Comparison of the electromechanical responsiveness of alpha-1-adrenoceptor stimulation in ventricles of normal and cardiomyopathic hamsters

Alterations in alpha(1)-adrenoceptor (alpha(1)AR) density and related signal transduction proteins were reported in cardiomyopathic hearts in the failing stage. The electromechanical modification of alpha(1)-adrenergic stimulation in the failing heart is unclear. The present study compares the alpha(1)AR-stimulated electromechanical response in failing ventricles of genetically cardiomyopathic BIO 14.6 hamsters (280-320 days old) with that in age-matched normal Syrian hamsters. The action potential was recorded with a conventional microelectrode technique, and twitch force was measured with a transducer. In the presence of propranolol, phenylephrine increased the contraction and prolonged the action potential duration (APD) to similar values in ventricles of both strains, despite a prolonged basal APD in cardiomyopathic ventricles. The positive inotropism stimulated by phenylephrine was inhibited by staurosporine, and was potentiated by 4 beta-phorbol-12,13-dibutyrate (PDBu) in both strains. The maximum positive inotropic effect of phenylephrine in PDBu-treated ventricles of normal hamsters was significantly greater than that in BIO 14.6 hamsters. The effects of phenylephrine on the ventricular force-frequency relationship and on the mechanical restitution in both normal and BIO 14.6 strain hamsters were examined. The uniform negative force-frequency relationship and the altered mechanical restitution reveal a defect of intracellular Ca(2+) handling in cardiomyopathic BIO 14.6 hamsters. alpha(1)-Adrenergic modulation cannot convert the defective properties in the model of the failing heart. Nevertheless, phenylephrine decreased post-rest potentiation in short rest periods, and enhanced post-rest decay after longer resting periods. The results indicate that alpha(1)-adrenergic action enhances a gradual loss of Ca(2+) from the sarcoplasmic reticulum, although its action in prolonging the APD can indirectly increase the influx of Ca(2+).     

Linkage map of Syrian hamster with restriction landmark genomic scanning

We have constructed the linkage map with precise genetic analysis of the Syrian hamster, Mesocricetus auratus, according to the restriction landmark genomic scanning (RLGS) spot mapping method. Although only 3.2–6.6% of the total RLGS spots between the two strains, ACN and BIO 14.6, showed genetic variance, 572 loci were found to be polymorphic. Out of 569 RLGS loci and 3 other loci, 531 were mapped with the backcross (ACN × BIO 14.6) F₁× BIO 14.6. The cumulative map was 1111.6 cM, indicating that the spots/loci are located throughout the genome at 1.94 cM intervals on average. Thus, RLGS provides us with a rapid tool to construct the genetic map of any species, even if it has less genetic variation. Received: 15 July 1996 / Accepted: 25 September 1996     

Atrial natriuretic factor in taurine-treated normal and cardiomyopathic hamsters

Diuretic and natriuretic activities of atrial extracts from BIO 14.6 (cardiomyopathic) and F1B (normal) hamsters at 180 days of age were measured by rat bioassay. Both activities were lower in BIO 14.6 extracts. Because of the reported protective action of taurine in the cardiomyopathic hamster, we tested the effect of 0.1 M taurine drinking upon the activity of atrial extracts. Urine flow and Na+ excretion were increased in both BIO 14.6 and F1B; however, comparatively larger increases in BIO 14.6 taurine drinkers abolished strain differences that were observed in water drinkers. Taurine drinking BIO 14.6 hamsters exhibited an increased plasma sodium concentration. Drinking of 0.6% NaCl also produced an elevated plasma sodium concentration in BIO 14.6. Extracts from hamsters with increased salt intake had diuretic and natriuretic activities that were not different from those of water drinkers. These findings confirm that ANF activity is deficient in BIO 14.6 hamsters, and this suggests a role for taurine in its production, release, and/or activation.     

Profound elevation of ventricular and pulmonary atriopeptin in a model of heart failure

Recently, the concept of an atrial endocrine system has expanded to that of a cardiac endocrine system. In support of this expanded view, the cardiac ventricles have been demonstrated to be a source of the atrial hormone (atriopeptin). Markedly enhanced ventricular expression of atriopeptin has been shown to be associated with cardiac hypertrophy. In this study, we measured the levels of atriopeptin in atrial and extra-atrial tissues of the BIO 14.6 hamster, a genetic model of cardiomyopathy and congestive heart failure. The BIO 14.6 hamsters (approximately 1 year of age) weighed 7.4% more than their age-matched controls, an indication of edema, and showed overt cardiac hypertrophy (control vs. BIO 14.6 heart weight: .556 +/- .045 g vs. .990 +/- .043 g). A survey of extra-atrial tissues indicated that pulmonary and ventricular tissue from both control and BIO 14.6 hamsters possessed measurable levels of immunoreactive atriopeptin. However, a comparison of atriopeptin levels in the lungs and cardiac ventricles, respectively, of control and BIO 14.6 hamsters revealed profound differences. Pulmonary atriopeptin levels were 30-fold greater, and ventricular atriopeptin levels were 13.3-fold greater, in the BIO 14.6 hamsters. In addition, the total content of atriopeptin was 2.2-fold greater in the atria of BIO 14.6 hamsters. Dot blot analysis indicated that atriopeptin mRNA levels were greater in the atria (3.4-fold) and ventricles (17.9-fold) of BIO 14.6 hamsters. A similar analysis of atriopeptin mRNA in pulmonary tissue proved inconclusive. The function of the marked increase of pulmonary and ventricular atriopeptin is unknown; however, it is plausible that the peptide hormone serves to regulate the formation of pulmonary and peripheral edema.     

Diminished respiratory responses of brown adipocytes isolated from BIO 14.6 dystrophic hamsters

Catecholamine-induced thermogenesis is significantly diminished in BIO 14.6 cardiomyopathic hamsters as demonstrated by a reduced increase in oxygen consumption of these hamsters in response to administered isoproterenol. This decreased responsiveness is accompanied by a reduction in the amount of brown adipose tissue, a major nonshivering thermogenic effector. The present study demonstrates that the metabolic responses of individual brown fat cells are also altered in the dystrophic hamster. That is, 1 microM norepinephrine, the physiological mediator of nonshivering thermogenesis, evoked rates of oxygen consumption that were significantly lower in brown adipocytes isolated from the BIO 14.6 hamsters than in those from normal controls. Additionally, the dystrophic adipocytes exhibited: decreased maximal activity (per cell as well as per milligram protein) of citrate synthase; decreased cell size; and decreased amounts of protein per cell. These data indicate that the nonshivering thermogenic capacity of the intact BIO 14.6 hamsters reflects altered characteristics of the individual brown adipocytes themselves, as well as decreased amounts of the tissue.     

Production of H-Y Antibody by Female Mice that Fail to Reject Male Skin

WHEN inbred mice are grafted with skin from inbred donors that differ from the recipients only by a single minor histocompatibility antigen, it is commonly observed that some recipients will retain their skin grafts while others will reject them. This is true of incompatibility for H-Y antigen, which is responsible for the rejection of male grafts by otherwise histocompatible inbred females of the same inbred strain¹. Thus in the DBA/2 (DBA) strain, male-to-female skin grafts are rejected by only some recipients; in the C57BL (B6) strain, females always reject male skin; and C3H/An (C3H) females usually accept male skin grafts indefinitely.     

Identification of a novel aldose reductase-like gene upregulated in the failing heart of cardiomyopathic hamster

Cardiomyopathy (CM) is degenerative disease of myocardium which leads to severe cardiac failure. Although many causative genes for CM have been identified, molecular pathogenesis of CM is not fully understood. In this study, we searched for a novel pathway recruited in the development of CM by using BIO14.6 hamster as an animal model for human CM. We screened upregulated genes in the left ventricle by differential display technique and searched for a gene which had never been linked to CM. We identified a novel gene overexpressed in BIO14.6 hamster ventricles, which was considered to be a new member of aldo-keto reductase (AKR) superfamily. The cloned cDNA encoded a 316 amino acid polypeptide with calculated molecular mass of 35,804, which showed high amino acid sequence similarities to aldose reductase and its relative: 69.6% to AKR1B1 (human aldose reductase), 68.4% to AKR1B3 (mouse aldose reductase), and 85.8% to AKR1B7 (mouse vas deferens protein). The upregulation of this aldose reductase-like gene in BIO14.6 hamster ventricles (6.3 ± 0.8-fold) seemed to be influenced by the overexpression of activator protein-1 present there. With the fact that AKR1B1, AKR1B3, and AKR1B7 have synthetic activities of prostaglandin F2α, the aldose reductase-like protein could cause cardiac hypertrophy through production of prostaglandin F2α whose precursor and receptor were abundant in BIO14.6 hamster ventricles. Aldose reductase and its related proteins would give a new clue to dissect the pathogenesis of CM including oxidative stress and cardiac hypertrophy, and to develop a new drug for the treatment of CM.     

IL-5 mediates eosinophilic rejection of MHC class II-disparate skin allografts in mice.

CD4 T cells play a crucial role in the acute rejection of MHC class II-disparate skin allografts, mainly by Fas/Fas ligand-mediated cytotoxicity. Because recent observations indicate that eosinophils may be found within allografts rejected by CD4 T cells, we evaluated the role played by IL-5, the main eosinophil growth factor, and by eosinophils in the rejection of MHC class II-disparate skin grafts. C57BL/6 mice rapidly rejected MHC class II-disparate bm12 skin grafts. Rejected skins contained a dense, aggressive eosinophil infiltrate. Lymphocytes isolated from lymph nodes draining rejected bm12 skin were primed for IL-5 secretion, and IL-5 mRNA was present within rejected grafts. The IL-5/eosinophil pathway played an effector role in allograft destruction, because the rejection of bm12 skin was significantly delayed in IL-5-deficient mice as compared with wild-type animals. The role of the IL-5/eosinophil pathway was further investigated in MHC class II-disparate donor-recipient strains unable to establish Fas/Fas ligand interactions. Fas ligand-deficient gld/gld mice rejected bm12 skins, and bm12 mice rejected Fas-deficient lpr/lpr C57BL/6 skins. Neutralization of IL-5 prevented acute rejection in both combinations. We conclude that MHC class II-disparate skin allografts trigger an IL-5-dependent infiltration of eosinophils that is sufficient to result in acute graft destruction.     

Altered membrane proteins and permeability correlate with cardiac dysfunction in cardiomyopathic hamsters

A mutation in the delta-sarcoglycan (SG) gene with absence of delta-SG protein in the heart has been identified in the BIO14.6 cardiomyopathic (CM) hamster, but how the defective gene leads to myocardial degeneration and dysfunction is unknown. We correlated left ventricular (LV) function with increased sarcolemmal membrane permeability and investigated the LV distribution of the dystrophin-dystroglycan complex in BIO14.6 CM hamsters. On echocardiography at 5 wk of age, the CM hamsters showed a mildly enlarged diastolic dimension (LVDD) with decreased LV percent fractional shortening (%FS), and at 9 wk further enlargement of LVDD with reduction of %FS was observed. The percent area of myocardium exhibiting increased membrane permeability or membrane rupture, assessed by Evans blue dye (EBD) staining and wheat germ agglutinin, was greater at 9 than at 5 wk. In areas not stained by EBD, immunostaining of dystrophin was detected in CM hamsters at sarcolemma and T tubules, as expected, but it was also abnormally expressed at the intercalated discs; in addition, the expression of beta-dystroglycan was significantly reduced compared with control hearts. As previously described, alpha-SG was completely deficient in CM hearts compared with control hearts. In myocardial areas showing increased sarcolemmal permeability, neither dystrophin nor beta-dystroglycan could be identified by immunolabeling. Thus, together with the known loss of delta-SG and other SGs, abnormal distribution of dystrophin and reduction of beta-dystroglycan are associated with increased sarcolemmal permeability followed by cell rupture, which correlates with early progressive cardiac dysfunction in the BIO14.6 CM hamster.     

Functional and molecular effects of imidazoline receptor activation in heart failure

AimsHeart failure is a progressive deterioration in heart function associated with overactivity of the sympathetic nervous system. The benefit of inhibition of sympathetic activity by moxonidine, a centrally acting imidazoline receptor agonist, was questioned based on the outcome of a failing clinical trial. The following studies measured cardiac structure and hemodynamics and mechanisms underlying moxonidine-induced changes, in cardiomyopathic hamsters, where the stage of the disease, dose, and compliance were controlled.Main methodsMale BIO 14.6 hamsters (6 and 10 months old, with moderate and advanced heart failure, respectively) received moxonidine at 2 concentrations: low (2.4 mg/kg/day) and high (9.6 mg/kg/day), or vehicle, subcutaneously, for 1 month. Cardiac function was measured by echocardiography, plasma and hearts were collected for histological determination of fibrosis and apoptosis, as well as for measurement cytokines by Elisa and cardiac proteins by Western blotting.Key findingsCompared to age-matched vehicle-treated BIO 14.6, moxonidine did not reduce blood pressure but significantly reduced heart rate and improved cardiac performance. Moxonidine exerted anti-apoptotic effect with differential inflammatory/anti-inflammatory responses that culminate in attenuated cardiac apoptosis and fibrosis and altered protein expression of collagen types. Some effects were observed regardless of treatment onset, although the changes were more significant in the younger group. Interestingly, moxonidine resulted in upregulation of cardiac imidazoline receptors.SignificanceThese studies imply that in addition to centrally mediated sympathetic inhibition, the effects of moxonidine may, at least in part, be mediated by direct actions on the heart. Further investigation of imidazolines/imidazoline receptors in cardiovascular diseases is warranted.     

Effect of taurine on the lung collagen content in myopathic hamsters

The effect of taurine, Guanidino Ethyl Sulfonate (G.E.S.) and NaCl on the lung mass and collagen content in BIO 14.6 strain of the Syrian hamster was investigated. Lungs from healthy and cardiomyopathic hamsters showed no change in mass or collagen content as a result of the various treatments.     

Variable effect of anH-21 barrier on response to skin allografts in the mouse

(AQR×B10)F₁ mice were grafted with skin from donors differing in theK, I, KI, andISD regions of theH-2 complex. A dichotomy was observed in the fate of theH-2I-disparate grafts: either they were rejected acutely within the second week or were accepted indefinitely. Acceptances were much more common among male than female hosts. Acceptor status was limited to the I group, was unpredictable in occurrence, was not well-correlated with positive serum anti-Ia titers, and did not confer protection of grafts that were alike atH-2I but different atH-2K orH-2D. Since theH-2I barrier studied here elicited such divergent responses in genetically identical hosts, it is unlikely that any histocompatibility typing test could predict graft fate.Abbreviations used in this paper are MST median survival time - MHC major histocompatibility complex - CTL cytotoxic T lymphocyte - B10 C57 BL/10 - 6R BIO.T(6R) - B10.A BIO. ASn - H-2-Ia serologically detected antigens coded in theI region ofH-2 This term is used in preference toIa, since it has recently been shown that Ia-like alloantigens may be coded outside the MHC (Dickleret al. 1975).     

Worsening of cardiomyopathy using deflazacort in an animal model rescued by gene therapy

We have previously demonstrated that gene therapy can rescue the phenotype and extend lifespan in the delta-sarcoglycan deficient cardiomyopathic hamster. In patients with similar genetic defects, steroids have been largely used to slow down disease progression. Aim of our study was to evaluate the combined effects of steroid treatment and gene therapy on cardiac function. We injected the human delta-sarcoglycan cDNA by adeno-associated virus (AAV) 2/8 by a single intraperitoneal injection into BIO14.6 Syrian hamsters at ten days of age to rescue the phenotype. We then treated the hamsters with deflazacort. Treatment was administered to half of the hamsters that had received the AAV and the other hamsters without AAV, as well as to normal hamsters. Both horizontal and vertical activities were greatly enhanced by deflazacort in all groups. As in previous experiments, the AAV treatment alone was able to preserve the ejection fraction (70±7% EF). However, the EF value declined (52±14%) with a combination of AAV and deflazacort. This was similar with all the other groups of affected animals. We confirm that gene therapy improves cardiac function in the BIO14.6 hamsters. Our results suggest that deflazacort is ineffective and may also have a negative impact on the cardiomyopathy rescue, possibly by boosting motor activity. This is unexpected and may have significance in terms of the lifestyle recommendations for patients.     

Identification and characterization of a novel biotin biosynthesis gene in Saccharomyces cerevisiae

Yeast Saccharomyces cerevisiae cells generally cannot synthesize biotin, a vitamin required for many carboxylation reactions. Although sake yeasts, which are used for Japanese sake brewing, are classified as S. cerevisiae, they do not require biotin for their growth. In this study, we identified a novel open reading frame (ORF) in the genome of one strain of sake yeast that we speculated to be involved in biotin synthesis. Homologs of this gene are widely distributed in the genomes of sake yeasts. However, they are not found in many laboratory strains and strains used for wine making and beer brewing. This ORF was named BIO6 because it has 52% identity with BIO3, a biotin biosynthesis gene of a laboratory strain. Further research showed that yeasts without the BIO6 gene are auxotrophic for biotin, whereas yeasts holding the BIO6 gene are prototrophic for biotin. The BIO6 gene was disrupted in strain A364A, which is a laboratory strain with one copy of the BIO6 gene. Although strain A364A is prototrophic for biotin, a BIO6 disrupted mutant was found to be auxotrophic for biotin. The BIO6 disruptant was able to grow in biotin-deficient medium supplemented with 7-keto-8-amino-pelargonic acid (KAPA), while the bio3 disruptant was not able to grow in this medium. These results suggest that Bio6p acts in an unknown step of biotin synthesis before KAPA synthesis. Furthermore, we demonstrated that expression of the BIO6 gene, like that of other biotin synthesis genes, was upregulated by depletion of biotin. We conclude that the BIO6 gene is a novel biotin biosynthesis gene of S. cerevisiae.     

Verapamil induced reduction of the myocardial β-adrenoceptor density in BIO 14.6 cardiomyopathic Syrian hamsters

In general, it is recognized that prolonged exposure to catecholamine leads to a reduction in the -adrenoceptor density (downregulation). However, it has been previously reported that the myocardial -adrenoceptor densities and norepinephrine levels significantly increase in the hearts of BIO 14.6 cardiomyopathic hamsters in the early stage. The mechanism of the increased -adrenoceptor density is not clearly elucidated, and it can not be excluded that this phenomenon may be a secondary effect. The purpose of this study was to assess the effect of verapamil on the density of -adrenoceptors in the heart of BIO 14.6 cardiomyopathic hamsters. The total number of -adrenoceptors in untreated BIO 14.6 hamsters was significantly higher at 90 days of age (30.4±2.2 v.s. 25.9±1.4 fmol/mg protein, p<0.05). BIO 14.6 hamsters received daily intraperitoneal injections of 5 mg/kg verapamil for 70 days, from an age of 20 days. Verapamil protected against progressive myocardial damage (total damage; 8.2±0.7 v.s. 0.4±0.2%/area, p<0.05) and the myocardial -adrenoceptor density returned to that of the normal control group (26.9±3.0 fmol/mg protein). Conversely, verapamil did not have an effect on the number of myocardial -adrenoceptors in normal golden hamsters. This study showed that verapamil protected against progressive myocardial damage and myocardial -adrenoceptor density returned to those of normal hamsters. These results suggest that an increased number of -adrenoceptors in the early stage of BIO 14.6 cardiomyopathic hamsters may be involved in the secondary pathogenesis of cardiomyopathy.     

The reacquisition of biotin prototrophy in Saccharomyces cerevisiae involved horizontal gene transfer, gene duplication and gene clustering

The synthesis of biotin, a vitamin required for many carboxylation reactions, is a variable trait in Saccharomyces cerevisiae. Many S. cerevisiae strains, including common laboratory strains, contain only a partial biotin synthesis pathway. We here report the identification of the first step necessary for the biotin synthesis pathway in S. cerevisiae. The biotin auxotroph strain S288c was able to grow on media lacking biotin when BIO1 and the known biotin synthesis gene BIO6 were introduced together on a plasmid vector. BIO1 is a paralog of YJR154W, a gene of unknown function and adjacent to BIO6. The nature of BIO1 illuminates the remarkable evolutionary history of the biotin biosynthesis pathway in S. cerevisiae. This pathway appears to have been lost in an ancestor of S. cerevisiae and subsequently rebuilt by a combination of horizontal gene transfer and gene duplication followed by neofunctionalization. Unusually, for S. cerevisiae, most of the genes required for biotin synthesis in S. cerevisiae are grouped in two subtelomeric gene clusters. The BIO1-BIO6 functional cluster is an example of a cluster of genes of "dispensable function," one of the few categories of genes in S. cerevisiae that are positionally clustered.     

Cytochrome P-450 and hepatic drug biotransformation during progressive cardiac disease in cardiomyopathic hamsters.

Reductions in cytochrome P-450 levels and aminopyrine N-demethylase activity of hepatic microsomes obtained from cardiomyopathic hamsters (BIO 14.6) occurred at all stages of the disease before the development of congestive heart failure (CHF). Cytochrome b5 levels were reduced only in animals with CHF when compared with age-matched controls (BIO.RB). Total microsomal protein and p-nitrophenol glucuronidation were not affected by the disease process. We conclude that the reduction in cytochrome P-450 levels and N-demethylase activity in cardiomyopathic hamsters is not a consequence of CHF, but is one of the manifestations of the disease process.     

H-Y antigen: No evidence for alleles in wild strains of mice

H-Y antigen(s) coded or controlled by the Y chromosome in a variety of wild mouse strains have been compared with those of the inbred laboratory strains C57BL/6 (B6) and C57BL/10 (B10). H-Y antigen(s) were detected by H-2-restricted cytotoxic T cells from B6 and B10 female mice primed in vivo and boosted in vitro with syngeneic male spleen cells: There was no difference in the degree of H-Y specific lysis of male cells from the C57BL strains and of F₁ hybrids or B6 congenic mice carrying the Y chromosome from the wild mouse strains examined. This result indicated that at the level of target cell specificity the H-Y antigen(s) from wild and laboratory strains were indistinguishable. H-Y antigen(s) were also found to be indistinguishable at the level of the in vitro induction of the anti H-Y cytotoxic response: F₁ female mice, primed in vivo and boosted in vitro with homologous F₁ male cells, all made H-Y-specific responses and where it could be examined, the target cell specificity of the anti-H-Y cytotoxic cells showed that B10 male cells as well as the homologous F₁ male cells (where the Y chromosome was derived from the wild strain) were good targets. Finally, possible differences in H-Y transplantation antigens between the wild strains and the B10 laboratory strain were examined by grafting F₁ male mice, the progeny of B10 females, and wild strain males with B10 male skin. These grafts were not rejected during an observation period of more than 9 months. Taken together, neither the cytotoxic data nor the skin graft data provide any evidence for allelism of H-Y even though the mouse strains examined were collected from widely disparate geographical locations.     

Increased contractility in vascular smooth muscle of dystrophic hamsters

To investigate the "vascular" hypothesis of muscular dystrophy, the sensitivity and contractility of aortic spiral strips of dystrophic (BIO 14.6) and normal (FIB) hamsters have been determined to various smooth muscle agonists. The results obtained with cumulative dose-response curves show that there is no increase in the sensitivity of the dystrophic compared with the normal aorta to noradrenaline, phenylephrine, isoproterenol, histamine, or 5-hydroxytryptamine. However, there was a significant increase in the force generated by aortic strips of the dystrophic animals to all agonists. Determination of noncollagen and collagen protein showed that there was no difference in the relative proportions of these proteins in the aortas from the two strains. The results show that in this animal model of dystrophy an increased response to vasopressor amines occurs and is in accordance with that expected of the vascular hypothesis.     

Liver tissue graft rejection in murine major histocompatibility complex mutants

Liver tissue grafts between seven H-2 mutants and their parental strains have been studied. Each of these mutants was originally identified by reciprocal mutant—parental strain skin graft rejection. However, liver grafts among mutants and parental standard strains are not uniformly rejected. Liver graft rejection also fails to correlate with mutant—parental stimulation in CML and MLC. In addition, the immune reaction pattern of female mutant animals against grafts of male liver differs from the reaction pattern found in parental standard strains. Several explanations for the differences between immune response to liver and skin grafts are proposed, including different T cell subsets involved in recognition, availability of antigenic sites to immunocompetent cells, and structural differences between mutant and parental H-2 antigens. Abbreviations used in this paper: bml, 2, 3, 4,14; dml; fm2=mutants of strains C57BL/6, B10.D2 and B10.M respectively; B6=C57BL/6