老年缺血性心力衰竭的心脏DNA甲基化编码重编程与心肌细胞焦亡、铁死亡的关联

摘要 目的：探讨老年缺血性心力衰竭的心脏DNA甲基化编码重编程与心肌细胞焦亡、铁死亡的关联性。方法：2019年12月到2021月2月,选择在本院诊治的老年缺血性心力衰竭115例作为心衰组,同期选择在本院体检的非心血管疾病老年人群115例作为对照组。检测心脏DNA甲基化编码重编程、心肌细胞焦亡、铁死亡指标表达情况并进行相关性分析。结果：心衰组的心脏DNA甲基化编码重编程指标-miR-92a、miR-130a相对表达水平高于对照组（P<0.05）。心衰组的Caspase-1蛋白、Caspase-4蛋白相对表达水平高于对照组（P<0.05）。心衰组的铁调素含量高于对照组（P<0.05）。在两组230例入选者中,Spearsman相关分析显示：缺血性心力衰竭与miR-92a、miR-130a、半胱氨酸蛋白酶1（Caspase-1）、半胱氨酸蛋白酶4（Caspase-4）、铁调素存在正向相关性（P<0.05）。Logistic回归分析显示：miR-92a、miR-130a、Caspase-1、Caspase-4、铁调素为导致缺血性心力衰竭发生的重要因素（P<0.05）。结论：老年缺血性心力衰竭患者多伴随有心脏DNA甲基化编码重编程与心肌细胞焦亡、铁死亡,后三者与缺血性心力衰竭的发生存在关联性,也是导致缺血性心力衰竭发生的重要因素。     

Development of a bio-MEMS device for electrical and mechanical conditioning and characterization of cell sheets for myocardial repair

Here we propose a bio-MEMS device designed to evaluate contractile force and conduction velocity of cell sheets in response to mechanical and electrical stimulation of the cell source as it grows to form a cellular sheet. Moreover, the design allows for the incorporation of patient-specific data and cell sources. An optimized device would allow cell sheets to be cultured, characterized, and conditioned to be compatible with a specific patient's cardiac environment in vitro, before implantation. This design draws upon existing methods in the literature but makes an important advance by combining the mechanical and electrical stimulation into a single system for optimized cell sheet growth. The device has been designed to achieve cellular alignment, electrical stimulation, mechanical stimulation, conduction velocity readout, contraction force readout, and eventually cell sheet release. The platform is a set of comb electrical contacts consisting of three-dimensional walls made of polydimethylsiloxane and coated with electrically conductive metals on the tops of the walls. Not only do the walls serve as a method for stimulating cells that are attached to the top, but their geometry is tailored such that they are flexible enough to be bent by the cells and used to measure force. The platform can be stretched via a linear actuator setup, allowing for simultaneous electrical and mechanical stimulation that can be derived from patient-specific clinical data.     

小剂量辣椒素对豚鼠心室肌细胞L-型钙电流的影响

应用全细胞膜片钳技术研究低浓度辣椒素(capsaicin,CAP)对单个豚鼠心室肌细胞L-型钙电流的影响及其作用机制.CAP(1～25 nmol/L)可浓度依赖性增加电压依赖性的ICa-L的峰值并下移I-V曲线.CAPl,10,25 nmol/L使ICa-L最大峰值分别由-9.67±0.7pA/pF增至-10.21±0.8pA/pF(P＞0.05),-11.37±0.8pA/pF和-12.84±0.9pA/pF(P＜0.05).CAP25nmol/L可明显使稳态激活曲线左移,激活中点电压(V0.5)由-20.76±2.0mV变至-26.71±3.0mV(P＜0.05),表明低浓度CAP改变了钙通道激活的电压依赖性.CAP25nmol/L对电压依赖性稳态失活曲线和ICa-L从失活状态下复活过程无明显影响.辣椒素受体(VR1)阻断剂钌红(RR,10μmol/L)可阻断低浓度辣椒素的效应.以上结果表明,低浓度辣椒素使钙通道稳态激活曲线左移,增加ICa-L,这一效应可能由VRl介导.     

一氧化氮增加常氧和缺氧豚鼠心室肌细胞持续性钠电流

运用全细胞膜片钳记录缺氧条件下豚鼠心室肌持续性钠电流(INa.P)的变化及施加药物对其的影响,以探讨 INa.P 的本质及缺氧增大 INa.P 的机制。结果显示:(1)在常氧条件下,一氧化氮(NO)前体 L- 精氨酸(L-Arg)和供体硝普钠(SNP)浓度依赖性地增大INa.P; (2)INa.P 随缺氧时间延长而增大, 缺氧15 min 后施加 NO 合酶(NOS)抑制剂L- 硝基精氨酸甲酯(L-NAME), 不能使增大的INa.P 明显回复[(1.344 ±0.320) vs (1.301 ±0.317) pA/pF, P>0.05, n=5]; (3)缺氧时含L-NAME 的灌流液可使INa.P 明显减小,与单纯缺氧相比有显著差异[(0.914 ± 0.263), n=5 vs (1.344 ± 0.320) pA/pF, n=6, P<0.05], 但仍比常氧条件下增大[(0.914 ±0.263) vs (0.497 ±0.149) pA/pF, P<0.05, n=5]; (4)还原剂1,4-二硫代苏糖醇(DTT)不但可使L-Arg 及缺氧后施加SNP 增大的 INa.P 回复[(1.449 ± 0.522) vs (0.414 ± 0.067) pA/pF, P<0.01, n = 6 和(0.436 ± 0.141) vs (1.786 ± 0.636) pA/pF,P<0.01, n=5],而且使正常的 INa.P 减小[(0.396 ± 0.057) pA/pF vs (0.442 ± 0.056) pA/pF, P<0.01, n=6]。本实验结果表明缺氧可增大心室肌细胞的INa.P, 其作用机制可能是缺氧时心肌产生的NO 通过氧化细胞膜上钠通道蛋白所致,正常INa.P 的产生     

Small proline-rich protein 1A is a gp130 pathway- and stress-inducible cardioprotective protein

The interleukin-6 cytokines, acting via gp130 receptor pathways, play a pivotal role in the reduction of cardiac injury induced by mechanical stress or ischemia and in promoting subsequent adaptive remodeling of the heart. We have now identified the small proline-rich repeat proteins (SPRR) 1A and 2A as downstream targets of gp130 signaling that are strongly induced in cardiomyocytes responding to biomechanical/ischemic stress. Upregulation of SPRR1A and 2A was markedly reduced in the gp130 cardiomyocyte-restricted knockout mice. In cardiomyocytes, MEK1/2 inhibitors prevented SPRR1A upregulation by gp130 cytokines. Furthermore, binding of NF-IL6 (C/EBPbeta) and c-Jun to the SPRR1A promoter was observed after CT-1 stimulation. Histological analysis revealed that SPRR1A induction after mechanical stress of pressure overload was restricted to myocytes surrounding piecemeal necrotic lesions. A similar expression pattern was found in postinfarcted rat hearts. Both in vitro and in vivo ectopic overexpression of SPRR1A protected cardiomyocytes against ischemic injury. Thus, this study identifies SPRR1A as a novel stress-inducible downstream mediator of gp130 cytokines in cardiomyocytes and documents its cardioprotective effect against ischemic stress.     

银杏苦内酯B对缺血豚鼠心室肌动作电位、L-型钙电流和延迟整流钾电流的作用

目的:研究银杏苦内酯B对正常和缺血心室肌细胞动作电位(action potential,AP),L-型钙电流(L-type calcium current,ICa-L)、延迟整流钾电流(Delayed Rectifier Currennt,IK)的影响.方法:用常规细胞内微电极方法记录豚鼠心室肌细胞动作电位,用全细胞膜片钳技术记录游离心室肌细胞离子流.结果:①在生理条件下,银杏苦内酯B可缩短心室肌细胞动作电位时程 (action potential duration,APD),但对AP其他参数无影响,银杏苦内酯B可增大IK,呈浓度依赖性,但对ICa-L无显著作用;②在缺血条件下,APD50、APD90明显缩短,RP、APA减小,Vmax减慢,而银杏苦内酯B则可延缓和减轻缺血所引起上述参数的变化;3.在缺血条件下,IK和ICa-L均受到抑制,但加入银杏苦内酯B后可逆转缺血所造成这两种离子流的减小.结论:银杏苦内酯B可对抗心肌缺血所引起的心肌电生理的变化,提示银杏苦内酯B可预防心律失常的发生.     

Ischemic preconditioning ameliorates microcirculatory disturbance through downregulation of TNF-alpha production in a rat cremaster muscle model

Ischemia-reperfusion (I/R) injury is a complex process involving the generation and release of inflammatory cytokines, and the accumulation and infiltration of neutrophils and macrophages, which disturbs the microcirculatory hemodynamics. Nonetheless, ischemic preconditioning (IPC) is known to produce immediate tolerance to subsequent prolonged I/R insults, although its underlying mechanism largely remains unknown. Our study investigated the role of the IB--NF-B-TNF- (tumor necrosis factor-) pathway in IPC's ability to ameliorate I/R-induced microcirculatory disturbances in rat cremaster muscle flaps. Male Sprague-Dawley rats were randomized (n=8 per group) into 3 groups: a sham-operated control group, an I/R group (4 h of pudic epigastric artery ischemia followed by 2 h of reperfusion), and an IPC+I/R group (3 cycles of 10 min of ischemia followed by 10 min reperfusion before I/R). Intravital microscopy was used to observe leukocyte/endothelial cell interactions and quantify functional capillaries in cremaster muscles. I/R markedly increased the number of rolling, adhering, and migrating leukocytes. It was also observed that I/R significantly increased TNF- expression in these injured tissues. On the other hand, IPC prevented I/R-induced increases in leukocyte rolling, adhesion, and transmigration. Moreover, TNF- protein production and its mRNA expression were downregulated in the IPC group. Finally, I/R-induced IB- phosphorylation and NF-B (p65) nuclear translocation were both suppressed by IPC. These results indicated that IPC attenuated NF-B activation and subsequently reduced TNF- expression, which resulted in the amelioration of microcirculatory disturbances in I/R-injured cremaster muscles.     

Enforced Expression of Oxygen-Regulated Protein,ORP150, Induces Vacuolar Degeneration in Mouse Myocardium

Although the 150 kDa oxygen-regulated protein (ORP150) is known as a protein induced by low oxygen tension or ischemical insult, its possible role has not been fully investigated in vivo. To investigate the intracellular function of this protein, we generated the ORP150 over-expressing transgenic mice (ORP-Tg mice) under -actin promoter, and established three independent lines of the transgene expressed mice. All lines invariably showed growth retardation. Over-expression of ORP150 was confirmed by western blotting in heart, brain, spleen, skeletal muscle, pancreas, lung, thymus, and kidney. To ascertain the relationship between the over-expression of the ORP150 and the growth retardation in the transgenic mice, we examined pathological changes in the transgenics. In the ORP-Tg mice, vacuolar degeneration appeared in the heart. The degeneration in the myocytes became conspicuous with advancing age. Immunostaining demonstrated ORP150 in the vacuoles of degenerating myocytes. Electron microscopical findings revealed striking development of intracellular membrane system, for example, rough endoplasmic reticula (rER), vacuoles and Golgi bodies, swelling of sarcoplasmic reticulum, and lysis of myofibrils and mitochondria. These findings indicate that ORP150 may locate in the rER and other outer compartment of ER, and that constitutive over-expression of ORP150 in the heart induces vacuolar degeneration in myocytes, resulting in growth retardation of the transgenics.     

Functional activity and ultrastructure of mitochondria isolated from myocardial apoptotic tissue

Apoptosis in myocardial tissue slices was induced by extended incubation under anoxic conditions. Mitochondria were isolated from the studied tissue. A new method of isolation of mitochondria in special conditions by differential centrifugation at 1700, 10,000, and 17,000g resulted in three fractions of mitochondria. According to the data of electron microscopy the heavy mitochondrial fraction (1700g) consisted of mitochondrial clusters only, the middle mitochondrial fraction (10,000g) consisted of mitochondria with typical for isolated mitochondria ultrastructure, and the light fraction consisted of small mitochondria (2 or 3 cristae) of various preservation. The heavy fraction contained unusual structural elements that we detected earlier in apoptotic myocardial tissue—small electron-dense mitochondria incorporated in bigger mitochondria. The structure of small mitochondria from the light fraction corresponded to that of the small mitochondria from these unusual elements—mitochondrion in mitochondrion. The most important functions of isolated mitochondria are strongly inhibited when apoptosis is induced in our model. The detailed study of the activities of the two fractions of the apoptotic mitochondria showed that the system of malate oxidation is completely altered, the activity of cytochrome c as electron carrier is partly inhibited, while succinate oxidase activity is completely preserved (complexes II, III, and IV of the respiration chain). Succinate oxidase activity was accompanied by high permeability of the internal membrane for protons: the addition of uncoupler did not stimulate respiration. ATP synthesis in mitochondria was inhibited. We demonstrated that in our model of apoptosis cytochrome c remains in the intermembrane space, and, consequently, is not involved in the cascade of activation of effector caspases. The possible mechanisms of induction of apoptosis during anoxia are discussed.     

大鼠心肌肌浆网和核被膜ryanodine受体动力学特性的比较

目的 :观察大鼠心肌浆网 (sarcoplasmicreticulum ,SR)和核被膜 (nuclearenvelope ,NE)ryanodine受体 (RyR)与配体结合特点及其蛋白质磷酸化调节。方法 :采用差速和等密度梯度离心分离心肌SR和NE ,用放射受体分析法研究RyR的特征。结果 :NE上存在高亲和力RyR ,其最大结合 (Bmax)为SRRyR的 1.7% ,解离常数 (Kd)为SR的6 0 %。分别用PKA和PKC磷酸化后 ,SR上该受体的Bmax各增加 3.7和 1.2倍 ,而NE上的该受体Bmax各增加 2 .2和 3.1倍 ,Kd均无显著改变。结论 :NE上存在比SR密度低但亲和力高的RyR ,能被PKA和PKC激活 ,而且对PKC较PKA更敏感