maximal cardioprotective effect (heart rate reduction, improved postischemic recovery of left ventricular developed pressure), the hearts were immediately used for isolation of sarcolemmal vesicles. In vitro, 1–100 mol/l of tedisamil produced a concentration-dependent stimulatory effect on (Na,K)-ATPase activity, with a peak seen at 20 mol/l (p < 0.01), while Mg-dependent ATPase was almost unchanged. Kinetic analysis revealed a significant increase in the affinity of the Na-binding sites on ATPase molecule at 20 mol/l of tedisamil. These biochemical findings were confirmed by cytochemistry. Moreover, ex vivo experiments revealed that tedisamil rendered the sarcolemmal (Na,K)-ATPase activity to be a more resistant to detrimental effects of ischemia. In conclusion, the cardioprotective action of tedisamil was accompanied with a better preservation of the specific activity of (Na,K)-ATPase.     

Effect of Ischemia In vivo and Oxygen-Glucose Deprivation In vitro on NOS Pools in the Spinal Cord: Comparative Study

1. This study was performed to compare both the Ca²⁺-dependent nitric oxide synthase (NOS) activity and the neuronal nitric oxide synthase immunoreactivity (nNOS-IR) in the rabbit lumbosacral spinal cord after 15 min abdominal aorta occlusion (ischemia in vivo) and oxygen-glucose deprivation of the spinal cord slices for 45 and 60 min (ischemia in vitro). All ischemic periods were followed by 15, 30 and 60 min reoxygenation in vitro.2. Catalytic nitric oxide synthase activity was determined by the conversion of _L-[¹⁴C]arginine to _L-[¹⁴C]citrulline. Neuronal nitric oxide synthase immunoreactivity in the spinal cord was detected by incubation of sections with polyclonal sheep-nNOS-primary antibody and biotinylated anti-sheep secondary antibody.3. Our results show that ischemia in vivo and the oxygen-glucose deprivation of spinal cord slices in vitro result in a time-dependent loss of constitutive NOS activity with a partial restoration of enzyme activity during 15 and 45 min ischemia followed by 30 min of reoxygenation. A significant decrease of enzyme activity was found during 60 min ischemia alone, which persisted up to 1 h of oxygen-glucose restoration. The upregulation of neuronal nitric oxide synthase was observed in the ventral horn motoneurons after all ischemic periods. The remarkable changes in optical density of neuronal nitric oxide synthase immunoreactive motoneurons were observed after 45 and 60 min ischemia in vitro followed by 30 and 60 min reoxygenation.4. Our results suggest that the oxygen-glucose deprivation followed by reoxygenation in the spinal cord is adequately sensitive to monitor ischemia/reperfusion changes. It seems that 15 min ischemia in vivo and 45 min ischemia in vitro cause reversible changes, while the decline of Ca²⁺-dependent nitric oxide synthase activity after 60 min ischemic insult suggests irreversible alterations. Abbreviations: ACSF, artificial cerebrospinal fluid; ATP, adenosine triphosphate; DAB, diaminobenzidine-tetrahydrochloride; DTT, dithiothreitol; EDTA, ethylenediaminetetraacetic acid; eNOS, endothelial nitric oxide synthase; FAD, flavin adenine dinucleotide; H₄B, tetrahydrobiopterin; iNOS, inducible nitric oxide synthase; NADPH, nicotinamide adenine dinucleotide phosphate; NMDA, N-methyl-_D-aspartate; NO, nitric oxide; NOS, nitric oxide synthase; nNOS, neuronal nitric oxide synthase; NOS-IR, nitric oxide synthase immunoreactivity; PBS, phosphate-buffered saline; PTFE, polytetrafluoroethylene     

Role of nitric oxide in the reperfusion induced injury in hyperthyroid rat hearts

We recently reported that hyperthyroidism affects the heart response to ischemia/reperfusion. A significant tachycardia during reperfusion was associated with an increase in the oxidative stress of hearts from T₃-treated animals. In the present study we checked the possible role of nitric oxide (NO) in this major stress induced by the hyperthyroid state. We compared the functional recovery from ischemia/reperfusion of Langendorff preparations from euthyroid (E) and hyperthyroid (H, ten daily intraperitoneal injections of T₃, 10 μg/100 g body weight) rats, in the presence and in the absence of 0.2 mM N^ω-nitro-L-arginine (L-NNA). At the end of the ischemia/reperfusion protocol (10 min preischemic perfusion, 20 min global ischemia, 30 min reperfusion) lipid peroxidation, antioxidant capacity (C_A) and susceptibility to in vitro oxidative stress were determined on heart homogenates. The main effect of hyperthyroidism on the reperfusion functional response was confirmed to be a strong tachycardic response (154% recovery at 25 min reperfusion) accompanied by a low recovery in both left ventricular diastolic pressure (LVDP) and left ventricular dP/dt_max. This functional response was associated with a reduction in C_A and an increase in both lipid peroxidation and susceptibility to oxidative stress. Perfusion of hearts with L-NNA per se had small but significant negative chronotropic and positive inotropic effects on preischemic performance of euthyroid rat hearts only. More importantly, L-NNA perfusion completely blocked the reperfusion tachycardic response in the hyperthyroid rats. Concomitantly, myocardium oxidative state (lipid peroxidation, C_A and in vitro susceptibility to oxidative stress) of L-NNA perfused hearts was similar to that of E animals. These results suggest that the higher reperfusion-induced injury occurring in hyperthyroid animals is associated with overproduction of nitric oxide.     

Calcium and cyclic AMP involvement in the regulation of juvenile hormone biosynthesis in Diploptera punctata

We have examined the effects of brain extracts on cAMP levels in the CA as well as their effect on JH biosynthesis in vitro. Brain extracts induced a dose-dependent elevation in intracellular cAMP levels (as measured by RIA) within 10 min of treatment. Significant (P < 0.05) elevations in cAMP were observed with concentrations of extract as low as 0.01 brain equivalents. Maximal elevation (120–140% over controls) was obtained with 0.25 brain equivalents and greater. Elevated extracellular calcium (10 mM) substantially reduced the inhibitory effects of brain extracts on JH biosynthesis in vitro when compared to normal controls at 1.3 mM calcium. High calcium had relatively little effect on basal cAMP levels in the CA. In contrast, the use of calcium-free medium with EGTA caused a dramatic increase in cAMP levels. High calcium did not affect the ability of the brain extracts or the ability of the adenylate cyclase activator forskolin to elevate cAMP levels. These results provide further evidence that cAMP acts as a second messenger for a putative allatostatin from the brain. As well, these results further suggest that both calcium-dependent and calcium-independent (involving cAMP) pathways function to reduce JH biosynthesis in the CA of D. punctata.     

Effects of ethanol on gastric mucosal adenosine 3', 5' monophosphate (cAMP)

The effects of ethanol on the gastric mucosal adenosine 3′, 5′-monophosphate (cAMP) system were evaluated. The activity of adenylate cyclase (AC), phosphodiesterase (PDE), and tissue content of cAMP were determined in the presence of ethanol. NaF stimulated AC in rat gastric mucosa was inhibited in vitro and in vivo by 20% ethanol. Basal AC activity was so low (0.05 ± 0.10 pmoles cAMP formed/min/mg protein) that consistent results without NaF could not be obtained. The PDE activity (172 ± 11 pmoles cAMP consumed/min/mg protein) was approximately 350 fold greater than the basal AC activity. All levels of ethanol tested (2.0–20.0%) significantly inhibited (p<0.05) PDE in vitro. Gastric mucosal levels of cAMP are not measurably altered by ethanol in vivo (5–20%).     

Cardioprotective actions of wild garlic (Allium ursinum) in ischemia and reperfusion

The susceptibility to ventricular arrhythmias under the conditions of cardiac ischemia and reperfusion was investigated in the Langendorff heart preparation of rats fed for eight weeks a standard chow enriched with 2% of pulverized wild garlic leaves. The isolated hearts were perfused with a modified Krebs-Henseleit solution. The incidence of ventricular fibrillation (VF) during 20 min occlusion of thedescending branch of the left coronary artery (LAD) was significantly reduced in the wild garlic group as compared to untreated controls (20% vs 88%). The same holds for the size of the ischemic zone (33.6% vs 40.9% of heart weight). In the reperfusion experiments (5 min after 10 min ischemia), ventricular tachycardia (VT) occurred in 70% of the wild garlic group vs 100% in untreated controls and VF in 50% vs 90%. The time until occurrence of extrasytoles, VT or VR was prolonged. No significant alterations in cardiac fatty acid composition could be observed. Although the prostacyclin production was slightly increased in hearts of the wild garlic group, inhibition of cyclooxygenase by acetylsalicylic acid (ASA; aspirin) could not completely prevent the cardioprotective effects suggesting that the prostaglandin system, does not play, a decisive role in the cardioprotective action of wild garlic. Furthermore, a moderate angiotensin converting enzyme (ACE) inhibiting action of wild garlic was foundin vitro as well asin vivo that could contribute to the cardioprotective and blood pressure lowering action of wild garlic. Whether a free radiacal scavenging activity of wild garlic is involved in its cardioprotective effects remains to be established.     

Anti-Arrhythmic Effect of Verapamil Is Accompanied by Preservation of Cx43 Protein in Rat Heart

The present study was to test the hypothesis that anti-arrhythmic properties of verapamil may be accompanied by preserving connexin43 (Cx43) protein via calcium influx inhibition. In an in vivo study, myocardial ischemic arrhythmia was induced by occlusion of the left anterior descending (LAD) coronary artery for 45 min in Sprague-Dawley rats. Verapamil, a calcium channel antagonist, was injected i.v. into a femoral vein prior to ischemia. Effects of verapamil on arrhythmias induced by Bay K8644 (a calcium channel agonist) were also determined. In an ex vivo study, the isolated heart underwent an initial 10 min of baseline normal perfusion and was subjected to high calcium perfusion in the absence or presence of verapamil. Cardiac arrhythmia was measured by electrocardiogram (ECG) and Cx43 protein was determined by immunohistochemistry and western blotting. Administration of verapamil prior to myocardial ischemia significantly reduced the incidence of ventricular arrhythmias and total arrhythmia scores, with the reductions in heat rate, mean arterial pressure and left ventricular systolic pressure. Verapamil also inhibited arrhythmias induced by Bay K8644 and high calcium perfusion. Effect of verapamil on ischemic arrhythmia scores was abolished by heptanol, a Cx43 protein uncoupler and Gap 26, a Cx43 channels inhibitor. Immunohistochemistry data showed that ischemia-induced redistribution and reduced immunostaining of Cx43 were prevented by verapamil. In addition, diminished expression of Cx43 protein determined by western blotting was observed following myocardial ischemia in vivo or following high calcium perfusion ex vivo and was preserved after verapamil administration. Our data suggest that verapamil may confer an anti-arrhythmic effect via calcium influx inhibition, inhibition of oxygen consumption and accompanied by preservation of Cx43 protein.     

Cell division and cell enlargement during potato tuber formation

Cell division and cell enlargement were studied to reveal the developmental mechanism of potato tuberization using both in vivo in vitro culture systems. Distribution of cells in S-phase was visualized by immunolabelling of incorporated bromodeoxyuridine (BrdU). Mitosis was detected in DAPI (4,6-di-amidino-2-phenylindole) or toluidine blue-stained sections. Timing and frequency of cell division were determined by daily cell counting, and cell enlargement was deduced from measurements of cell diameters.Under in vivo conditions, lateral underground buds developed into stolons due to transverse cell divisions and cell elongation in the apical region of the buds. At the onset of tuber formation, the elongation of stolons stopped and cells in pith and cortex enlarged and divided longitudinally, resulting in the swelling of the stolon tip. When tubers had a diameter of 0.8 cm, longitudinal divisions had stopped but randomly oriented division and cell enlargement occurred in the perimedullary region and continued until tubers reached their final diameter.In vitro tubers were formed by axillary buds on single node cuttings cultured under tuber-including conditions. They stopped growing at a diameter of 0.8 cm. Pith and cortex were involved in tuberization such as that found during the early stage of in vivo tuberization (<0.8 cm in diameter). The larger size of in vivo tubers is, however, due to further development of the perimedullary region, which is lacking in vitro conditions.Keywords: Cell division, cell enlargement, DNA synthesis, in vitro culture, potato, tuber formation.      

Phosphodiesterase activity and cyclic AMP content during early germination ofMucor rouxii spores

Incubation ofMucor rouxii spores in complex medium under aerobic conditions resulted in a very rapid transient increase in the level of soluble, low-K_m cAMP phosphodiesterase. Maximum activity was reached after 2–4 min. Simultaneously, the cAMP content increased quickly, reproducing the profile exhibited by phosphodiesterase. Activation of the enzymein vitro by a cAMP-dependent phosphorylation process showed that its stimulation was minimal at those times when its activity was highest. The correlation between cellular cAMP content, phosphodiesterase activity, and sensitivity of the enzyme to activation by phosphorylation suggests that thein vivo regulation of phosphodiesterase activity by cAMP-dependent phosphorylation may be the mechanism for shutoff of the cAMP signal elicited by glucose.     

Effects of cytoskeletal modifications on Ca2+ influx after cerebral ischemia

Summary.  The fungal toxin cytochalasin D as well as endogenous gelsolin depolymerize filamentous actin which may induce dynamic uncoupling of membrane ion channels. In vitro application of cytochalasin D reduced NMDA-induced [³H]noradrenaline release from mouse brain neocortical slices by 38%. In gsn deficient neocortical synaptosomes [Ca²⁺]_i increase in response to K⁺ (30 mM) depolarization was 33% higher than in wild-type. After transient focal cerebral ischemia K⁺-induced [Ca²⁺]_i increase in neocortical synaptosomes was 56% lower than in synaptosomes prepared from the non-ischemic contralateral hemisphere. After in vivo pretreatment with cytochalasin D 10 min before MCA occlusion K⁺-induced [Ca²⁺]_i increase in synaptosomes in vitro prepared 1 h after reperfusion from the ischemic hemisphere was only 25% lower than in contralateral synaptosomes, while cytochalasin D pretreatment in vivo did not reduce K⁺-induced [Ca²⁺]_i increase in vitro. Hence, presynaptic Ca²⁺ influx and subsequently neuronal vulnerability are attenuated by increased and are aggravated by decreased F-actin depolymerization. Received June 29, 2001 Accepted August 6, 2001 Published online August 9, 2002     

Density distribution analysis of in vivo and in vitro colony forming cells in bone marrow

The technique of buoyant density separation in gradients of Bovine Serum Albumin has been used to separate hemopoietic cell populations in mouse bone marrow that form in vivo spleen colonies and in vitro colonies of granulocytes and macrophages in an agar culture system. The density distribution profiles showed a number of reproducible density subpopulations of both in vivo and in vitro colony forming cells (C.F.C.'s). The mean density of in vitro C.F.C.'s exceeded that of the in vivo but overlap of the density profiles of the two populations was evident. Density-related differences in seeding efficiency of in vivo C.F.C.'s were observed. Freund's adjuvant treatment increased marrow and spleen in vitro C.F.C. populations. Marrow density profiles obtained three and seven days after adjuvant showed a progressive increase in in vitro C.F.C.'s in a restricted density region with no associated elevation of in vivo activity. The antimitotic agent, vinblastine, revealed differences in mitotic activity between the two cell populations, reducing the in vitro C.F.C. population to .07% and the in vivo to 5% of normal in 24 hours. Density separation of vinblastine-treated marrow produced density regions devoid of in vitro activity but containing in vivo in vivo C.F.C.'s which, upon transfer to irradiated recipients, regenerated both in vivo and in vitro density distribution profiles.     

Cyclic AMP-dependent phosphorylation of pea proteins induced by forskolin

An increase in the level of phosphorylation of low-molecular-weight polypeptides in pea (Pisum sativum L.) leaves and changes in the content of some polypeptides after 10-min forskolin action in situ were demonstrated. A total level of protein phosphorylation in the homogenate of forskolin-treated leaves diminished after 25 min of its incubation in vitro. Using a highly specific inhibitor of cAMP-dependent protein kinases and cAMP treatments, we established that forskolin-induced change in the phosphorylation level of some polypeptides was cAMP-dependent.Translated from Fiziologiya Rastenii, Vol. 52, No. 1, 2005, pp. 27–35.Original Russian Text Copyright © 2005 by Karimova, Tyrykina, Zakharova.     

Glycine bidirectionally regulates ischemic tolerance via different mechanisms including NR2A‐dependent CREB phosphorylation

The exact effect of glycine pre‐treatment on brain ischemic tolerance (IT) remains quite controversial. The objective of this study was to investigate the potential effects of glycine on IT. We used rat models of both in vitro ischemia (oxygen and glucose deprivation) and in vivo ischemia (transient middle cerebral artery occlusion). Low doses of glycine (L‐Gly) significantly decreased hippocampal ischemic LTP (i‐LTP), infarct volume, and neurological deficit scores which were administered before ischemia was induced in rats, whereas high doses of glycine exerted deteriorative effects under the same condition. These findings suggested that exogenous glycine may induce IT in a dose‐dependent manner. Furthermore, L‐Gly‐dependent neuronal protection was inversed by L689, a selective NMDAR glycine site antagonist both in vitro (abolished i‐LTP depression) and in vivo (increased infarct size reduction), but not glycine receptor (GlyR) inhibitor strychnine. Importantly, L‐Gly‐induced IT was achieved by NR2A‐dependent cAMP‐response element binding protein phosphorylation. These data imply that glycine pre‐treatment may represent a novel strategy for inducing IT based on synaptic NMDAR‐dependent neuronal transmission.

     

Mouse Uterine 24p3 Protein as a Suppressor of Sperm Acrosome Reaction

Under in vitro conditions, incubation with 0.3% bovine serum albumin (BSA) and 1.8 mM CaCl₂ induces mouse sperm capacitation and increases the consequential acrosome-reaction. The effect of mouse uterine 24p3 protein on such stimulated sperm has been investigated to understand the biological function of the 24p3 protein. Variations in the intracellular pH (pHi), calcium concentration, cAMP levels and tyrosine phosphorylation in cytosol were determined and on in vitro mouse fertilization was evaluated. The presence of 24p3 protein reduced the response of sperm to BSA and calcium by suppressing the elevation of intracellular pH, calcium uptake, cAMP accumulation and protein tyrosine phosphorylation of BSA/calcium-stimulated sperm and showed inhibitory effect on mouse in vitro fertilization. The results indicated the inhibition of the BSA-stimulated sperm acrosome reaction by 24p3 protein then suppressed sperm fertilization. We suggested that the 24p3 protein acts as an in vitro inhibitor of the acrosome reaction in BSA stimulated sperm and this might be an anti-fertilization factor in vitro.     

The use of microwave irradiation with low formalin concentrations to enhance the conversion of dopamine into norsalsolinol in rat brain: a pilot study

Summary The fixation of the neurotransmitter dopamine in the central nervous system by perfusion with formalin solutions seems to take place mainly via the formalin-induced condensation product norsalsolinol. In the present investigation the influence of microwave irradiation of the formalin-induced condensation of dopamine was studiedin vitro andin vivo by making use of different, relatively low, formalin concentrations. It appeared thatin vitro andin vivo the dopamine conversion was complete with 4% formalin and no influence of microwaves was noted. However, by making use of much lower formalin concentrations (0.2% and 0.4%) the condensation of dopamine was strongly augmented,in vitro (200%) andin vivo (at least 500%) using microwave techniques. There was a considerable loss in non-microwaved tissue (30%) after perfusionin vivo. This was lower (10%) in microwaved tissue. In experiments with perfused brain tissue which allowed a more complete calculation, a loss was found. This might be caused by a strong binding of dopamine and/or norsalsolinol to tissue components or to side reactions that could not be traced by the present experimental techniques.     

Abrogation by prostaglandin F2alpha of LH-stimulated cyclic AMP accumulation in isolated rat corpora lutea of pregnancy.

Corpora lutea explanted from rats on the sixth day of pregnancy responded to luteinizing hormone (LH; 5 μg/ml) in vitro with a two- to five-fold increase in cellular cyclic AMP (cAMP) concentration. The maximal cAMP level was reached within 60 min and maintained to the end of the 2 hr-incubation. On incubation with prostaglandin F_2α (PGF_2α) in addition to LH, this rise in cAMP accumulation was prevented. For significant suppression, 1.4 × 10^?5M PGF_2α was required. In the absence of LH, PGF_2α (4.2 × 10^?5M) caused no change in cellular cAMP. Addition of PGF_2α (4.2 × 10^?5M) to the incubation medium after the maximal response to LH was attained, caused the cAMP concentration to return to its basal level within 15 min. This abrogation of LH-stimulated cAMP accumulation represents the earliest and hence possibly the triggering event in PGF_2α-induced luteolysis.     

A Transmissible Cytotoxic Activity Isolated from a Patient with Brain Ischemia Causes Microglial Cell Activation and Dysfunction

Summary 1. Microglial cell activation occurs during brain injury, ischemia, and in several neurologic disorders. Recently, we isolated a transmissible cytotoxic activity (TCA) from the cerebrospinal fluid of a patient with brain ischemia. Such a TCA, associated with one or more protein(s) that supposedly had undergone in vivo misfolding, causes apoptosis in vitro in different cell lines, including microglial cells. The TCA producing cells and the potential in vivo role of such cytotoxic activity remains to be elucidated. Here, we investigated the in vitro effects of TCA on microglial cell immune functions. 2. The murine microglial cell line RR4 was exposed to TCA, and then its response was evaluated as: (a) phagocytosis and antifungal activity against Candida albicans; (b) secretory pattern; and (c) levels of p38 phosphorylation. 3. Unlike mock-treated controls, microglial cells exposed to TCA showed an increase in phagocytic activity. Unexpectedly, their capability to kill the ingested fungi significantly diminished. Moreover, TCA-treated cells produced amounts of macrophage inflammatory protein 1-α, tumor necrosis factor-α, and nitric oxide significantly higher than mock-treated cells. Finally, phosphorylation of p38 mitogen-activated protein kinase (MAPK) was detected in TCA-treated but not in mock-treated controls as early as 30 min after treatment. 4. Overall, these results indicate that TCA causes a rapid molecular response in microglial cells, by the time, leading to an intriguing effector and secretory dysfunction.     

VITRIFICATION OF IN VIVO AND IN VITRO PRODUCED OVINE BLASTOCYSTS

Although cryopreservation of bovine embryo has made great progress in recent years, little achievement was obtained in ovine embryo freezing, especially in vitro produced embryos. However, a simple and efficient method for cryopreservation of sheep embryos will be important for application of ovine embryonic techniques such as in vitro fertilization, transgenic, cloning and etc. In this study ovine blastocysts, produced in vivo or in vitro, were cryopreserved by vitrification in EFS40 (40% ethylene glycol (EG), 18% ficoll and 0.5 M sucrose) or GFS40 (40% glycerol (GL), 18% ficoll and 0.5 Mol sucrose). In Vitro produced, early blastocysts were directly plunged into liquid nitrogen (LN₂) after preparation by one of the following procedures at 25°C: (A) equilibration in EFS40 for 1 min; (B) equilibration in EFS40 for 2 min; (C) equilibration in EFS40 for 30 s following pretreatment in 10% EG for 5 min; (D) equilibration in EFS40 for 30s following pretreatment in EFS20 for 2 min (E) equilibration in GFS30 for 30 s following pretreatment in 10% GL for 5 min. The survival rates observed after thawing and in vitro culture for 12 h were A 78.0% (39/50), B 50.0% (26/52), C 93.3% (70/75), D 92.0% (46/50) and E 68.0% (34/50). Survival rates were not significantly different for treatments C and D (p>0.05), but those for groups C and D were significantly higher than for A, B and E (p<0.05). After 24 h in vitro culture, hatched blastocyst rates were A 28.0% (14/50), B 21.1% (11/52), C 49.3% (37/75), D 48.0% (24/50), E 32.0% (16/50) and control 54.0% (27/50). The hatching rates for groups A, B and E were significantly lower than the control (p<0.05) in which early IVF blastocysts were cultured in fresh SOFaaBSA medium following treatment in PBS containing 0.3% BSA for 30 min, but for groups C and D it was similar to the control (p>0.05). The freezing procedures A, B and C were used to vitrify in vivo produced, early blastocysts recovered from superovulated ewes. The survival rates of frozen-thawed in vivo embryos were A 94.7% (72/76), B 75.0% (45/60) and C 96.4% (54/56) and for group B was significantly lower than for the other two treatment groups (p<0.05). Hatched blastocyst rates were A 46.0% (35/76), B 26.6% (16/60), C 51.8% (29/56) and the control 56.7% (34/60) in which early blastocysts from superovulation were cultured in fresh SOFaaBSA medium following treatment in PBS containing 0.3% BSA for 30 min. The hatching rate for treatment B was significantly lower than for the control (p<0.05) but did not differ between groups A, C and the control (p>0.05). Frozen-thawed embryos vitrified by procedure C were transferred into synchronous recipient ewes. Pregnancy and lambing rates were similar for embryos transferred fresh or frozen/thawed for both in vivo and in vitro produced embryos. These rates did not differ between in vivo and in vitro embryos transferred fresh (p>0.05). However, for frozen-thawed embryos, both rates were significantly lower for in vitro than for in vivo produced embryos (p<0.05).     

Myocardial S-adenosylhomocysteine hydrolase is important for adenosine production during normoxia

(1) The coronary vasodilator adenosine can be formed in the heart by breakdown of AMP or S-adenosylhomocysteine (SAdoHcy). The purpose of this study was to get insight into the relative importance of these routes of adenosine formation in both the normoxic and the ischemic heart. (2) A novel HPLC method was used to determine myocardial adenosine and SAdoHcy. Accumulation of SAdoHcy was induced in isolated rat hearts by perfusion with L-homocysteine thiolactone or L-homocysteine. The release of adenosine, inosine, hypoxanthine, xanthine and uric acid was determined. Additional in vitro experiments were performed to determine the kinteic parameters of S-adenosylhomocysteine hydrolase. (3) During normoxia the thiolactone caused a concentration-dependent increase in SAdoHcy. At 2000 μM of the thiolactone an SAdoHcy accumulation of 0.49 nmol/min per g wet weight was found during normoxia. L-Homocysteine (200 μM) caused an increased of 0.37 and 4.17 nmol SAdony/soc per g wet weight during normaxia and ischemia, respectively. (4) The adenosine concentration in ischemic hearts was significantly lower when homocysteine was infused (6.2 vs. 115 nmol/g; P < 0.05). Purine release was increased 4-fold during ischemia. (5) The K_m for hydrolysis of SAdoHcy was about 12 μM. At in vitro conditions favoring near-maximal SAdoHcy synthesis (72 μM adenosine, 1.8 mM homocysteine), the synthesis rate in homogenates was 10 nmol/min per g wet weight. (6) From the combined in vitro and perfusion studies, we comclude that S-adenosylhomocysteine hydrolase can contribute significantly to adenosine production in normoxic rat heart, but not during ischemia.