CD36 (SR-B2) as a Target to Treat Lipid Overload-Induced Cardiac Dysfunction

The heart faces the challenge of adjusting the rate of fatty acid uptake to match myocardial demand for energy provision at any given moment, avoiding both too low uptake rates, which could elicit an energy deficit, and too high uptake rates, which pose the risk of excess lipid accumulation and lipotoxicity. The transmembrane glycoprotein cluster of differentiation 36 (CD36), a scavenger receptor (B2), serves many functions in lipid metabolism and signaling. In the heart, CD36 is the main sarcolemmal lipid transporter involved in the rate-limiting kinetic step in cardiac lipid utilization. The cellular fatty acid uptake rate is determined by the presence of CD36 at the cell surface, which is regulated by subcellular vesicular recycling from endosomes to the sarcolemma. CD36 has been implicated in dysregulated fatty acid and lipid metabolism in pathophysiological conditions, particularly high-fat diet-induced insulin resistance and diabetic cardiomyopathy. Thus, in conditions of chronic lipid overload, high levels of CD36 are moved to the sarcolemma, setting the heart on a route towards increased lipid uptake, excessive lipid accumulation, insulin resistance, and eventually contractile dysfunction. Insight into the subcellular trafficking machinery of CD36 will provide novel targets to treat the lipid-overloaded heart. A screen for CD36-dedicated trafficking proteins found that vacuolar-type H⁺-ATPase and specific vesicle-associated membrane proteins, among others, were uniquely involved in CD36 recycling. Preliminary data suggest that these proteins may offer clues on how to manipulate myocardial lipid uptake, and thus could be promising targets for metabolic intervention therapy to treat the failing heart.

Analyses of exercise-induced muscle damage-specific microRNA expression and molecular target of sarcolemmal damage in rats / 生理学报

In the present study, we were to screen the specific microRNA (miRNA) of exercise-induced muscle damage (EIMD) and assess the EIMD-specific miRNAs-regulated target of sarcolemmal damage in rats. Twenty-four male Sprague-Dawley (SD) rats were randomly divided into 3 groups, which included sedentary (C), 24 h post-exercise (E24) and 48 h post-exercise (E48) groups. Rat EIMD model was established by an acute eccentric exercise, i.e., a downhill running treatment at -16º gradient. EIMD characteristics were verified by Evans blue dye staining, differentially expressed miRNAs were detected by microarray assay, EIMD-specific miRNAs expressions were further validated by real-time quantitative RT-PCR (RT-qPCR), and targets of the miRNAs were predicted based on mRNA expressions of associated proteins and related pathway core molecules of sarcolemmal damage. Two EIMD-specific expressed miRNAs, including miR-206-3p and miR-139-3p, were found in the study. There was a significantly negative correlation (P < 0.05) between miR-206-3p expression and dystrophin (r = -0.68), utrophin (r = -0.64), JNK (r = -0.62) or ERK1 (r = -0.68) respectively, but no correlation was found between miR-139-3p and these biomolecules. The results suggest that: i) the expression profile of miRNAs in rat is significantly affected by EIMD, ii) miR-206-3p and miR-139-3p are the EIMD-specific miRNAs, and iii) miR-206-3p may control sarcolemmal damage by regulating dystrophin, utrophin, JNK and ERK1.

Cap Myopathy With a Heterozygous TPM3 Missense Mutation

Cap myopathy is pathologically characterized by cap structures comprising well-demarcated areas under the sarcolemma and containing deranged myofibrils and scattered Z-disks. Clinically it presents with slowly progressive muscle weakness, myopathic face, and frequent respiratory insufficiency. Four genes have been reported to be associated with the disease: TPM2, TPM3, ACTA1, and NEB. Here we describe that a patient presenting with mild limb weakness with facial affection showed cap structures on muscle pathology and carried a heterozygous TPM3 mutation.

Esophageal mucosal resection versus esophagectomy: a comparative study of surgical results in patients with advanced megaesophagus / Mucosectomia esofágica versus esofagectomia: estudo comparativo dos resultados cirúrgicos imediatos e tardios em pacientes operados por megaesôfago avançado

BACKGROUND: The surgical treatment of advanced megaesophagus has no consensus, being esophagectomy the more commonly used method. Since it has high morbimortality - inconvenient for benign disease -, in recent years an alternative has been introduced: the esophageal mucosal resection. AIM: To compare early and late results of the two techniques evaluating the operative time, length of ICU stay; postoperative hospitalization; total hospitalization; intra- and postoperative complication rates; mortality; and long-term results. METHODS: Were evaluated retrospectively 40 charts, 23 esophagectomies and 17 mucosectomies. In assessing postoperative results, interviews were conducted by using a specific questionnaire. RESULTS: Comparing the means of esophagectomy and mucosal resection, respectively, the data were: 1) surgical time - 310.2 min and 279.7 min (p> 0.05); 2) length of stay in ICU - 5 days and 2.53 days (p <0.05); 3) total time of hospitalization - 24.25 days and 20.76 days (p> 0.05); 4) length of hospital stay after surgery - 19.05 days and 14.94 days (p> 0.05); 5) presence of intraoperative complications - 65% and 18% (p <0.05); 6) the presence of postoperative complications - 65% and 35% (p> 0.05). In the assessment of late postoperative score (range 0-10) esophagectomy (n = 5) obtained 8.8 points and 8.8 points also got mucosal resection (n = 5). CONCLUSIONS: Esophageal mucosal resection proved to be good alternative for surgical treatment of megaesophagus. It was advantageous in the immediate postoperative period by presenting a lower average time in operation, the total hospitalization, ICU staying and complications rate. In the late postoperative period, the result was excellent and good in both operations. .

RACIONAL: O tratamento cirúrgico do megaesôfago avançado não é consensual sendo mais comumente usada a esofagectomia. Por tratar-se de técnica que apresenta maior morbimortalidade e empregada em doença benigna, foi introduzida nos últimos anos, como alternativa, a mucosectomia esofágica. OBJETIVO: Comparar os resultados imediatos e tardios das duas técnicas avaliando-se os tempos operatório, de internação em UTI, de internação do pós-operatório, de internação total; taxas de complicações intra-operatórias e pós-operatórias; taxa de mortalidade; e resultados a longo prazo. MÉTODOS: Foram avaliados 40 prontuários, retrospectivamente, sendo 23 esofagectomias e 17 mucosectomias. Na avaliação dos resultados pós-operatórios, foram realizadas entrevistas, mediante uso de questionário específico. RESULTADOS: Comparando-se as médias da esofagectomia e mucosectomia, respectivamente, os dados foram: 1) tempo cirúrgico - 310,2 min e 279,7 min (p>0,05); 2) tempo de internação em UTI - 5 dias e 2,53 dias (p<0,05); 3) tempo de internação total - 24,25 dias e 20,76 dias (p>0,05); 4) tempo de internação após a operação - 19,05 dias e 14,94 dias (p>0,05); 5) presença de complicações intra-operatórias - 65% e 18% (p<0,05); 6) presença de complicações pós-operatórias imediatas - 65% e 35% (p>0,05). Na avaliação do escore pós-operatório tardio (escala 0-10) a esofagectomia (n=5) obteve 8,8 pontos e também 8,8 pontos obteve a mucosectomia (n=5). CONCLUSÕES: A mucosectomia esofágica mostrou-se boa alternativa no tratamento cirúrgico do megaesôfago avançado. Foi vantajosa no pós-operatório imediato por apresentar menor média de tempo na operação, na internação total, na UTI e no índice de complicações. No pós-operatório tardio, o resultado foi excelente e bom nas duas operações. .

Effects of tamoxifen on CD147 glycosylation and MMPs in the diabetic rat myocardium / 中国应用生理学杂志

<p><b>OBJECTIVE</b>Over the last few decades, diabetic cardiomyopathy has been identified as a significant contributor in cardiac morbidity. However, the mechanisms of diabetic cardiomyopathy have not been clarified.</p><p><b>METHODS</b>In the present study, a diabetic rat model was induced by the intraperitoneal injection of streptozotocin. The myocardial CD147 expression and extent of glycosylation, as well as thematrixmetalloproteinases(MMPs) expression and activity, were observed in the diabetic and synchronous rats.</p><p><b>RESULTS</b>The results showed that CD147 located on sarcolemma of cardiomyocytes. The myocardial CD147 expression and glycosylation were significantly increased in the diabetic rats as compared with the control. Expression of MMP-2 protein, MMP-2 and MMP-9 activity were also increased in left ventricular myocardium in the diabetic rats. Tamoxifen only inhibited the enhanced expression of myocardial CD147 in the diabetic rats, but not in synchronous control rats. Tamoxifen inhibited glycosylation of myocardial CD147 in both diabetic and control rats. The inhibition of tamoxifen on CD147 glycosylation was stronger than on the expression in the myocardium. The extent of myocardial CD147glycosylation was positively related toMMP-2 and MMP-9 activity. Tamoxifen induced an inhibition of myocardial MMP-2 and MMP-9 activity in the control and diabetic rats.</p><p><b>CONCLUSION</b>These results indicate that myocardial CD147 expression, especially the extent of glycosylation, regulates MMP-2 and MMP-9 activity, then accelerates cardiac pathological remodeling inducing diabetic cardiomyopathy. Tamoxifen inhibits myocardial CD147 glycosylation and further depress the activity of MMPs. Therefore, tamoxifen may protect the diabetic rats against diabetic myocardium.</p>

Expression levels of sarcolemmal membrane repair proteins following prolonged exercise training in mice.

Membrane repair is a conserved cellular process, where intracellular vesicles translocate to sites of plasma membrane injury to actively reseal membrane disruptions. Such membrane disruptions commonly occur in the course of normal physiology, particularly in skeletal muscles due to repeated contraction producing small tears in the sarcolemmal membrane. Here, we investigated whether prolonged exercise could produce adaptive changes in expression levels of proteins associated with the membrane repair process, including mitsugumin 53/tripartite motif-containing protein 72 (MG53/TRIM72), dysferlin and caveolin-3 (cav3). Mice were exercised using a treadmill running protocol and protein levels were measured by immunoblotting. The specificity of the antibodies used was established by immunoblot testing of various tissue lysates from both mice and rats. We found that MG53/TRIM72 immunostaining on isolated mouse skeletal muscle fibers showed protein localization at sites of membrane disruption created by the isolation of these muscle fibers. However, no significant changes in the expression levels of the tested membrane repair proteins were observed following prolonged treadmill running for eight weeks (30 to 80 min/day). These findings suggest that any compensation occurring in the membrane repair process in skeletal muscle following prolonged exercise does not affect the expression levels of these three key membrane repair proteins.

Sarcolemma tissue of prepubertal concealed penis: pathological characterization and clinical implication / 中华男科学杂志

<p><b>OBJECTIVE</b>To evaluate the histopathological characteristics and clinical implication of sarcolemma tissue in prepubertal concealed penis.</p><p><b>METHODS</b>After measurement of the penile length, 10 prepubertal children with congenital concealed penis underwent modified Devine's operation (treatment group), and another 10 normal prepubertal children received circumcision (control group). The anatomic features of the penile sarcolemma tissue was observed intraoperatively, and its fibrosis was evaluated by Masson trichrome staining.</p><p><b>RESULTS</b>The penile length of the treatment group was significantly shorter than that of the control group preoperatively ([1.49 +/- 0.17 ] cm vs [4.26 +/- 0.23 ] cm, P < 0.01). The degree of penile concealment was correlated with the distal point of the attachment of its sarcolemma fibrous tissue: the closer the distal attachment point was to the coronary ditch, the more serious was penile concealment. The proportion of the area of collagen fibers in the penile sarcolemma tissue was significantly higher in the treatment group than in the control ([65.6 +/- 6.9]% vs [37.1 +/- 4.7]%, P < 0.01).</p><p><b>CONCLUSION</b>Sarcolemma fibrosis was obvious in congenital concealed penis, and the key to its management is drastic removal of all the fibrous sarcolemma tissue.</p>

Mercury Promotes Catecholamines Which Potentiate Mercurial Autoimmunity and Vasodilation: Implications for Inositol 1,4,5-Triphosphate 3-Kinase C Susceptibility in Kawasaki Syndrome

Previously, we reviewed biological evidence that mercury could induce autoimmunity and coronary arterial wall relaxation as observed in Kawasaki syndrome (KS) through its effects on calcium signaling, and that inositol 1,4,5-triphosphate 3-kinase C (ITPKC) susceptibility in KS would predispose patients to mercury by increasing Ca2+ release. Hg2+ sensitizes inositol 1,4,5-triphosphate (IP3) receptors at low doses, which release Ca2+ from intracellular stores in the sarcoplasmic reticulum, resulting in delayed, repetitive calcium influx. ITPKC prevents IP3 from triggering IP3 receptors to release calcium by converting IP3 to inositol 1,3,4,5-tetrakisphosphate. Defective IP3 phosphorylation resulting from reduced genetic expressions of ITPKC in KS would promote IP3, which increases Ca2+ release. Hg2+ increases catecholamine levels through the inhibition of S-adenosylmethionine and subsequently catechol-O-methyltransferase (COMT), while a single nucleotide polymorphism of the COMT gene (rs769224) was recently found to be significantly associated with the development of coronary artery lesions in KS. Accumulation of norepinephrine or epinephrine would potentiate Hg2+-induced calcium influx by increasing IP3 production and increasing the permeability of cardiac sarcolemma to Ca2+. Norepinephrine and epinephrine also promote the secretion of atrial natriuretic peptide, a potent vasodilator that suppresses the release of vasoconstrictors. Elevated catecholamine levels can induce hypertension and tachycardia, while increased arterial pressure and a rapid heart rate would promote arterial vasodilation and subsequent fatal thromboses, particularly in tandem. Genetic risk factors may explain why only a susceptible subset of children develops KS although mercury exposure from methylmercury in fish or thimerosal in pediatric vaccines is nearly ubiquitous. During the infantile acrodynia epidemic, only 1 in 500 children developed acrodynia whereas mercury exposure was very common due to the use of teething powders. This hypothesis mirrors the leading theory for KS in which a widespread infection only induces KS in susceptible children. Acrodynia can mimic the clinical picture of KS, leading to its inclusion in the differential diagnosis for KS. Catecholamine levels are often elevated in acrodynia and may also play a role in KS. We conclude that KS may be the acute febrile form of acrodynia.

The qualitative effects of resveratrol and coenzyme Q10 administration on the gluteus complex muscle morphology of SJL/J mice with dysferlinopathy / Efectos cualitativos de la administración de resveratrol y coenzima Q10 en la morfología del complejo muscular glúteo de ratones SJL/J con disferlinopatía

Dysferlinopathy is a form of muscular dystrophy affecting muscles of the shoulder and pelvic girdles, resulting from inheritance of a mutated dysferlin gene. The encoded dysferlin protein is proposed to be involved in sarcolemmal vesicle fusion with a disrupted plasma membrane; however, with defective protein function these vesicles accumulate beneath the disruption site but are unable to fuse with it and reseal the membrane, thus rendering the membrane repair mechanism defective. The SJL/J mouse model presents with characteristics much like the commonest human condition. Immune modulators have long been under study in the maintenance of muscle health in muscular dystrophies. Such supplementary treatment would ideally suppress inflammation, preventing the immune response toward degenerating muscle from causing additional muscle fiber death, and thus provide a mechanism by which to prolong the life of muscle fibers with inherently defective healing apparatus. For this purpose the anti-inflammatory supplement resveratrol and the membrane-protective supplement coenzyme Q10 were administered separately and in combination to experimental animals to determine their effectiveness in possible therapy of dysferlinopathy. The findings of this study report that low doses of resveratrol and coenzyme Q10 supplementation in exclusivity were unable to afford much protection to muscle fibers at the tissue level. High doses of coenzyme Q10 proved more effective in reducing attenuating inflammation; and combination treatment with resveratrol and coenzyme Q10 provided not only the membrane-protective effects of coenzyme Q10, but also the anti-inflammatory effects of resveratrol which failed to materialize at sufficient levels in exclusive administration.

Disferlinopatía es una forma de distrofia muscular que afecta a los músculos de los hombros y cintura pélvica, resultado de la herencia y mutación del gen de la distrofina. Sugerimos que la proteína codificada distrofina que integra la estructura sarcolemal con una membrana plasmática interrumpida, que al presentar una proteína defectuosa, las estructuras se acumulan debajo del sitio de alteración sin lograr fundirse con éste y cerrar la membrana afectando el mecanismo de reparación. El modelo de ratón SJL / J se presenta con características muy similares a una condición humana común. Los inmunomoduladores han sido objeto de estudio en el mantenimiento de la salud muscular en las distrofias musculares. Este tipo de tratamiento suplementario puede ser ideal para suprimir la inflamación, en la prevención de la respuesta inmune en la degeneración muscular causando la muerte adicional de fibra muscular, y al mismo tiempo proporcionar, un mecanismo con el cual prolongar la vida útil de aquellas fibras musculares con el aparato de sanación comprometido. Para ello, el Resveratrol suplemento anti-inflamatorio y el suplemento protector de membrana coenzima Q10 se administró por separado y en combinación en los animales de laboratorio para determinar su efectividad en el tratamiento de posible disferlinopatía. Los resultados de este estudio indican que el Resveratrol en menor dosis y la coenzima Q 10 administrados como suplementos de manera exclusiva, no demostraron efectos de protección de las fibras musculares a nivel del tejido. Una alta dosis de coenzima Q10 demostró ser más efectiva en la reducción de la inflamación; adicionalmente, el tratamiento combinado de Resveratrol y coenzima Q10 proporcionó efectos protectores de membrana, además de los efectos anti-inflamatorios del Resveratrol cuyo nivel no alcanzó la efectividad suficiente al ser administrado en forma exclusiva.

Changes of dystrophin and desmin in rat gastrocnemius under micro-damage induced by hypoxia / 生理学报

To explore the changes and regulation mechanism of dystropin and desmin under muscle injury without mechanic stress, 40 male Sprague-Dawley rats were randomly divided into 5 groups, which included normoxia control and hypoxia groups for 1, 2, 4 and 7 d with 10% O2. Two rats from each group were examined for sarcolemma integrity using Evans blue dye (EBD) and EBD-positive fiber typing by metachromatic dye-ATPase method. The rest six rats from each group were analyzed for the changes of protein content and gene expression using Western blot, RT-PCR and fluorescence assays. The results showed that the EBD-positive muscle fibers, mainly type IIA and type IIB, appeared at 1 d after hypoxia exposure. Both the ratio of EBD-positive cell and the mean fluorescence density were significantly higher in hypoxia groups than those in control group (P<0.05). The contents of dystrophin and desmin fluctuated after hypoxia exposure, increased at 1 d, decreased at 2 d, increased dramatically again at 4 d, and returned to a normal level at 7 d. Consistently, the gene expression began to increase significantly after 2 d. The total activity of calpain was significantly higher in hypoxia groups at 1, 4 and 7 d. Significantly higher levels of HSP70 and HSP90 were also observed at 4 and 7 d, respectively (P<0.05). These results suggest that the mechanical stress is not the only cause of damage of sarcolemma membrane integrity. In contrast to eccentric contraction, hypoxia-induced muscle damage is not accompanied by the loss of dystrophin and desmin. The types of muscle fibers recruited by motor units and the activities of calpain may be important in hypoxia-induced damage of sarcolemma membrane integrity.

Obesity induces upregulation of genes involved in myocardial Ca2+ handling

Obesity is a complex multifactorial disorder that is often associated with cardiovascular diseases. Research on experimental models has suggested that cardiac dysfunction in obesity might be related to alterations in myocardial intracellular calcium (Ca2+) handling. However, information about the expression of Ca2+-related genes that lead to this abnormality is scarce. We evaluated the effects of obesity induced by a high-fat diet in the expression of Ca2+-related genes, focusing the L-type Ca2+ channel (Cacna1c), sarcolemmal Na+/Ca2+ exchanger (NCX), sarcoplasmic reticulum Ca2+ ATPase (SERCA2a), ryanodine receptor (RyR2), and phospholamban (PLB) mRNA in rat myocardium. Male 30-day-old Wistar rats were fed a standard (control) or high-fat diet (obese) for 15 weeks. Obesity was defined as increased percent of body fat in carcass. The mRNA expression of Ca2+-related genes in the left ventricle was measured by RT-PCR. Compared with control rats, the obese rats had increased percent of body fat, area under the curve for glucose, and leptin and insulin plasma concentrations. Obesity also caused an increase in the levels of SERCA2a, RyR2 and PLB mRNA (P < 0.05) but did not modify the mRNA levels of Cacna1c and NCX. These findings show that obesity induced by high-fat diet causes cardiac upregulation of Ca2+ transport_related genes in the sarcoplasmic reticulum.

Effects of strophanthidin on intracellular calcium concentration in ventricular myocytes of guinea pig / 药学学报

Effect of strophanthidin (Str) on intracellular calcium concentration ([Ca2+]i) was investigated on isolated ventricular myocytes of guinea pig. Single ventricular myocytes were obtained by enzymatic dissociation technique. Fluorescent signal of [Ca2+]i was detected with confocal microscopy after incubation of cardiomycytes in Tyrode' s solution with Fluo3-AM. The result showed that Str increased [Ca2+]i in a concentration-dependent manner. The ventricular myocytes began to round-up into a contracture state once the peak level of [Ca2+]i was achieved in the presence of Str (10 micromol L(- 1)), but remained no change in the presence of Str (1 and 100 nmol L(-1)). Tetrodotoxin (TTX), nisodipine, and high concentration of extracellular Ca2+ changed the response of cardiomycytes to Str (1 and 100 nmol L(-1)) , but had no obvious effects on the action of Str (10 micromol L(-1)). The elevation of [Ca2+]i caused by Str at all of the detected concentrations was partially antagonized by rynodine (10 micromol L(-1)) or the removal of Ca2+ from Tyrode's solution. In Na+, K+ -free Tyrode' s solution, the response of cardiomycytes in [Ca2+]i elevation to Str (10 micromol L(-1)) was attenuated, while remained no change to Str (1 and 100 nmol L(-1)). TTX, nisodipine, and high concentration of extracellular Ca2+ changed the response of cardiomycytes to Str at all of the detected concentrations in Na+, K+ -free Tyrode's solution. The study suggests that the elevation of [Ca2+]i by Str at the low (nomomolar) concentrations is partially mediated by the extracellular calcium influx through Ca2+ channel or a "slip mode conductance" of TTX sensitive Na+ channel. While the effect of Str at high (micromolar) concentrations was mainly due to the inhibition of Na+, K+ -ATPase. Directly triggering the release of intracellular Ca2+ from sarcoplasmic reticulum (SR) by Str may be also involved in the mechanism of [Ca2+]i elevation.

Plasticidad muscular y técnicas de elongación: I parte: bases biológicas del acortamiento / Muscle plasticity and stretching techniques. Part I: biological basis of shortening

En esta serie de dos partes, se revisan y relacionan los aspectos: biomecánicos, neurofisiológicos, morfohistológicos y bioquímicos implicados tanto en el acortamiento como en la elongación muscular. El propósito es determinar y fundamentar, basado en la mejor evidencia disponible, algunos de los parámetros más eficientes para ser aplicados en las Técnicas de Elongación. Para ello se usa como punto de referencia dos métodos: a) el basado en principios de Facilitación Neuromuscular Propioceptiva y b) el Stretching Global Activo, los que difieren en muchas variables. El análisis comparativo se centra en dos: a) el tiempo de mantención del estiramiento y b) la actividad contráctil del músculo a estirar, antes o durante el mismo; las conclusiones se presentarán en la II parte. Esta I parte de enfoca en el fenómeno del acortamiento muscular propiamente tal, concluyéndose que, desde el punto de vista Biomecánico, existen diferencias conceptuales entre cambios a corto plazo (el aumento de la rigidez pasiva) y a largo plazo (disminución de la longitud propiamente tal), que se explican por un comportamiento histológico diferente: lo primero se relaciona con la proliferación de Tejido Conectivo Intramuscular, específicamente perimisio; mientras que lo segundo se debe a una disminución del número de sarcómeros en serie. Esta pérdida de sarcómeros es una expresión de la capacidad plástica del músculo esquelético, para buscar la longitud óptima de cada sarcómero. Se cita además la nueva Hipótesis sobre la propiedad contráctil del perimisio, y su posible rol en el acortamiento.

Changes of sarcolemma Na+/K+ ATPase and sarcoplasmic reticulum membrane Ca2+ ATPase activity after stem cell transplantation in chronic heart failure / 生物医学工程学杂志

To assess the changes of sarcolemma Na+/K+ ATPase (CMNKA) and sarcoplasmic reticulum membrane Ca2+ ATPase (SERCA) activities after stem cells transplantation in heart failure. Rabbit was used as heart failure model by intravenously injecting adriamycin. Autologous bone marrow mononuclear cells (BMCs), bone marrow mesenchymal stem cells (MSCs) or skeletal myoblasts (SMs) were introduced into coronary arteies through the root of aorta when two balloons occluding just above sinus of Valsalva. After 4 weeks, left ventricular ejection fraction (LVEF)was evaluated by echocardiography, and the activities of CMNKA and SERCA were measured by colorimeter. In BMCs (n=8)and MSCs (n=8) group, LVEF were significantly improved (P < 0.05). No significant improvement were seen in SMs group (n=6) compared to sham group (n=8). The CMNKA activity in all stem cells groups was significantly increased compared to sham group (P < 0.05). Meanwhile, in comparison with sham group, the incremental tendencies of SERCA activity were seen in stem cells groups. In conclusion, stem cells transplantation could increase the activities of CMNKA and SERCA in heart failure, a possible mechanism to improve heart function.

Dysferlin Expression in Skeletal muscles of Patients with Myopathy and Cultured Human Myoblast/Myotube

BACKGROUND: Dysferlin is a 230 kDa protein of the sarcolemma. This encoding gene is mutated in patients with dysferlinopathy (limb-girdle muscular dystrophy 2B and Miyoshi myopathy), which is characterized byan active muscle degeneration and regeneration process. Dysferlin is known to play an essential role in muscle signaling and muscle fiber repair. We studied the gene to define its functional role in muscle repair and differentiation in human skeletal muscle of the patients with myopathies and cultured human myoblast. METHODS: An immunohistochemical analysis of dysferlin and N-CAM in biopsied muscle tissue obtained from eleven patients with myopathies [six patients with Duchenne muscular dystrophy (DMD), two patients with dermatomyositis (DM), two patients with polymyositis (PM), and one patient with dysferlinopathy (MM)] and eight normal controls. Cultured human myoblast obtained from normal muscle tissue was also analyzed by the expression of dysferlin through immunocytochemical staining and western blot. RESULTS: The immunoreactivity of dysferlin was strongly expressed in regenerative muscle fibers of myopathies except dysferlinpathy, which was co-localization with N-CAM by double immunohistochemistry. By western blot analysis, the expression level of dysferlin was variable in myopathies compared to normal controls, but no expression in dyferlinopathy. The expression of dysferlin in myotubes was significantly increased compared to that in myoblast by immunostaining and western blot analysis. CONCLUSIONS: These results indicated that the expression of dysferlin increased in regenerative and degenerative muscle fibers and also increased in myoblast differentiation. Our study supports that dysferlin not only has a role in skeletal muscle development but also in regeneration/repair process.

The Expression of Toll-like Receptors in Idiopathic Inflammatory Myopathies / 대한류마티스학회지

Objective: To investigate the expression of toll-like receptor (TLR)-2, 4 and 9 in idiopathic inflammatory myopathies (IIMs). Methods: The expression of TLR-2, 4 and 9 was measured by real-time RT-PCR and immunohistochemical stain (IHS) from muscle tissues in patients with IIMs and controls. Results: The expression levels of TLR-2, 4 and 9 in IIMs were significantly higher than controls. TLR-2, 4 and 9 were mainly expressed on sarcolemma of muscle fibers, perimysial vascular endothelium and infiltrating inflammatory cells in dermatomyositis, whereas, they were mainly expressed on sarcolemma of muscle fibers, destructed muscle fibers, and enodmysial infiltrating inflammatory cells in polymyositis. Conclusion: TLR-2, 4 and 9 were highly expressed in muscle tissue of IIMs. These results suggest that TLR-2, 4 and 9 play a role in pathogenesis of IIMs.

Calcium-transporters in myocardial cells.

This is a concise review of important calcium-transporters on the sarcolemma and organellar membranes of myocardial cells, and their functional roles in cell physiology. It briefly addresses L and T type calcium channels, store-operated calcium channel (SOC), sodium-calcium exchanger (NCX), and the plasma membrane calcium ATPase (PMCA) on the sarcolemma, ryanodine receptor (RyR), IP3 receptor (IP3R) and the sarcoplasmic reticulum (SR) calcium ATPase (SAERCA) on the SR membrane and their contributions to contraction and rhythm-generation. Several agonists and blockers for every transporter that are commonly used in research, and those with therapeutic applications have also been discussed.

Participación de Ca2+ en el precondicionamiento del miocardio por ejercicio / Role of Ca2+ in exercise induced myocardial preconditioning

Antecedentes: Episodios breves de ejercicio previos a la oclusión prolongada de una arteria coronaria disminuyen el tamaño del infarto inducido por ésta. Objetivo: Dado que la administración intracoronaria de Ca2+ induce precondicionamiento, y el ejercicio probablemente aumenta el calcio citosólico, decidimos estudiar si el precondicionamiento por ejercicio está mediado por Ca2+. Material y método: Para ello analizamos el efecto del bloqueo de los canales de calcio del sarcolema, con verapamilo, sobre la acción precondicionante del ejercicio. Se midió tamaño del infarto en perros entrenados a correr en cinta sin finasignados aleatoriamente a los siguientes grupos. I: Isquemia inducida por oclusión coronaria durante 1 hora seguida de reperfusión por 4 hrs. E+I: Similar al grupo I, pero los perros hicieron ejercicio antes de inducir la isquemia. V+I: Similar al grupo I, pero se administró verapamilo antes de inducir la isquemia. V+E+I : Similar al grupo E+I, pero se administró verapamilo antes del ejercicio. Para estudiar el posible rol mediador del retículo sarcoplasmático (RS) en los efectos de la isquemia y de verapamilo, se midió la captación y la liberación de calcio en vesículas de RS de la pared del ventrículo izquierdo sometida a isquemia con o sin verapamilo en perros con y sin precondicionamiento con ejercicio. Los resultados, expresados como promedio +/- ES, se analizaron mediante ANOVA seguido del test de Holm para comparaciones múltiples. Resultados: Verapamilo revirtió el efecto protector del ejercicio sobre el tamaño del infarto (E+I: 6,0 +/- 9,4; N=12 vs V+E+I: 27,7+/-9,6; N=15; P<0.05), pero no modificó el efecto protector del ejercicio precondicionante sobre los trastornos de transporte de calcio en el RS inducidos por la isquemia. Conclusiones: Nuestros resultados sugieren que el precondicionamiento inducido por ejercicio está mediado por la entrada de calcio a la célula...

Background: Brief episodes of exercise prior to a prolonged occlusion of a coronary artery substantially reduce infarct size. Aim: Since the intracoronary administration of Ca2+ induces preconditioning and exercise most likely increases cytosolic calcium we put forward the hypothesis that preconditioning by exercise is mediated by calcium. Methods: For this purpose we analyzed the effect of verapamil, a sarcolemmal calcium channel blocker, on preconditioning by exercise. We measured infarct size in dogs randomly assigned to one of the following groups. I: Ischemia induced by coronary occlusion during 1 hour followed by reperfusion during 4 hours. E+I: Similar to group I, but the dogs run on a treadmill prior to ischemia. V+I: Similar to group I but verapamil was administered before the coronary occlusion. V+E+I: Similar to group E+I but verapamil was administered before exercise. SR vesicles from ventricular tissue were isolated from dogs subjected to the same experimental protocols and calcium release and active calcium uptake were measured. Results were expressed as Mean +/- SE and analyzed by ANOVA followed by Holm test for multiple comparisons. Results: Verapamil reverted the protective effect of exercise on infarct size (E+I: 6,0 +/- 9,4; N=12 vs V+E+I: 27,7 +/- 9,6;N=15; P<0.05) however it did not modify the protective effect of exercise on the alterations produced by ischemia on calcium transport in the RS. Conclusions: These results suggest that the preconditioning effect of exercise is mediated by calcium entering the cell through the sarcolemma but not by exercise effects on SR calcium transport.

Molecular and Pathological Diagnosis of Muscular Dystrophies / 한양의대학술지

The muscular dystrophies are a diverse group of inherited muscle disorders characterized by progressive muscle weakness and wasting with characteristic histologic abnormalities such as degeneration, necrosis, and regeneration of muscle fibers. With progress in molecular genetics methods, new discoveries of dystrophin and related molecules have dramatically changed the understanding and diagnosis of a large group of muscular dystrophy patients. Dystrophin and its related molecular associates are tightly associated and form an essential cytoskeletal system (dystrophin-glycoprotein complex) at the muscle fiber surface membrane, which is critical for maintaining the integrity of the sarcolemma and muscle fibers. Deficiency of one of these sarcolemmal proteins, including dystrophin, dystroglycans, sarcoglycans, and laminin-2, leads to the breakdown and instability of muscle fibers and to clinically observed progressive muscle weakness. Identification of the molecular cause of muscular dystrophies would allow a genetic oriented classification and diagnosis using DNA or protein analysis. However, definition of the molecular pathogenesis of muscular dystrophies has not been completely possible until now. Future advances in this field should allow the exact diagnosis and treatment of muscular dystrophies.

Cell surface and gene expression regulation molecules in dystrophinopathy: mdx vs. Duchenne

Duchenne muscular dystrophy (DMD) is secondary to loss-of-function mutations in the dystrophin gene. The causes underlying the progression of DMD, differential muscle involvement, and the discrepancies in phenotypes among species with the same genetic defect are not understood. The mdx mouse, an animal model with dystrophin mutation, has a milder phenotype. This article reviews the available information on expression of signaling-related molecules in DMD and mdx. Extracellular matrix proteoglycans, growth factors, integrins, caveolin-3, and neuronal nitric oxide synthase expression do not show significant differences. Calcineurin is inconsistently activated in mdx, which is associated with lack of cardiomyopathy, compared to the permanent calcineurin activation in mdx/utrophin null mice that have a DMD-like cardiomyopathy. Levels of focal adhesion kinase (FAK) and extracellular regulated kinases (ERKs) differ among mdx and DMD. Further work is needed to identify the point of discrepancy in these signaling molecules' pathways in dystrophynopathies.