The Antiarrhythmic Peptide Rotigaptide (ZP123) Increases Connexin 43 Protein Expression in Neonatal Rat Ventricular Cardiomyocytes

Rotigaptide (formerly ZP123) is a novel antiarrhythmic peptide that prevents uncoupling of connexin 43 (Cx43)-mediated, gap junction communication during acute metabolic stress. Since rotigaptide's long-term effects on Cx43 are unknown, we studied its effect on Cx43 protein levels at 24 h in neonatal ventricular myocytes. As determined by Western blot analysis, rotigaptide produced a dose-dependent increase in Cx43 protein expression that reached a maximum level at 100 nM. Furthermore, 100 nM rotigaptide markedly increased Cx43 immunoreactivity and Cx43-positive gap junctions as observed in immunocytochemical studies. Cycloheximide, an inhibitor of protein synthesis, was used to investigate rotigaptide's mechanism of action. Cycloheximide (10 μg/ml) reduced Cx43 protein levels to 39% of vehicle (17 mM ethanol) whereas cotreatment of 10 μg/ml cycloheximide with 100 nM rotigaptide reduced Cx43 protein levels to 56% of vehicle. Our findings suggest that rotigaptide's effect on Cx43 expression is partly due to increased biosynthesis.     

Rotigaptide (ZP123) reverts established atrial conduction velocity slowing

Rotigaptide (ZP123) increases gap junction intercellular communication (GJIC) and prevents stress-induced cardiac conduction velocity (CV) slowing. However, the effect of rotigaptide on established cardiac conduction slowing and the duration of effect on rotigaptide during washout is unknown. Metabolic stress (induced by superfusion with nonoxygenated glucose-free Tyrodes buffer) was associated with a 30% decrease in atrial CV in vehicle-treated rat atria. Rotigaptide treatment initiated after a period of 30 minutes of metabolic stress produced a rapid and significant increase in CV compared to vehicle-treated time controls. During washout of rotigaptide for 30 min (while subjected to metabolic stress), there was a minor decrease in atrial CV; however, this was not significantly different from atrial CV in a rotigaptide-treated time control group. Rotigaptide treatment rapidly normalizes established conduction slowing in atria subjected to metabolic stress. However, the cessation of effect was considerably slower than the onset of action.     

Effects of the New Antiarrhythmic Peptide ZP123 on Epicardial Activation and Repolarization Pattern

Antiarrhythmic peptides such as AAP10 (Gly-Ala-Gly-4Hyp-Pro-Tyr-CONH₂) have antiarrhythmic properties related to their stimulatory effect on gap junctional coupling. However, most of these peptides are not stable in enzymatic environment which limits studies with these compounds in vivo. ZP123 is a new antiarrhythmic peptide constructed using a retro-all-D-amino acid design of the AAP10 template (Ac-D-Tyr-D-Pro-D-4Hyp-Gly-D-Ala-Gly-NH₂). The aim of this study was to compare the effects of AAP10 and ZP123 on epicardial activation and repolarization patterns in isolated perfused rabbit hearts. In addition, we tested the effect of these compounds on PKC activation in cultured HeLa-Cx43 cells. Rabbit hearts were perfused according to the Langendorff technique with Tyrode solution at constant pressure (70 cm H₂O). After 45 min equilibration, either AAP10 (n = 7) or ZP123 (n = 7) was infused intracoronarily in concentrations of 0.1, 1, 10, 100, and 1000 nM (15 min for each concentration) in the presence of 0.05% bovine serum albumine. 256 AgCl electrodes were attached to the hearts surface and connected to the inputs of a 256 channel mapping system in a unipolar circuit (4 kHz/channel, 0.04 mV vertical resolution, 1 mm spatial resolution). For each electrode the activation and repolarization timepoint were determined. We found that both peptides significantly reduced epicardial dispersion by a maximum of about 20% thereby enhancing the homogeneity of epicardial action potential duration, while the action potential duration itself was not affected. The beat-to-beat variability of the epicardial activation pattern was stabilized by both peptides as compared to an untreated time-control series. Other parameters such as LVP, CF, heart rate, or total activation time were not effected by either of the peptides. In a second protocol, rectangular pulses were delivered to the back wall and the propagation velocity was determined longitudinal and transversal to the fiber axis. We found an increase in both longitudinal and transversal conduction velocity. Using a commercial PKC assay on HeLa-Cx43 cells we found that 50 nM AAP10 and 50 nM ZP123 increased activity by 99 ± 6% and 146 ± 54%, respectively. The PKC activation induced by either of these compounds was completely blocked using the selective PKCα inhibitor GCP54345. We conclude that AAP10 and ZP123 have similar effects in vitro, but the superior enzymatic stability of ZP123 makes this compound the preferred substance for in vivostudies of antiarrhythmic peptides.     

Frequency Distribution of F-Latencies (DFL) has Physiological Significance and Gives Distribution of Conduction Velocity (DCV) of Motor Nerve Fibres With Implications for Diagnosis

On electrical stimulation of a peripheral motor nerve, a delayed and reduced F-response is obtained, which is known to occur due to random backfiring of a few percent of the motor nerve fibres at the spinal end after antidromic conduction. F-latencies obtained from multiple stimulations vary in latency, size and shape because of this randomness. We hypothesised that, being a random process, recruitment of fibres for F-response would depend on the distribution of conduction velocity (DCV) for motor nerve fibres directly, and therefore, a frequency distribution of F-latencies (DFL) from such multiple F-responses would be an approximate mirror image of DCV, latency being inversely proportional to velocity. First, obtaining DFL from many human subjects, we have shown that this is a reproducible parameter for a nerve trunk of a subject, and hence reveals a new physiological phenomenon. DFL has a single peaked distribution, which is also expected for the DCV of a normal healthy motor nerve. To validate its hypothesised relationship to DCV further, DFLs were obtained from both median nerves of patients with unilateral carpal tunnel syndrome (CTS). The patterns of DFL from both sides remained almost the same except for a delay shift equal to that in between the two M-responses, which lends support to this hypothesis. DFL, and DCV as its suggested mirror image, appear to change systematically with certain known disorders such as cervical spondylosis, even at a subclinical stage, which needs further study. This also indicates that DFL may become a new and improved investigative diagnostic tool in neurophysiology.     

Gap junctions between oocyte and follicle cells in Acerentomon sp. (Insecta,Protura)

Each oocyte in the ovary of Acerentomon is surrounded by a layer of follicle cells (FC) and possesses a group of specialized, so-called chorion-producing cells (CPC). The FCs lying immediately under the CPCs form processes which make contact with the oocyte. Gap junctions occur at the points of contact between the oolemma and the membrane of the processes. A possible role of the heterocellular gap junctions in Acerentomon ovary is the coordination of development of the oocyte and CPCs.     

mitoKATP通道参与心肌缺血预处理保护作用的机制

目的：探讨血管紧张素转换酶抑制剂（ACEI）和阈下缺血预处理联合预处理诱导的心肌保护作用中mi-toKatp通道激动后的作用机制：方法：采用离体大鼠心脏Langendorff灌流模型,观察心脏电脱耦联发生时间、细胞膜Na^＋／K^＋-ATPase和Ca^2＋/Mg^2＋-ATPase活性的改变：结果：单独使用卡托普利、或给予大鼠心脏2min缺血／10min复灌作为阈下缺血预处理,均不能改善长时间缺血／复灌引起的心脏收缩功能下降？而卡托普利和阂下缺血预处理联合使用可增高心脏收缩功能。mitoKatp通道特异性阻断剂5-HD可取消这一联合预处理的作用一联合预处理可引起缺血后电脱耦联发生时间延长,缺血心肌细胞膜Na^＋／K^＋-ATPase和Ca^2＋/Mg^2＋-ATPase活性增高;5-HD可取消此作用结论：mitoKatp通道参与了联合预处理延迟缺血引起的细胞间脱耦联和促进细胞膜离子通道稳定性维持的作用。     

Computational Model of Touch Sensory Cells (T Cells) of the Leech: Role of the Afterhyperpolarization (AHP) in Activity-Dependent Conduction Failure

Bursts of spikes in T cells produce an AHP, which results from activation of a Na⁺/K⁺ pump and a Ca²⁺-dependent K⁺ current. Activity-dependent increases in the AHP are believed to induce conduction block of spikes in several regions of the neuron, which in turn, may decrease presynaptic invasion of spikes and thereby decrease transmitter release. To explore this possibility, we used the neurosimulator SNNAP to develop a multi-compartmental model of the T cell. The model incorporated empirical data that describe the geometry of the cell and activity-dependent changes of the AHP. Simulations indicated that at some branching points, activity-dependent increases of the AHP reduced the number of spikes transmitted from the minor receptive fields to the soma and beyond. More importantly, simulations also suggest that the AHP could modulate, under some circumstances, transmission from the soma to the synaptic terminals, suggesting that the AHP can regulate spike conduction within the presynaptic arborizations of the cell and could in principle contribute to the synaptic depression that is correlated with increases in the AHP.     

Primary Homology Assessment in the Male Atrial System of the Polycystididae (Platyhelminthes: Eukalyptorhynchia)

A comparative lightmicroscopical study of the male atrial system of the Polycystididae is presented. Firstly, the different glandular structures associated with the male atrial system are compared. This has lead to the recognition of eight different types of glandular vesicles, four of which are considered prostate, the other four accessory. Secondly, the different hard structures that can be found in the male atrium are discussed and compared. These hard structures can consist of numerous hard spines (armed cirrus), but mostly the hard structure is a single- or double-walled tubiform stylet, or a plate-shaped stylet. Different types of stylets can be recognised, some of which are associated with a prostate vesicle and therefore considered prostate stylets. Using the criteria of position and conjunction, conjectures of homologies are put forward. These primary homologies are compared with homology assessments found in earlier literature.     

Fine structure of the neuromuscular system of Polyorchis penicillatus (Hydromedusae,Cnidaria)

Polyorchis penicillatus exhibits outer, inner and endodermal nerve rings. The inner ring contains a number of giant axons with infolded plasma membranes and annular gap junctions. The existence of an innervation supplying the velar radial muscle strengthens the view that the steering mechanism is under nervous control. The basal portions of the cells of the endoderm canals form a muscle band which might enable the animal to regulate the flow of materials or could perform peristalsis.     

正常中国人中枢运动系统传导时间的测定

本文应用高电压、低输出阻抗刺激器,经皮给予大脑皮层和脊髓电刺激(BSPES),同时在上肢鱼际(Thenar)和下肢胫骨前肌(Muscle tibialis anterior)上记录诱发肌肉动作电位,测定了64名正常健康中国人(男:46;女:18)的中枢运动系统传导时间。受试者年龄为20—67岁,身高为156—185cm。刺激大脑皮层出现反应的潜伏期与刺激脊髓出现反应的潜伏期之差为中枢运动传导时间(CMCT)。实验测得鱼际的 CMCT 为6.69±1.48ms;胫骨前肌的 CMCT 为12.90±1.59ms。经统计学处理证明,CMCT 与左右侧肢体、性别、年龄及身高无关。说明 CMCT 是无损伤测定与评价中枢运动系统功能的较精确的一种客观指标。本文根据所测数据,计算出脊髓内运动传导速度为71.34±10.89 m/s,与文献报道的锥体束传导速度50—70 m/s 相近。因此,CMCT 反映了锥体束的传导时间。     

Velocity of translation of single actin filaments (AF) by myosin heads from antigen-sensitized airway smooth muscle

We have previously reported increased velocity of shortening (V_o) in the sensitized airway (0.36 1_o/s, ± SE) smooth muscle compared to the control (0.26 1_o/s, ± 0.017 SE) and subsequent experiments indicated this was due to increased phosphorylation of the 20 kDa myosin light chain resulting from increased total myosin light chain kinase activity. The motility assay technique described by Kron and Spudich was employed to determine whether additionally the molecular motor (actomyosin crossbridge) itself was altered in airway smooth muscle by ragweed pollen sensitization. The motility assay measures the velocity of actin filament translation by myosin molecules. The negative results of the motility assay were valuable in determining that the pathogenesis of allergic bronchospasm is not at contractile protein level but at regulatory enzyme level.     

The Role of Flow Velocity in the Vertical Distribution of Particulate Organic Matter on Moss-covered Travertine Barriers of the Plitvice Lakes (Croatia)

We investigated the distribution patterns of particulate organic matter (POM) on travertine barriers in respect to flow velocity. Research was conducted on the barrage-lake system of the Plitvice Lakes, Croatia. Four layers were distinguished within the substrate (moss mat + three travertine layers) in three hydraulic habitats at three sites. Substrate samples were collected monthly with a core sampler. The aim of the study was to explore the ability of moss mats and travertine substrate to accumulate POM; to ascertain the role of flow velocity and to produce a model of POM distribution pattern. The average of POM deposited in the 10 cm deep zone decreased significantly in the three sites along longitudinal profile of the system. Most POM was deposited in the moss mats, and the amounts decreased exponentially with depth. This was observed for coarse particulate organic matter (CPOM), ultra-fine particulate organic matter (UPOM) and total organic matter (TPOM) while fine organic matter (FPOM) deposition appeared unaffected by depth. More POM was accumulated in hydraulic habitats of low flow velocity. Correlation between flow velocity and POM accumulation was generally negative. Positive correlations between flow velocity and deposition rates were noted for CPOM in moss mats and top travertine layers; the deposition of other POM fractions was negatively influenced by the flow velocity. The influence of flow velocity decreased with increasing depth. In the deepest layers (7–10 cm) flow velocity influenced only the deposition of the smallest particles (UPOM).     

Atrial proarrhythmia due to increased inward rectifier current (IK1) arising from KCNJ2 mutation – A simulation study

Atrial fibrillation (AF) has been linked to increased inward rectifier potassium current, I_K1, either due to AF-induced electrical remodelling, or from functional changes due to the Kir2.1 V93I mutation. The aim of this simulation study was to identify at cell and tissue levels' mechanisms by which increased I_K1 facilitates and perpetuates AF. The Courtemanche et al. human atrial cell action potential (AP) model was modified to incorporate reported changes in I_K1 induced by the Kir2.1 V93I mutation in both heterozygous (Het) and homozygous (Hom) mutant forms. The modified models for wild type (WT), Het and Hom conditions were incorporated into homogeneous 1D, 2D and 3D tissue models. Restitution curves of AP duration (APD), effective refractory period (ERP) and conduction velocity (CV) were computed and both the temporal and the spatial vulnerability of atrial tissue to re-entry were measured. The lifespan and tip meandering pattern of re-entry were also characterised. For comparison, parallel simulations were performed by incorporating into the Courtmanche et al. model a linear increase in maximal I_K1 conductance. It was found that the gain-in-function of V93I ‘mutant’ I_K1 led to abbreviated atrial APs and flattened APD, ERP and CV restitution curves. It also hyperpolarised atrial resting membrane potential and slowed down intra-atrial conduction. V93I ‘mutant’ I_K1 reduced the tissue's temporal vulnerability but increased spatial vulnerability to initiate and sustain re-entry, resulting in an increased overall susceptibility of atrial tissue to arrhythmogenesis. In the 2D model, spiral waves self-terminated for WT (lifespan < 3.3 s) tissue, but persisted in Het and Hom tissues for the whole simulation period (lifespan > 10 s). The tip of the spiral wave meandered more in WT tissue than in Het and Hom tissues. Increased I_K1 due to augmented maximal conductance produced similar results to those of Het and Hom Kir2.1 V93I mutant conditions. In the 3D model the dynamic behaviour of scroll waves was stabilized by increased I_K1. In conclusion, increased I_K1 current, either by the Kir2.1 V93I mutation or by augmented maximal conductance, increases atrial susceptibility to arrhythmia by increasing the lifespan of re-entrant spiral waves and the stability of scroll waves in 3D tissue, thereby facilitating initiation and maintenance of re-entrant circuits.