Healthy Hamsters Research Articles

The ionic characteristics of left atrium-pulmonary vein myocardium of healthy and myopathic Syrian hamsters

The ionic characteristics of left atrium-pulmonary vein myocardium of healthy and myopathic Syrian hamsters

Mechanisms of reduced mitochondrial Ca2+ accumulation in failing hamster heart

Mitochondrial Ca(2+) plays important roles in the regulation of energy metabolism and cellular Ca(2+) homeostasis. In this study, we characterized mitochondrial Ca(2+) accumulation in Syrian hamster hearts with hereditary cardiomyopathy (strain BIO 14.6). Exposure of isolated mitochondria from 70 nM to 30 microM Ca(2+) ([Ca(2+)](o)) caused a concentration-dependent increase in intramitochondrial Ca(2+) concentrations ([Ca(2+)](m)). The [Ca(2+)](m) was significantly lower in cardiomyopathic (CMP) hamsters than in healthy hamsters when [Ca(2+)](o) was higher than 1 microM and a decrease of about 52% was detected at [Ca(2+)](o) of 30 microM (916 +/- 67 nM vs 1,932 +/- 132 nM in control). A possible mechanism responsible for the decreased mitochondrial Ca(2+) uptake in CMP hamsters is the depolarization of mitochondrial membrane potential (Delta psi (m)). Using a tetraphenylphosphonium (TPP(+)) electrode, the measured Delta psi (m) in failing heart mitochondria was -136 +/- 1.5 mV compared with -159 +/- 1.3 mV in controls. Analyses of mitochondrial respiratory chain demonstrated a significant impairment of complex I and complex IV activities in failing heart mitochondria. In summary, a less negative Delta psi (m) resulting from defects in the respiratory chain may lead to attenuated mitochondrial Ca(2+) accumulation, which in turn may contribute to the depressed energy production and myocardial contractility in this model of heart failure. In addition to other known impairments of ion transport in sarcoplasmic reticulum and plasma membrane, results from this paper on mitochondrial dysfunctions expand our understanding of the molecular mechanisms leading to heart failure.

Ultrastructural changes in embryoic neuroepithelial cells caused by passive smoking in golden hamsters at different periods of pregnancy: A randomized controlled trial*

Ultrastructural changes in embryoic neuroepithelial cells caused by passive smoking in golden hamsters at different periods of pregnancy: A randomized controlled trial*

Ultra-efficient Replication of Infectious Prions by Automated Protein Misfolding Cyclic Amplification

Prions are the unconventional infectious agents responsible for transmissible spongiform encephalopathies, which appear to be composed mainly or exclusively of the misfolded prion protein (PrPSc). Prion replication involves the conversion of the normal prion protein (PrPC) into the misfolded isoform, catalyzed by tiny quantities of PrPSc present in the infectious material. We have recently developed the protein misfolding cyclic amplification (PMCA) technology to sustain the autocatalytic replication of infectious prions in vitro. Here we show that PMCA enables the specific and reproducible amplification of exceptionally minute quantities of PrPSc. Indeed, after seven rounds of PMCA, we were able to generate large amounts of PrPSc starting from a 1x10(-12) dilution of scrapie hamster brain, which contains the equivalent of approximately 26 molecules of protein monomers. According to recent data, this quantity is similar to the minimum number of molecules present in a single particle of infectious PrPSc, indicating that PMCA may enable detection of as little as one oligomeric PrPSc infectious particle. Interestingly, the in vitro generated PrPSc was infectious when injected in wild-type hamsters, producing a disease identical to the one generated by inoculation of the brain infectious material. The unprecedented amplification efficiency of PMCA leads to a several billion-fold increase of sensitivity for PrPSc detection as compared with standard tests used to screen prion-infected cattle and at least 4000 times more sensitivity than the animal bioassay. Therefore, PMCA offers great promise for the development of highly sensitive, specific, and early diagnosis of transmissible spongiform encephalopathy and to further understand the molecular basis of prion propagation.

Melatonin reduces ventricular arrhythmias and preserves capillary perfusion during ischemia‐reperfusion events in cardiomyopathic hamsters

Earlier studies showed that melatonin has powerful antioxidative effects on ischemia-reperfusion (I/R) injury in healthy hamsters. In the present study, the possible protective effects of melatonin in 10-month-old cardiomyopathic (CM) hamsters were evaluated in a model of I/R in the cheek pouches observed by intravital microscopy. In CM (BIO 14.6) hamsters diameter, red blood cell (RBC) velocity and flow in arterioles as well as lipid peroxide and nitrite/nitrate concentrations in the systemic blood, perfused capillary length, vascular permeability, and leukocyte adhesion were measured after melatonin injection (6 mg/kg intraperitoneally daily for 3 weeks), and after I/R. The influence of melatonin on the incidence of postischemic-reperfusion-induced ventricular tachycardia (VT) and ventricular fibrillation (VF) were also measured. Changes in the arteriolar response to NG-monomethyl-L-arginine (L-NMMA), a nitric oxide inhibitor, norepinephrine (NE), and angiotensin II (ANG II) were studied before and after melatonin injection (10 mg/kg intravenously). In CM hamsters, melatonin restored normal arteriolar responses to L-NMMA, NE, and ANG II. I/R elevated lipid peroxide and nitrate/nitrite levels, and vascular permeability while arteriolar diameter, RBC velocity, flow and capillary perfusion were reduced. These effects were more marked in CM versus healthy hamsters. During I/R melatonin reduced oxidative and nitrosative stress, vasoconstriction, leukocyte adhesion, and vascular permeability and increased capillary perfusion. Melatonin reduced the incidence of VT while VF during reperfusion disappeared totally. In conclusion, melatonin prevents both microvascular injury and ventricular arrhythmias during postischemic reperfusion by modulating the lipid peroxide overproduction and nitrative stress which are involved in the development of cardiomyopathy.

Pall leukotrap affinity prion‐reduction filter removes exogenous infectious prions and endogenous infectivity from red cell concentrates

Three recent probable cases of transmission of a variant of human Creutzfeldt-Jakob disease (vCJD) through blood transfusion suggest that the disease can be transmitted through transfusion of blood components from presymptomatic blood donors. In this study, we investigated the performance of a new filter for reducing the levels of infectious prions (PrP(Sc)) from red cell concentrates (RCC). Endogenous Infectivity: A pool of 500 ml of whole blood was collected from 263K-strain scrapie-infected hamsters into an anticoagulant, processed into non-leucoreduced RCC (NL-RCC), and then passed through a prion-reduction filter. Pre- and postfiltration samples were tested for PrP(Sc) by Western blot and infectivity by inoculation of healthy hamsters. Results of the endogenous infectivity study after 200 days post-inoculation are discussed. Exogenous (Spiking) Study: Scrapie-infected hamster brain homogenates containing PrP(Sc) were added to human RCC and then filtered. Levels of PrP(Sc) were determined by Western blot assay. The effect of prior leucodepletion of 'spiked' RCC on PrP(Sc) removal by the prion-removal filter was also assessed. In the endogenous infectivity study, at 200-day observation time, the prefiltered RCC transmitted disease to six of the 187 hamsters, whereas the filtered RCC did not transmit disease to any of 413 animals, P = 0.001. The prion filter also significantly reduced the concentration of leucocytes in the RCC by about 4 logs, P < 0.05. In the exogenous (spiking) study, the level of PrP(res) was significantly reduced in RCC P < 0.05. Prior leucodepletion of the RCC with a leucoreduction filter did not significantly reduce the concentration of exogenously spiked PrP(Sc), P > 0.05. The use of this new prion-reduction filter should reduce the risk of vCJD transmission through transfusion of RCC, the most widely transfused blood component.

Localizations of intracellular calcium and Ca2+-ATPase in hamster spermatogenic cells and spermatozoa

Calcium plays a predominant role regulating many functional processes of spermatogenesis and fertilization. The purpose of the present study is to define the exact location of calcium as well as examine the role it plays during spermatogenesis and sperm capacitation. Testes and epididymides were obtained from adult healthy male hamsters. Spermatozoa were incubated with modified Tyrode's medium up to 4 h at 37 degrees Celsius for sperm capacitation in vitro. Samples of the testes and sperm cells were analyzed by cytochemical techniques to determine the location of calcium and Ca(2+)-ATPase and the percentage of acrosome reactions under light and electron microscopy. The data showed that (1) Sertoli cells exhibited numerous calcium precipitates as large, round, electron-dense bodies distributed throughout the cytoplasm and the mitochondrial matrix. Fine calcium precipitates existed in fewer numbers in the intracellular storage sites of spermatogonia and primary spermatocytes, in sharp distinction to secondary spermatocyte and spermatids, which showed an abundance of large and round calcium precipitates, especially in the mitochondrial matrix of spermatids. More calcium deposits were distributed in the plasma membrane (PM), acrosome membrane, and matrices of the acrosome and mitochondria following capacitation; (2) Ca(2+)-ATPase was found in the endoplasmic reticulum system and PM of noncapacitated spermatozoa as well as Sertoli cells. Capacitated spermatozoa showed a weak signal. These results suggest that the presence of calcium in spermatogenic cells might play a role in cell growth and differentiation during spermatogenesis. The Ca(2+)-ATPase function may be inhibited during capacitation, leading to an increase in acrosomal calcium level and triggering of acrosomal exocytosis.

Removal of exogenous (spiked) and endogenous prion infectivity from red cells with a new prototype of leukoreduction filter

Two recent probable cases of transmission of a variant of human Creutzfeldt-Jakob disease (vCJD) through blood transfusion suggest that the disease can be transmitted through transfusion of blood components from presymptomatic blood donors. In the absence of a preclinical screening test, removal of the infectious agent by processing is the only means by which risk to recipients of blood from donors with inapparent vCJD infections can be eliminated. In the endogenous infectivity study, a pool of 500 mL of whole blood was collected into CP2D anticoagulant from 263K-strain scrapie-infected hamsters, processed into 300 mL of red cells (RBCs), and then passed through a prion removal filter. Pre- and postfiltration samples were tested for PrP(sc) by Western blot and for infectivity by inoculation of healthy hamsters. In the exogenous (spiking) infectivity study, 30 mL of 10 percent (wt/vol) scrapie-infected brain homogenates was added to 270 mL of human RBCs and then filtered. Levels of PrP(sc) and infectivity were determined by Western blot and bioassay. In the endogenous infectivity study, the prefiltered RBCs transmitted disease to 6 of 43 animals, whereas the postfiltered RBCs did not transmit disease to any of 35 animals, and a barely visible prefiltration PrP(sc) Western blot signal was reduced below the level of detection in the postfiltration sample. In the exogenous (spike) study, infectivity was reduced by 3.7 log LD50 per mL, from 9.2 to 5.5 log LD50 per mL. The new filter was effective in removing both infectivity and PrP(sc) from RBCs. The use of this type of filter should reduce the risk of vCJD transmission through blood transfusion.

Modelo experimental de formação de varizes esofágicas por hipertensão portal esquistossomótica em hamsters

OBJETIVO: Desenvolver um modelo experimental de formação de varizes esofágicas por hipertensão portal esquistossomótica em hamsters. MÉTODO: Utilizamos 55 hamsters divididos em dois grupos: grupo I composto de 50 animais infectados com injeção percutânea de 100 cercarias de Schistosoma mansoni da cepa BH; e grupo II composto de cinco animais sadios (grupo de controle). Foram mantidos por um período de incubação de oito semanas. Após este período os animais eram pesados e posteriormente avaliados cirurgicamente quanto à pressão portal, e aspectos macroscópicos e microscópicos do baço, fígado e esôfago tóraco-abdominal. RESULTADOS: Todos os animais do grupo I perderam peso, enquanto os animais do grupo II apresentavam um aumento do peso corporal durante o período de incubação. Vinte e seis (52%) animais do grupo I morreram. Dos 24 hamsters que permaneceram compondo o grupo I observamos uma pressão portal significativamente elevada quando comparada aos animais do grupo II (8,33 x 4,60 cm H2O respectivamente). Verificamos a presença de varizes esofágicas em 16 hamsters do grupo I (66,70%) sendo nestes animais a pressão portal significativamente mais elevada quando comparada aos animais do grupo I que não desenvolveram varizes (9,50 x 6,00 cm H2O respectivamente). CONCLUSÃO: É possível desenvolver em hamsters um modelo experimental de hipertensão portal esquistossomótica aguda com formação de varizes esofágicas.

Oscillatory transient inward currents in ventricular myocytes of healthy versus myopathic Syrian hamster

The present experiments were performed in order to study abnormal action potential configuration and ion channel activity in ventricular myocytes obtained from 23 male myopathic Syrian hamsters (Biobreeders strain 14.6, 32-52 weeks old) compared with 10 age-matched healthy control hamsters (Biobreeders F1B) by means of whole-cell patch-clamp techniques. The results show that the myopathic myocytes had a longer action potential duration, a reduced transient outward K(+) current on depolarization and a smaller transient inward current on repolarization after prolonged depolarizing pulses (> 500 msec). However, the L-type Ca(2+) current and the inwardly rectifing K(+) current were not significantly different from those of healthy myocytes. The oscillatory transient inward currents could be diminished by treatment with ryanodine (0.01-1 micromol/L), a sarcoplasmic reticulum (SR) Ca(2+) release channel blocker, or with Na(+)-free superfusate. We conclude that the hereditary myopathic hamsters are less likely to develop delayed after depolarization-related transient inward currents and triggered arrhythmias owing to a smaller SR Ca(2+) content.

Amphotericin B Molecular Organization as an Essential Factor to Improve Activity/Toxicity Ratio in the Treatment of Visceral Leishmaniasis

An in vivo study has been performed in order to determine the influence of amphotericin B (AMB) molecular organization on the toxicity and activity of this drug in the treatment of experimental visceral leishmaniasis. Three formulations with similar composition but different drug molecular self-association in aqueous media were prepared. Acute toxicity was evaluated by injecting them in healthy hamsters. Sub-acute toxicity and efficacy were studied administering them to animals previously infected with Leishmania infantum. The preparation with drug molecules completely dissolved into monomers (formulation “C”) and produced the highest acute toxicity. The formulation whose AMB molecules were disposed as non-water-soluble multi-aggregates (formulation “B”) proved to provide the lowest acute toxicity. This formula also showed an improved activity, mainly in the liver, if compared with the third tested formulation containing AMB molecules disposed as smaller dimerical “water-soluble” aggregates (formulation “A”). As a conclusion, molecular aggregation in biological media should be an important factor to consider when researching or optimizing medicines containing AMB. The liberation of molecules as large dispersed non-water-soluble multi-aggregates seems to improve the narrow therapeutic margin attached to the use of this drug.

Syrian Golden hamster - A model forExamining Metabolic Effects of Volitional Training.

1747 The Syrian Golden hamster is commonly used as a model of dietary induced insulin resistance. Fat metabolism in hamsters closely resembles that in humans and this animal is known to exercise voluntarily. PURPOSE: To explore the metabolic effects of volitional training on young, healthy Syrian hamsters. METHODS: Male, 24- day old, hamsters with initial weight of 46.6 ± 0.83g (mean ± SEM), were randomly divided into sedentary (n = 8) and trained (n = 8) groups. The training group had 24-hour access to running wheels over 4 weeks of study. Food consumption, body weight and running distance were recorded daily and blood glucose was measured once per week. Non-fasted animals were euthanized by decapitation under CO2 anaesthesia and blood and tissues were collected for analysis. Plasma leptin, insulin, GLP-1, glucagon and amylin concentrations were measured in 10ul of serum using a Rat/Mouse Endocrine Panel (Linco Research, Inc.). RESULTS: The distance ran increased during the training period from 12.8 ± 1.11km/day at week 1 to 20.3 ± 0.82km/day at week 4. By the second week, food consumption was significantly higher (p<0.01) in trained (9.6 ± 0.2g/day) than in sedentary (6.48 ± 0.13g/day) animals. Although both groups gained weight, there was no difference in body mass between groups at any time point. Right visceral fat pad was larger (p<0.001) in sedentary (0.72 ± 0.04g) than in trained (0.24 ± 0.02g) animals. There was no difference in the blood glucose over the duration of the study between the trained and sedentary controls (4.6 ± 0.08mM/L vs 4.8 ± 0.1mM/L respectively). Leptin levels in sedentary hamsters were higher (p<0.05) than in trained hamsters (92.2 ± 15.7pM vs 35.5 ± 6.17pM, respectively). No significant difference was seen between the trained and sedentary animals in plasma insulin (284 ± 50.6pM vs 291.6 ± 49.7pM) nor GLP-1 (14.57 ± 3.9pM vs 10.93 ± 1.4pM) levels. Plasma glucagon and amylin were not detectible in sufficient animals to allow for comparison between groups. CONCLUSION: Our observations reveal that the extremely high volume of exercise exhibited by the animals, as well as their metabolic profile, may make this animal model particularly useful for the study of physiological effects of heavy endurance type training on metabolism.

Syrian Golden hamster - A model forExamining Metabolic Effects of Volitional Training.

1747 The Syrian Golden hamster is commonly used as a model of dietary induced insulin resistance. Fat metabolism in hamsters closely resembles that in humans and this animal is known to exercise voluntarily. PURPOSE: To explore the metabolic effects of volitional training on young, healthy Syrian hamsters. METHODS: Male, 24- day old, hamsters with initial weight of 46.6 ± 0.83g (mean ± SEM), were randomly divided into sedentary (n = 8) and trained (n = 8) groups. The training group had 24-hour access to running wheels over 4 weeks of study. Food consumption, body weight and running distance were recorded daily and blood glucose was measured once per week. Non-fasted animals were euthanized by decapitation under CO2 anaesthesia and blood and tissues were collected for analysis. Plasma leptin, insulin, GLP-1, glucagon and amylin concentrations were measured in 10ul of serum using a Rat/Mouse Endocrine Panel (Linco Research, Inc.). RESULTS: The distance ran increased during the training period from 12.8 ± 1.11km/day at week 1 to 20.3 ± 0.82km/day at week 4. By the second week, food consumption was significantly higher (p<0.01) in trained (9.6 ± 0.2g/day) than in sedentary (6.48 ± 0.13g/day) animals. Although both groups gained weight, there was no difference in body mass between groups at any time point. Right visceral fat pad was larger (p<0.001) in sedentary (0.72 ± 0.04g) than in trained (0.24 ± 0.02g) animals. There was no difference in the blood glucose over the duration of the study between the trained and sedentary controls (4.6 ± 0.08mM/L vs 4.8 ± 0.1mM/L respectively). Leptin levels in sedentary hamsters were higher (p<0.05) than in trained hamsters (92.2 ± 15.7pM vs 35.5 ± 6.17pM, respectively). No significant difference was seen between the trained and sedentary animals in plasma insulin (284 ± 50.6pM vs 291.6 ± 49.7pM) nor GLP-1 (14.57 ± 3.9pM vs 10.93 ± 1.4pM) levels. Plasma glucagon and amylin were not detectible in sufficient animals to allow for comparison between groups. CONCLUSION: Our observations reveal that the extremely high volume of exercise exhibited by the animals, as well as their metabolic profile, may make this animal model particularly useful for the study of physiological effects of heavy endurance type training on metabolism.

Infectivity of Prion Protein Bound to Stainless Steel Wires: A Model for Testing Decontamination Procedures for Transmissible Spongiform Encephalopathies

To establish an animal model to study transmissible spongiform encephalopathy using hamsters and steel wires contaminated with infectious brain materials as transfer vehicles, and, based on this model, to test decontamination procedures against the infectious prion proteins on the steel wires as a near real situation bioassay. Infectious brain materials were given to healthy hamsters intracerebrally either as a suspension or as dried materials on the surface of steel wires. The animals were observed for 18 months. During this period, animals showing definitive clinical signs were euthanized. Decontamination studies were performed by reprocessing contaminated steel wires with different disinfection agents and procedures before implantation. Pathological prion proteins were able to bind to the steel wires and caused disease after the contaminated wires were implanted in the brains of hamsters. When the contaminated wires were treated with different reprocessing procedures before implantation, infectivity was reduced, which was manifested directly by prolonged survival time of the test animals. These results show that this model can be used as a bioassay to validate reprocessing procedures for surgical instruments. At the time of submission of this article, only the group of hamsters incubated with wires reprocessed with an alkaline detergent, followed by sterilization with a modified cycle in a hydrogen peroxide gas plasma sterilizer (4 injections), showed no clinical signs of disease and remained alive. Two animals from the group receiving sodium hydroxide followed by autoclaving (at 134 degrees C for 18 minutes) died. Furthermore, the tested enzymatic cleaning agent seemed to have no positive effect.

Neuroendocrine lung carcinogenesis in hamsters is inhibited by green tea or theophylline while the development of adenocarcinomas is promoted: implications for chemoprevention in smokers

Lung cancer continues to be the leading cause of cancer death in developed countries. With smoking the major etiological factor for lung cancer, there is a great need for the development of chemopreventive treatments that inhibit the progression of initiated cells and premalignant lesions into overt lung cancer in smokers who quit. Although the major focus of chemoprevention research has been on agents that inhibit the metabolic activation of genotoxic chemicals contained in tobacco products, some of these agents may additionally modulate growth-regulating signal transduction. In turn, the function of such signaling pathways is highly cell type-specific, with a given pathway inhibiting the growth of one cell type while stimulating the growth of others. The current experiment has tested the hypothesis that green tea and the methylxanthine theophylline contained in tea inhibit the progression of neuroendocrine lung carcinogenesis in hamsters with hyperoxic lung injury and initiated with the tobacco carcinogen 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) while promoting the development of Clara cell-derived pulmonary adenocarcinomas initiated by NNK in healthy hamsters. This hypothesis is based on published evidence that human small cell lung cancer as well as the neuroendocrine hamster tumors are regulated via autocrine signaling pathways that activate Raf-1 and the mitogen-activated (MAP) kinase pathway whereas human pulmonary adenocarcinomas of Clara cell lineage and the hamster model of this cancer type are regulated by a β-adrenergic pathway involving the activation of cyclic adenosine 3′,5′-monophosphate (cAMP) and the arachidonic acid (AA) cascade. In turn, it was hypothesized that theophylline would inhibit Raf-1-dependent tumor progression while promoting cAMP-dependent tumor progression due to its documented ability to inhibit the enzyme cAMP-phophodiesterase. The experimental design simulated chemoprevention in former smokers in that treatments with tea or theophylline started after completion of a 10-week tumor induction period with NNK. Our data show that green tea as well as theophylline significantly inhibited lung tumor multiplicity in the neuroendocrine cancer model whereas identical chemopreventive treatments significantly promoted the lung tumor multiplicity in the adenocarcinoma model. These findings indicate that green tea and theophylline as well as other chemopreventive agents that modulate signal transduction may have opposite effects on cancers of different histolopathology and cell lineage. At the current state of knowledge such chemopreventive treatments should only be used as adjuvant to cancer therapy of cancers that have been fully characterized at the pathology and molecular level.

Efficient and long-term intracardiac gene transfer in delta-sarcoglycan-deficiency hamster by adeno-associated virus-2 vectors.

Intracardiac gene transfer and gene therapy have been investigated with different vector systems. Here we used adeno-associated virus (AAV) vectors to deliver either a reporter gene or a therapeutic gene into the heart of golden Syrian hamsters. The method of gene delivery was direct infusion of the AAV2 vectors into the coronary artery ex vivo in a heterotopically transplanted heart. When an AAV2 vector carrying the Lac-Z gene driven by CMV promoter was delivered into the heart of healthy hamsters, effective gene transfer was achieved in up to 90% of the cardiomyocytes. Lac-Z gene expression persisted for more than 1 year without immune rejection or promoter shutoff. Furthermore, when an AAV2 vector carrying human delta-sarcoglycan gene was similarly delivered into the heart of Bio14.6 Syrian hamster, a congestive heart failure and limb girdle muscular dystrophy animal model, widespread therapeutic gene transfer was achieved in a majority of the cardiomyocytes. Efficient expression of the human delta-sarcoglycan gene in the dystrophic hamster hearts restored the entire sarcoglycan complex that was missing due to the primary deficiency of delta-sarcoglycan. Transgene expression persisted for 4 months (the duration of the study) without immune rejection or promoter shutoff. These results indicate that AAV is a promising vector system for cardiac gene therapy.

The paradoxical positive inotropic effect of sevoflurane in healthy and cardiomyopathic hamsters.

We investigated the effects of sevoflurane (0.7 to 3.6 vol%) on inotropy and lusitropy in left ventricular papillary muscles of healthy hamsters and genetically induced cardiomyopathic (strain BIO 14.6) hamsters in vitro (29 degrees C, pH 7.40, Ca(2+) 2.5 mM, stimulation frequency three per minute) under low (isotony) and high (isometry) loads. Sevoflurane induced a moderate positive inotropic effect in healthy hamsters (maximum unloaded shortening velocity and isometric active force at 3.6 vol%: 115% +/- 12% and 128% +/- 21% of baseline values, respectively; P < 0.01) and in cardiomyopathic hamsters (maximum unloaded shortening velocity and isometric active force at 3.6 vol%: 115% +/- 20% and 124% +/- 31% of baseline values, respectively; P < 0.05). This positive inotropic effect did not differ between healthy and cardiomyopathic hamsters, even when sevoflurane concentrations were corrected for minimum alveolar anesthetic concentration values in each strain, and was unchanged after alpha- and beta-adrenoceptor blockade. After calcium-channel blockade, this positive inotropic effect was abolished in healthy hamsters but enhanced in cardiomyopathic hamsters. In both strains, sevoflurane induced a moderate negative lusitropic effect under low and high loads. A paradoxical moderate positive inotropic effect of sevoflurane was observed in hamster ventricular muscle. This effect was likely related to calcium channel interaction, because after calcium-channel blockade, it was abolished in healthy hamsters and enhanced in cardiomyopathic hamsters.

Comparative analysis of normal prion protein expression on human, rodent, and ruminant blood cells by using a panel of prion antibodies

It is not known whether variant CJD can be transmitted within the human population by blood transfusion. The expression of normal cellular prion protein (PrPC) by different blood cell types may permit selective uptake and dissemination of infectivity. The normal distribution of PrPC on the major blood cell types of species known to be susceptible to natural or experimental transmissible spongiform encephalopathies was studied. Blood from healthy humans, mice, hamsters, cattle, and sheep was examined by flow cytometry by using a large panel of antibodies with different prion protein (PrP) epitope specificities to maximize the detection of PrP variants across species and cell type. PrP was detected on all major human blood cells types except eosinophils, but was not detected as ubiquitously or uniformly on major blood cell types of different animal species. Different animal species have unique patterns of expression of PrPC on blood cell types, with none equivalent to the human pattern. This needs to be considered when extrapolating from animal models of blood-borne transmissible spongiform encephalopathy infectivity, particularly in regard to the risk assessment of potential variant CJD spread within the human population. The relationship between PrP distribution and infectivity distribution in blood needs further investigation.

Sodium Currents in Striatal Neurons from Dystonic dtsz Hamsters: Altered Response to Lamotrigine

Dystonic mutant dtsz hamsters are a model for paroxysmal dystonia. Handling/stress provoke the dystonic attacks. This phenomenon subsedes with maturation, but can be reinvoked when these animals receive sodium channel blockers such as lamotrigine, suggesting a dysfunction of striatal sodium channels. Voltage-gated fast sodium currents (INa+) were studied in acutely isolated striatal neurons from healthy and dtsz hamsters in whole-cell voltage clamp recordings. The action of lamotrigine was tested on (a) current/voltage relationship, (b) kinetics, and (c) steady-state inactivation and activation. Under control conditions, properties of INa+ were not different between healthy and dtsz neurons. With lamotrigine, however, (a) peak currents were significantly less depressed by the drug in neurons from dtsz hamsters as compared to healthy cells, and (b) the steady-state inactivation curve shift of INa+ was less pronounced in dtsz neurons. The results suggest that in dtsz hamsters, fast sodium currents in striatal neurons are more resistant to blockade. This sodium channel alteration might be causal for a functional imbalance between input and output structures of the basal ganglia under conditions of compromised I+Na.

Insulin deficiency and reduced expression of lipogenic enzymes in cardiomyopathic hamster

Evidence is given that the heart of the cardiomyopathic UM-X7.1 hamster has a lipid composition different from that of the same tissue isolated from animals of the Syrian hamster parent strain. Also, noncardiac tissues from cardiomyopathic and healthy hamsters exhibit significant compositional differences. On the basis of these preliminary observations, a comparative study of the hepatic biosynthesis of lipids in cardiomyopathic and healthy Syrian hamsters was undertaken. The results obtained indicate that the cardiomyopathic hamster is characterized by a generalized disturbance of lipid metabolism. In particular, the fatty acid synthase and stearoyl-CoA desaturase activities were significantly lower in the liver of UM-X7.1 hamsters than in age-matched healthy controls fed the same diet. Northern blot analysis of the mRNAs encoding the two enzymatic proteins and the “lipogenic” S14 nuclear protein indicated that the transcription of the respective genes was impaired in UM-X7.1. Short-term dietary manipulations modulated the expression of the above-mentioned genes both in cardiomyopathic and healthy animals. However, dietary carbohydrates were less effective in inducing the expression of lipogenic enzymes in UM-X7.1 liver than healthy controls. The main determinant of the metabolic defect pointed out in the present work appears to be represented by the low insulin level detectable in the plasma of the cardiomyopathic hamster.—Vecchini, A., L. Binaglia, M. Bibeau, M. Minieri, F. Carotenuto, and P. Di Nardo. Insulin deficiency and reduced expression of lipogenic enzymes in cardiomyopathic hamster. J. Lipid Res. 2001. 42: 96–105.