Double strand DNA breaks in C57B1 and mdx mice cardiomyocytes after dynamical stress

The survival of cardiac myocytes under different physiological and pathological conditions presents pressing problem. mdx mice cardiac myocytes are a promising model of cell survival under condition of oxidative stress. Our early results have shown that some part of mdx mice cardiomyocytes is in early stage of apoptosis (Kazakov, Mikhailov, 2001). But the development of cell death with loss of apoptotical cardiac myocytes occurs only after dynamical stress (bathing during 5 min) (Mikhailov et al., 2001). DNA endonuclease activity in the myocardium and low level of cardiac myocytes death during usual being of mdx mice allowed us to suggest DNA repair to be involved in the survival of mdx mice cardiac myocytes (Mikhailov et al., 2003). To confirm the suggestion we have studied the dynamics of formation and elimination of double strand DNA breaks in mdx myocardium cells after 5 min bathing at 12 degrees C. To visualise double strand DNA breaks formation cell nuclei were stained by monoclonal antibodies to phosphorylated H2Ax histone and to mouse PAP. Double staining with monoclonal anti-H2Ax antibodies and monoclonal anti-a-actin antibodies were used to separate cardiac myocytes from other myocardial cell types. The results showed that during 40 min after stress the deal of H2Ax-positive nuclei in mdx myocardium cells grew up to 41.7 +/- 11.4 % as compared with the initial control level of 6.7 +/- 0.2 %. The number of H2Ax-positive nuclei in these cells decreased after 24 h to 5.7 +/- 0.2 %. The quantity of tagged myocardium cell nuclei in C57B1/6 mice after stress was negligible and did not go beyond 0.01%. Dynamical stress also induced the increase in the rate of 3H-Thymidine incorporation by mdx mice cardiac myocytes from 0.3 +/- 0.3 up to 2.9 +/- 0.5 %. There was not change in the rate of 3H-Thymidine incorporation by cardiac myocytes in C57B1/6 mice. The numbers of labelled nuclei before and after stress were 0.2 and 0.3 %, correspondingly. The number of 3H-Thymidine labelled mdx cardiac myocytes fell down up to 0.4 +/- 0.2 % within 24 h after stress; the level of labelled C57B1/6 cardiac myocytes did not change. We have concluded that 3H-Thymidine incorporation into cardiac myocytes nuclei and staining of these nuclei by monoclonal antiboies phosphorylated H2Ax histone after stress demonstrate rather DNA repair than cardiomyocytes entry into the cell cycle.     

Ultrastructural and morphometrical analysis of apoptosis stages in cardiomyocytes of MDX mice

Our previous study of apoptosis in mdx mouse myocardium cells demonstrated the presence of middle-sized DNA fragments (60-65 kbp) in extracts of myocardium DNA, and irregular shape of membrane enveloped nuclei in cardiomyocytes. The DNA fragmentation (DNA laddering) was observed after biomechanical stress (5 min sweeming) only. Based on these results we concluded that the majority of cardiomyocytes were at the first stage of apoptosis. The purpose of this work was to provide some morphometrical quantitive characteristics of ultrastructural properties of the nuclei and mitochondria, and to determine morphological patterns of apoptosis in cardiomyocytes of mdx and C57B1 mice. To resolve the task, we made a morphometrical analysis of the electron microscope images of nuclei and mitochondria. First of all, we divided all nuclear images into three categories: normal, semi-pathological, and pathological forms according to the extent of nuclear membrane invaginations and that of condensed chromatin spreading. The most part of C57B1 cardiomyocyte nuclei belonged to the normal form (88.9 +/- 4.3%), while the smaller part (11.1 +/- 4.3%) was regarded as semi-pathological forms. Just a reverse was observed in mdx mice: the largest part of cardiomyocytes fell into category of semi-pathological (54.6 +/- 4.4%) and pathological (31.5 +/- 4.1%) forms while, the smallest part belonged to the normal form (13.8 +/- 3.0%). 24 h after biodynamic stress, the quantity of normal nuclei of C57B1 cardiomyocytes decreased to 61 +/- 5%, the number of semi-pathological nuclei increased to 39.0 +/- 4.4% (P < 0.05). The number of pathological nuclei of mdx, cardiomyocytes fell to 15.4 +/- 3.0% (P < 0.05). It means that mdx cardiomyocytes with pathological form of their nuclei disappear because of emerging the second, destructive stage of apoptosis. To estimate the degree of ultrastructural changes in the nuclei of all three forms of cardiomyocytes we counted the square/perimeter ratio in each nucleus (circle shape factor; CSF). The value of CSF for normal nuclei of all the forms of cardiomyocytes varied between 0.65 +/- 0.02 and 0.71 +/- 0.04. In semi-pathological and pathological nuclei a significant decrease in CSF to 0.56 +/- 0.02 and 0.56 +/- 0.03 was observed, respectively (P < 0.05). The biodynamical stress did not reduce the CSF value below this level. We also counted the ratio of the square to the product of a long and a short axes (ellipse shape factor; ESF). The ESF value for normal nuclei of all forms of cardiomyocytes varied between 0.97 +/- 0.01 and 0.99 +/- 0.01. In the case of mdx mice the biodynamical stress reduced ESF to 0.95 +/- 0.01 (P < 0.05) for pathological form of nuclei. The specific density of mitochondria in mdx cardiomyocytes (0.274 +/- 0.016) was less than that in C57B1 cardiomyocytes (0.329 +/- 0.018). At the destructive stage of apoptosis, the nuclei of cardiomyocytes were round in shape, the nuclear chromatin being hypercondensed, and mitochondria swollen. The cardiomyocyte morphology was in agreement with the definition of the final stage of apoptosis as secondary necrosis. Morphometrical results show that as many as 86-90% of nuclei of mdx cardiomyocytes have abnormal structure that confirms our conclusion that mdx cardiomyocytes were at the first stage of apoptosis. The final stage of apoptosis is rarely observed by biochemical or morphological methods. It suggests the presence of some inner mechanisms regulating the initiation of the final (destructive) stage of mdx cardiomyocyte apoptosis.     

Assessment of the ultrastructural and proliferative properties of human embryonic stem cell-derived cardiomyocytes

Assessment of early ultrastructural development and cell-cycle regulation in human cardiac tissue is significantly hampered by the lack of a suitable in vitro model. Here we describe the possible utilization of human embryonic stem cell (ES) lines for investigation of these processes. With the use of the embryoid body (EB) differentiation system, human ES cell-derived cardiomyocytes at different developmental stages were isolated and their histomorphometric, ultrastructural, and proliferative properties were characterized. Histomorphometric analysis revealed an increase in cell length, area, and length-to-width ratio in late-stage EBs (>35 days) compared with early (10-21 days) and intermediate (21-35 days) stages. This was coupled with a progressive ultrastructural development from an irregular myofibrillar distribution to an organized sarcomeric pattern. Cardiomyocyte proliferation, assessed by double labeling with cardiac-specific antibodies and either [3H]thymidine incorporation or Ki-67 immunolabeling, demonstrated a gradual withdrawal from cell cycle. Hence, the percentage of positively stained nuclei in early-stage cardiomyocytes ([3H]thymidine: 60 +/- 10%, Ki-67: 54 +/- 23%) decreased to 36 +/- 7% and 9 +/- 16% in intermediate-stage EBs and to <1% in late-stage cardiomyocytes. In conclusion, a reproducible temporal pattern of early cardiomyocyte proliferation, cell-cycle withdrawal, and ultrastructural maturation was noted in this model. Establishment of this unique in vitro surrogate system may allow to examine the molecular mechanisms underlying these processes and to assess interventions aiming to modify these properties. Moreover, the detailed characterization of the ES cell-derived cardiomyocyte may be crucial for the development of future cell replacement strategies aiming to regenerate functional myocardium.     

Transplantation of embryonic stem cell-derived cardiomyocytes improves cardiac function in infarcted rat hearts

BACKGROUND: Post-infarct congestive heart failure is one of the leading causes of morbidity and mortality in industrialized countries. The main purpose of this study was to investigate whether transplantation of embryonic stem cell-derived cardiomyocytes (ESCM) directly into the infarcted myocardium could improve cardiac function in rats. METHODS: Cell culture medium with or without ESCM was injected into the borders of cardiac scar tissue 1 week after experimental infarction. Cardiac performance was evaluated 4 weeks later by means of echocardiography after ESCM (n=16) or medium (n=12) injection. RESULTS: ESCM implantation significantly improved fractional shortening (31.5+/-3. 8%) compared with medium-treated hearts (21.3+/-5.2%; P<0.05) and preserved left ventricular structure. Co-localization of 4',6-diamidino-2-phenylindole-labeled nuclei of transplanted cells with cardiomyocyte markers for cardiac troponin T and connexin-43, as detected by immunofluorescent microscopy, indicated the regeneration of damaged myocardium and the formation of gap junctions between grafted and host cells. However, intra-myocardial teratomas were observed in the hearts of two of the 16 grafted animals, at the fourth week after ESCM transplantation. DISCUSSION: Our results suggest that, although ESCM implantation can improve the function of infarcted myocardium, strategies to prevent tumorigenesis should be developed.     

缺氧复氧时肥大心肌细胞凋亡及其与能量代谢途径转换的关系

心肌细胞凋亡是心肌肥大向心力衰竭转化的重要机制,因此,抑制肥大心肌细胞凋亡可能是防治心力衰竭的有 效药物靶点之一。本研究以0．1μmol／L血管紧张素Ⅱ和1 μmol／L去甲肾上腺素刺激培养心肌细胞,复制心肌细胞肥大模 型,用三气孵箱培养。缺氧条件是95％N2和5％CO2,控制氧分压低于5 mmHg以下,8 h后常氧培养,液闪计数法测 定丙酮酸脱氢酶(pyruvate dehydrogenase,PDH)和肉碱脂酰转移酶-1(carnitine palmitoyltransferase 1,CPT-1)活性,糖氧化、 糖酵解、脂肪酸氧化率,以及细胞凋亡百分率,分析肥大心肌细胞能量代谢变化与细胞凋亡间的关系。结果如下:(1)与 常氧培养比较,缺氧8 h后,活化型丙酮酸脱氢酶(PDHa)和CPT-1活性均有显著下降,但复氧早期肥大心肌细胞PDHa活 性有轻度进一步降低(P>0．05),而CPT-1活性却较快恢复。(2)缺氧时,正常和肥大心肌细胞葡萄糖氧化代谢率均有降低[分 别下降(16±0．9)％、(48±1．1)％];复氧时,正常心肌细胞糖氧化代谢较快恢复,而肥大心肌细胞在复氧早期,糖氧化 率进一步降低,此后才逐渐恢复。(3)在缺氧时,肥大心肌细胞糖酵解率仅轻度下降,但在复氧后糖酵解率迅速升高,呈 爆发样达峰值后又逐渐恢复到缺氧前水平。(4)肥大心肌细胞在缺氧后脂肪酸代谢明显降低,但复氧后脂肪酸代谢呈爆发式 上升,并大大高于缺血前的代谢水平。(5)缺氧时肥大心肌细胞凋亡率即显著增加,在复氧早期细胞凋亡率继续大幅度上 升,此后逐渐减少。(6)预先用二氯乙酸处理肥大心肌细胞,可显著逆转缺氧复氧导致的细胞糖氧化受抑、糖酵解和脂肪 酸代谢活化,同时,抑制细胞凋亡的发生。上述结果提示,缺氧复氧后的肥大心肌细胞能量代谢途径转换是导致细胞凋 亡的重要原因。     

Nuclear cardiac troponin and tropomyosin are expressed early in cardiac differentiation of rat mesenchymal stem cells

Nuclear actin - which is immunologically distinct from cytoplasmic actin - has been documented in a number of differentiated cell types, and cardiac isoforms of troponin I (cTnI) and troponin T (cTnT) have been detected in association with nuclei of adult human cardiac myocytes. It is not known whether these and related proteins are present in undifferentiated stem cells, or when they appear in cardiomyogenic cells following differentiation. We first tested the hypothesis that nuclear actin and cardiac isoforms of troponin C (cTnC) and tropomyosin (cTm) are present along with cTnI and cTnT in nuclei of isolated, neonatal rat cardiomyocytes in culture. We also tested the hypothesis that of these five proteins, only actin is present in nuclei of multipotent, bone marrow-derived mesenchymal stem cells (BM-MSCs) from adult rats in culture, but that cTnC, cTnI, cTnT and cTm appear early and uniquely following cardiomyogenic differentiation. Here we show that nuclear actin is present within nuclei of both ventricular cardiomyocytes and undifferentiated, multipotent BM-MSCs. We furthermore show that cTnC, cTnI, cTnT and cTm are not only present in myofilaments of ventricular cardiomyocytes in culture but are also within their nuclei; significantly, these four proteins appear between days 3 and 5 in both myofilaments and nuclei of BM-MSCs treated to differentiate into cardiomyogenic cells. These observations indicate that cardiac troponin and tropomyosin could have important cellular function(s) beyond Ca(2+)-regulation of contraction. While the roles of nuclear-associated actin, troponin subunits and tropomyosin in cardiomyocytes are not known, we anticipate that the BM-MSC culture system described here will be useful for elucidating their function(s), which likely involve cardiac-specific, Ca(2+)-dependent signaling in the nucleus.     

Nitric oxide reduces energy supply by direct action on the respiratory chain in isolated cardiomyocytes

To investigate the effect of nitric oxide (NO) on cardiac energy metabolism, isolated cardiomyocytes of Wistar rats were incubated in an Oxystat system at a constant ambient PO2 (25 mmHg) and oxygen consumption (VO2); free intracellular Ca(2+) (fura 2), free cytosolic adenosine [S-adenosylhomocysteine (SAH) method], and mitochondrial NADH (autofluorescence) were measured after application of the NO donor morpholinosydnonimine (SIN-1). In Na(+)-free medium (contracting cardiomyocytes), VO2 increased from 7.9 +/- 1.2 to 26.4 +/- 3.1 nmol x min(-1) x mg protein(-1). SIN-1 (100 micromol/l) decreased VO2 in contracting (-21 +/- 3%) and in quiescent cells (-24 +/- 7%) by the same extent. Inhibition of VO2 was dose dependent (EC(50): 10(-7) mol/l). S-nitroso-N-acetyl-penicillamine, another NO donor, also inhibited VO2, whereas SIN-1C (100 micromol/l), the degradation product of SIN-1, displayed no inhibitory effect. Intracellular Ca(2+) remained unchanged, and inhibition of protein kinases G, A, or C did not antagonize the effect of NO. Mitochondrial NADH increased with NO, indicating a reduced flux through the respiratory chain. In quiescent but not in contracting cardiomyocytes, NO significantly increased adenosine, indicating a reduced energy status. These data suggest the following. 1) NO decreases cardiac respiration, most likely via direct inhibition of the respiratory chain. 2) Whereas in quiescent cardiomyocytes the inhibition of aerobic ATP formation by NO causes reduction in energy status, contracting cells are able to compensate for the NO-induced inhibition of oxidative phosphorylation, maintaining energy status constant.     

Proliferation of cardiomyocytes and interstitial cells in the cardiac muscle of the mouse during pre- and postnatal development

Proliferation of cardiomyocytes and interstitial cells in the cardiac ventricle of the mouse during pre- and postnatal development was studied. Furthermore, the number of cardiomyocyte and interstitial cell nuclei per unit area was determined on histological sections. The labelling index of cardiomyocytes decreases from 23% on day 14 of gestation to about zero at 3 weeks after birth. The number of cardiomyocyte nuclei per unit area increases up to day 16 of gestation and then continuously declines. This coincides with the concept that the increase in size of the heart during early fetal life is mainly due to hyperplasia, while during late fetal life and after birth it is mainly, and during adult life exclusively, due to hypertrophy of cardiomyocytes. Proliferation of interstitial cells continues up to 5 days after birth and then decreases. The ratio of cardiomyocytes to interstitial cells decreases by a factor of about 10 between day 14 of gestation and 3 weeks after birth.     

Proliferation of Cardiomyocytes and Interstitial Cells In the Cardiac Muscle of the Mouse During Pre- and Postnatal Development

Proliferation of cardiomyocytes and interstitial cells in the cardiac ventricle of the mouse during pre- and postnatal development was studied. Furthermore, the number of cardiomyocyte and interstitial cell nuclei per unit area was determined on histological sections. The labelling index of cardiomyocytes decreases from 23% on day 14 of gestation to about zero at 3 weeks after birth. the number of cardiomyocyte nuclei per unit area increases up to day 16 of gestation and then continuously declines. This coincides with the concept that the increase in size of the heart during early fetal life is mainly due to hyperplasia, while during late fetal life and after birth it is mainly, and during adult life exclusively, due to hypertrophy of cardiomyocytes. Proliferation of interstitial cells continues up to 5 days after birth and then decreases. the ratio of cardiomyocytes to interstitial cells decreases by a factor of about 10 between day 14 of gestation and 3 weeks after birth.     

蛋白激酶C对自发性高血压大鼠肥大心肌细胞无负荷收缩功能的调节

在慢性压力超负荷引起心肌肥大过程中,蛋白激酶C(protein kinase C,PKC)的激活起关键性作用,激活的PKC也能调节心肌收缩性能.本文旨在研究自发性高血压大(spontaneously hypertensive rat,SHR)心肌肥大的不同阶段PKC调节心肌收缩性能的特征.采用胶原酶法分离4月龄与10月龄Wistar-Kyoto(WKY)、SHR大鼠的心肌细胞,观测单个心肌细胞无负荷缩短幅值以及在PKC激动剂与抑制剂作用下心肌收缩性能的变化.结果表明:刺激频率从1 Hz增至3 Hz,WKY大鼠心肌细胞无负荷缩短幅值逐渐增加,呈正阶梯效应;4月龄SHR大鼠心肌细胞的缩短幅值较WKY大鼠增强,但在各刺激频率下其缩短幅值基本保持不变;10月龄SHR大鼠心肌细胞的缩短幅值在1 Hz刺激条件下与WKY大鼠无差别,随刺激频率增加,缩短幅值降低,呈负阶梯效应.在PKC激动剂PMA灌流条件下,50、100与200 nmol/L的PMA分别降低WKY大鼠心肌细胞缩短幅值至(69.8±1.9)%、(58.2 2.2)%与(22.7±2.5)%(均P<0.01),呈浓度依赖关系;PMA对4月龄SHR大鼠心肌细胞缩短幅值的降低更明显,分别降至(6.1±0.7)%、(2.4±0.2)%与(12.5±2.6)%(均P<0.01);PMA降低10月龄SHR大鼠心肌细胞缩短幅值至(65.7±1.6)%、(53.9±4.0)%与(16.3±2.0)%(均P<0.01),小于对4月龄SHR大鼠心肌细胞缩短幅值的作用.PKC抑制剂staurosporine增加WKY大鼠心肌细胞缩短幅值,在200 nmol/L的staurosporine灌流条件下,WKY大鼠、4月龄SHR大鼠、10月龄SHR大鼠心肌细胞缩短幅值分别增JJH(63.63±4.53)%、(80.82±4.61)%、(80.97±4.59)%(均P<0.05).结果提示,在SHR大鼠心肌肥大初期,具有负性肌力作用的PKC异构体可能被激活,并参与对心肌收缩性能的调节;而心肌肥大稳定阶段,这些PKC活性可能恢复至正常水平.     

Protein kinase C contributes to the maintenance of contractile force in human ventricular cardiomyocytes

Prolonged Ca(2+) stimulations often result in a decrease in contractile force of isolated, demembranated human ventricular cardiomyocytes, whereas intact cells are likely to be protected from this deterioration. We hypothesized that cytosolic protein kinase C (PKC) contributes to this protection. Prolonged contracture (10 min) of demembranated human cardiomyocytes at half-maximal Ca(2+) resulted in a 37 +/- 5% reduction of active force (p < 0.01), whereas no decrease (2 +/- 3% increase) was observed in the presence of the cytosol (reconstituted myocytes). The PKC inhibitors GF 109203X and G? 6976 (10 micromol/liter) partially antagonized the cytosol-mediated protection (15 +/- 5 and 9 +/- 2% decrease in active force, p < 0.05). Quantitation of PKC isoform expression revealed the dominance of the Ca(2+)-dependent PKCalpha over PKCdelta and PKCepsilon (189 +/- 31, 7 +/- 3, and 7 +/- 2 ng/mg protein, respectively). Ca(2+) stimulations of reconstituted human cardiomyocytes resulted in the translocation of endogenous PKCalpha, but not PKCbeta1, delta, and epsilon from the cytosol to the contractile system (PKCalpha association: control, 5 +/- 3 arbitrary units; +Ca(2+), 39 +/- 8 arbitrary units; p < 0.01, EC(50,Ca) = 645 nmol/liter). One of the PKCalpha-binding proteins were identified as the thin filament regulatory protein cardiac troponin I (TnI). Finally, the Ca(2+)-dependent interaction between PKCalpha and TnI was confirmed using purified recombinant proteins (binding without Ca(2+) was only 28 +/- 18% of that with Ca(2+)). Our data suggest that PKCalpha translocates to the contractile system and anchors to TnI in a Ca(2+)-dependent manner in the human heart, contributing to the maintenance of contractile force.     

蛋白激酶Cδ可能参与肥大心肌细胞转向凋亡

为了探讨肥大心肌细胞对凋亡刺激的易感性及蛋白激酶Cδ(protein kinase Cδ,PKCδ)在其中的作用,以内皮素-1 (endothelin-1,ET-1)处理原代培养的新生大鼠心肌细胞,诱导心肌细胞肥大;再用血管紧张素Ⅱ(angiotensin II,Ang II)作为细胞凋亡诱导因子,采用鬼笔环肽(phalloidin)荧光染色与细胞面积测量两种方法检测心肌肥大,Hoechst 33258荧光染色检测细胞凋亡。结果显示：(1)1与10 nmol/L ET-1作用48h,心肌细胞肌原纤维排列整齐、染色增浓,随ET-1浓度增加而愈加明显,心肌细胞表面积分别增加42．5%和67．3%,以此作为轻度和中度心肌细胞肥大模型。(2)正常、轻度肥大与中度肥大心肌细胞受1nmol/L AngⅡ处理24h后,凋亡率分别为(15．54±1．32)%、(20．65±1．40)%与(29．33±3．52)%,三组之间有显著差异(P＜0．05)。(3)受AngⅡ刺激后,PKCδ特异性抑制剂rottlerin不影响正常心肌细胞的凋亡率,却有效抑制了轻度和中度肥大心肌细胞的凋亡。肥大心肌细胞凋亡易感性明显高于正常心肌细胞,抑制PKCδ可以抑制肥大心肌细胞凋亡,提示PKCδ参与肥大心肌细胞凋亡过程。     

In vivo regulation of mitochondrial respiration in cardiomyocytes: specific restrictions for intracellular diffusion of ADP

Relative diffusivities of ADP and creatine in cardiomyocytes were studied. The isolated rat cardiomyocytes were lysed with saponin (40 micrograms/ml) to perforate or completely disrupt sarcolemma that was evidenced by leakage of 80-100% lactate dehydrogenase. In these cardiomyocytes mitochondria were used as 'enzymatic probes' to determine the average local concentration of substrates exerting acceptor control of respiration--ADP or creatine (the latter activates respiration via mitochondrial creatine kinase reaction)--when their concentrations in the surrounding medium were changed. The kinetic parameters for ADP and creatine in control of respiration of saponin-treated cardiomyocytes were compared with those determined in isolated mitochondria and skinned cardiac fibers. The apparent Km for creatine (at 0.2 mM ATP) was very close and in a range of 6.0-6.9 mM in all systems studied, showing the absence of diffusion difficulties for this substrate. On the contrary, the apparent Km for ADP increased from 18 +/- 1 microM for isolated mitochondria to 250 +/- 59 microM for cardiomyocytes with the lysed sarcolemma and to 264 +/- 57 microM for skinned fibers. This elevation of Km was not eliminated by inhibition of myokinase with diadenosine pentaphosphate. When 25 mM creatine was present, the apparent Km for ADP decreased to 36 +/- 6 microM. These data are taken to indicate specific restrictions of diffusion of ADP most probably due to its interaction with intermediate binding sites in cardiomyocytes. The important role of phosphocreatine-creatine kinase system of energy transport is to overcome the restrictions in regulation of energy fluxes due to decreased diffusivity of ADP.     

Size of cardiomyocytes in different regions of the rat heart

In rats after alcaline dissociation of the heart at the state of systol and diastol, length and width of cardiomyocytes have been measured, their volume has been calculated. Statistical characteristics of distribution connected with the first four moments have been taken into consideration. Certain size differences of cardiomyocytes in five cardiac parts have been revealed, as well as peculiarites of their variability that is connected with an individual and internal changeability. In the atria predominates the first, in the ventricles--the second. If the internal changeability of the cardiomyocytes in all the cardiac parts is mainly the same, the individual one--is different (in the atrii it is 2 times as great, in the interventricular septum it is the same as in the atrii). The individual changeability of the cardiomyocytes volume is also greater than that of their size. This also proves the variability of their proportions. The degree of their contractility makes 11--20%, differences between the cardiac parts are not significant. The data obtained could be used as normatives for various experiments.     

Temperature regulates the arrhythmogenic activity of pulmonary vein cardiomyocytes

Temperature plays an important role in the electrophysiology of cardiomyocytes. Pulmonary veins (PVs) are known to initiate paroxysmal atrial fibrillation. The effects of temperature on the arrhythmogenic activity of rabbit single PV and atrial cardiomyocytes were assessed using the whole-cell clamp technique. PV cardiomyocytes had different beating rates at low (22-25 degrees C), normal (38-39 degrees C) and high (40-41 degrees C) temperatures (0.9 +/- 0.1, 3.2 +/- 0.4, 6.4 +/- 0.6 Hz, respectively; p < 0.001). There were different action potential durations and incidences of delayed afterdepolarization in PV cardiomyocytes with pacemaker activity (31, 59, 63%; p < 0.05), PV cardiomyocytes without pacemaker activity (16, 47, 60%; p < 0.001), and atrial myocytes (0, 0, 21%; p < 0.05). However, oscillatory afterpotentials were only found in PV cardiomyocytes with pacemaker activity at normal (50%) or high (68%) temperatures, but not at low temperatures (p < 0.001). Both PV and atrial cardiomyocytes had larger transient inward currents and inward rectified currents at high temperatures. Additionally, PV cardiomyocytes with and without pacemaker activity had larger pacemaker currents at higher temperatures. This study demonstrated that PV cardiomyocytes have an increase in arrhythmogenic activity at high temperatures because of enhanced automaticity, induced triggered activity, or shortening of action potential duration.     

Specific limitations for intracellular diffusion of ADP in cardiomyocytes

Isolated cardiomyocytes and bundles of cardiac fibers were studied after lysis of their sarcolemma by saponin (40-50 micrograms/ml). 60-70% of cardiomyocytes were rod-like and Ca2(+)-tolerant. The kinetics of stimulation of oxidative phosphorylation by ADP and creatine via the mitochondrial creatine kinase reaction: MgATP + creatine----MgADP + phosphocreatine, was investigated after perforation of sarcolemma. The criterion for sarcolemmal perforation was an almost complete (80-100%) leakage of lactate dehydrogenase. It was shown that the Km values for ADP during stimulation of oxidative phosphorylation in cardiomyocytes are 250 +/- 39 microM (264 +/- 57 microM in cardiac bundles) which exceeds by one order of magnitude the Km value for ADP in isolated mitochondria (18 +/- 5 microM). On the contrary, Km for creatine is the same for all preparations studied (6-6.9 mM). The data obtained suggest the absence of diffusion difficulties for creatine inside the cells. In contrast, intracellular diffusion of ADP is restricted, most probably, dye to its binding to intracellular structures. These data emphasize the crucial role of the creatine kinase system in energy transfer processes. In the presence of 25 mM creatine Km for ADP is decreased to 36 +/- 6 mM due to a manyfold use of ADP in the coupled creatine kinase-oxidative phosphorylation reaction occurring in mitochondria.     

Ultrastructure of the renal corpuscle of fresh water fishes

By means of light (semithin slices) and electron microscopes structural organization of the corpuscle and glomerulus of the capsule has been studied in freshwater fishes--carp (Cyprinus carpio) and crucian carp (Carassius carassius). The diameter of their glomeruli are in the carp from 80.8 +/- 1.4 mcm up to 59.8 +/- 2.4 mcm and in the crucian carp--from 86.4 +/- 1.8 mcm up to 69.25 +/- 0.2 mcm. Between these dimensions there are significant differences. Components of the external wall of the capsule in the fishes studied have similar structure. In epitheliocytes, situating on the basement membrane, electron opaque inclusions have been revealed. They resemble, by their ultrastructure, granules of peripolar cells, described in mammals and in man. In places, where epitheliocytes have contacts, thin folds are formed, they turn into the capsule lumen. Touching the cell surface, they can form border vacuoles. The main peculiarity of endotheliocytes in the glomerular capillaries is presence of diaphragmated and open fenestrae (their size is from 30 to 50 nm) in the peripheral zone of their cytoplasm. Unlike the higher vertebrates, the fishes have a well developed pericapillary mesangium. It contains mesangial matrix and rare processes of mesangiocytes.     

Myocardial reaction of the right ventricle to lung resection

Right-sided pulmonectomy (resection of 63-65% of the lung parenchyma) in white noninbred rats resulted in development of chronic cor pulmonale, that develops according to the stages: I--from the time of the operation up to the 10th-15th days after the operation--the stage of acute disturbances and mobilization forces of the organism; II--from the 11th-15th up to the 90th day is the stage of a relative steady compensatory hypertrophy of the cardiac right ventricle; III--after the 90th day--the stage of decompensation. The hypertrophy of the right ventricle myocardium transfers into its dilatation. Amount of cardiomyocytes and their nuclei in 1 mg of the right ventricle tissue progressively decreases, quantity of multinuclear cardiomyocytes increases, ploidy of the nuclei changes: number of tetraploid nuclei decreases, octaploid nuclei appear. Lethality among the animals is 56%.