Glycoprotein 130 ligand oncostatin-M induces expression of vascular endothelial growth factor in human adult cardiac myocytes

OBJECTIVE: In murine and rat cardiac myocytes the gp130 system transduces survival as well as hypertrophic signals and via induction of the expression of the potent angiogenic factor VEGF in these cells also indirectly contributes to cardiac repair processes through the development of new blood vessels. There are, however, species differences in receptor specificity and receptor crossreactivity in the gp130-gp130 ligand system. We asked whether gp130 signaling is also involved in the regulation of VEGF in human cardiac myocytes and if so which gp130 ligands are critical for such an effect. METHODS: Human adult cardiac myocytes (HACMs) were isolated from myocardial tissue and characterised by positive staining for myocardial actin, troponin-I and cardiotin. HACMs were treated with the gp130 ligands CT-1, IL-6, LIF or OSM and VEGF-1 was determined by a specific ELISA in the conditioned media of these cells. RT-PCR and Western blot analysis was used in order to detect gp130, IL-6-receptor, LIF-receptor or OSM-receptor specific protein and mRNA in human adult cardiac myocytes and for detection of VEGF-1 specific mRNA in cardiac myocytes after incubation with OSM. Pieces of myocardial tissue were incubated ex vivo in the presence and absence of OSM and VEGF was determined in supernatants of these cultures and immunohistochemistry was performed on the tissue using specific antibodies for VEGF-1. Immunohistochemistry was also employed to detect VEGF in sections from a healthy human heart and in a heart from a patient suffering from acute myocarditis. RESULTS: OSM, but not CT-1, IL-6 or LIF increased VEGF-1 production in human adult cardiac myocytes dose-dependently derived from five different donors. This selective stimulation of VEGF by gp130 ligands was also reflected by a specific receptor expression on these cells. We detected high levels of mRNA for gp130 and the OSM receptor in freshly isolated human cardiac myocytes but only low amounts of mRNA for the IL-6 receptor whereas mRNA for the LIF receptor was hardly detectable by RT-PCR. OSM receptor and IL-6 receptor were also detectable by Western blotting whereas LIF receptor was only present as a faint band. OSM also increased the expression of VEGF-1 mRNA in cardiac myocytes. When pieces of human myocardial tissue were incubated with the gp130 ligands in an ex vivo model only OSM resulted in an increase in VEGF-1 in the supernatants of these cultures. Furthermore, VEGF increased in tissue samples treated with OSM in cardiac myocytes as evidenced by immunohistochemistry. In addition, we found increased VEGF-1 expression in myocardial tissue from a patient suffering from acute myocarditis. CONCLUSION: The gp130-gp130 ligand system is also involved in VEGF regulation in human cardiac myocytes and OSM is the gp130 ligand responsible for this effect in the human system whereas LIF and CT-1 which had been shown to regulate VEGF expression in mouse and rat cardiac myocytes had no effect. Thus we have added OSM, which is produced by activated T lymphocytes and monocytes, to the list of regulatory molecules of VEGF production in the human heart. Our results lend further support to the notion that besides hypoxia, inflammation via induction of VEGF through autocrine or paracrine pathways plays a key role in (re)vascularisation of the myocardium.     

The gp130 ligand oncostatin M regulates tissue inhibitor of metalloproteinases-1 through ERK1/2 and p38 in human adult cardiac myocytes and in human adult cardiac fibroblasts: a possible role for the gp130/gp130 ligand system in the modulation of extracellular matrix degradation in the human heart

There is ample evidence supporting the view that alterations in the balance between matrix deposition and matrix degradation brought about by changes in the respective activities of matrix metalloproteinases (MMPs) and tissue inhibitors of matrix metalloproteinases (TIMPs) contribute significantly to cardiac dysfunction and disease. Here we show that TIMP-1 was upregulated up to threefold after treatment with the inflammatory mediator and gp130 ligand oncostatin M (OSM) in human adult cardiac myocytes and fibroblasts. The Erk1/2 inhibitor PD98059 and the p38 inhibitor SD202190 abolished the effect of OSM on TIMP-1 production in both cell types. Human cardiac myocytes and human cardiac fibroblasts also express MMP-1, 2, 3 and 9, and TIMP-2 constitutively. OSM, however, did not affect the expression of these proteins. In addition also the other gp130 ligands tested, cardiotrophin-1 (CT-1), interleukin-6 (IL-6) and leukemia inhibitory factor (LIF) had no effect on the expression of TIMPs and MMPs studied. We speculate that OSM by inducing TIMP-1 expression counteracts excessive proteolysis and unrestricted matrix degradation during inflammatory processes in the heart. The notion that OSM favors matrix stabilization in the human heart is further supported by our earlier observation that OSM also upregulates PAI-1, the physiological inhibitor of the protease urokinase-type PA (u-PA), which in turn is essential for extracellular proteolysis. Therefore we propose a role for the gp130 ligand OSM in the modulation of cardiac remodeling and repair processes.     

Protective function of tocilizumab in human cardiac myocytes ischemia reperfusion injury

Objective:To investigate the protective function of tocilizumab in human cardiac myocytes ischemia-reperfusion injury.Methods:The human cardiac myocytes were treated by tocilizumab with different concentrations(1.0 mg/mL,3.0 mg/mL,5.0 mg/mL) for 24 h.then cells were cultured in ischemia environment for 24 h and reperfusion environment for 1 h.The MTT and flow cytometry were used to detect the proliferation and apoptosis of human cardiac myocytes,respectively.The mRNA and protein expressions of Bcl-2 and Bax were measured by qRT-PCR and western blot,respectively.Results:Compared to the negative group,pretreated by tocilizumab could significantly enhance the proliferation viability and suppress apoptosis of human cardiac myocytes after suffering ischemia reperfusion injury(P0.05).The expression of Bcl-2 in tocilizumab treated group were higher than NC group(P0.05).while the Bax expression were lower(P0.05).Conclusions:Tocilizumab could significantly inhibit apoptosis and keep the proliferation viability of human cardiac myocytes after suffering ischemia reperfusion injury.Tocilizumab may obtain a widely application in the protection of ischemia reperfusion injury.     

Epithelial-mesenchymal transition of epicardial mesothelium is a source of cardiac CD117-positive stem cells in adult human heart

Epithelial-mesenchymal transition is implicated in the remodelling of tissues during development and in the adult life. In the heart, it gives origin to progenitors of fibroblasts, coronary endothelium, smooth muscle cells, and cardiomyocytes. Moreover, epicardially-derived cells determine myocardial wall thickness and Purkinje fibre network. Recently, the presence of numerous cardiac stem cells in the subepicardium of the adult human heart has been described and the hypothesis that epicardially-derived cells can contribute to the population of cardiac stem cells in the adult heart has been advanced. In an effort to test this hypothesis and establish a possible link between epicardium, epicardially-derived cells and cardiac stem cells in the adult human heart we have examined epicardial mesothelial cells in the normal and pathological adult human heart with ischemic cardiomyopathy in vivo and we have induced and documented their epithelial-mesenchymal transition in vitro. Noticeably, epicardial cells were missing from the surface of pathological hearts and the cells with the expression of epithelial and mesenchymal markers populated thick subepicardial space. When the fragments of epicardium from the normal hearts were cultured on the specific substrate formed by extracellular matrix derived from cardiac fibroblasts, we obtained the outgrowth of the epithelial sheet with the mRNA and protein expression characteristic of epicardium. TGFβ induced cellular and molecular changes typical of epithelial-mesenchymal transition. Moreover, the epicardially-derived cells expressed CD117 antigen. Thus, this study provides evidence that cardiac stem cells can originate from epithelial-mesenchymal transition of the epicardial cells in the adult human heart.     

Long-term cardiac gene expression using a coxsackieviral vector

Efficient myocardial gene transfer in the intact adult heart is difficult using conventional transfer vectors. Since coxsackievirus B3 (CVB3) is cardiotropic, it may be possible to exploit its cardiotropic characteristics to design a vector for gene transfer to the intact heart. We generated a recombinant CVB3 cDNA by inserting a green fluorescent protein (GFP) gene immediately upstream from the VP0 capsid protein of CVB3. The infectious virus (rCVB3-GFP) was recovered from the supernatants of the transfected Cos-7 cells, and was grown in HeLa cells to titers of 10(11) pfu/ml. In the rCVB3-GFP infected HeLa cells and neonatal rat cardiac myocytes, GFP protein expression was documented by immunoblot and by fluorescent microscopy. GFP expression was maintained after five passages in HeLa cells. To test in vivo expression of GFP, we infected 8-week-old inbred female Balb/C mice with 10(6) pfu of rCVB3-GFP, intraperitoneally. GFP was present in up to 30% of cardiac myocytes over the 8 weeks post infection (p.i.) and it was co-localized with CVB3 infection. Surprisingly, in spite of detection of GFP up to at least 8 weeks after infection, there was no mortality in the mice. It is possible to express exogenous proteins in the intact heart after an intraperitoneal (i.p.) injection of recombinant coxsackievirus. The duration of expression persisted for at least 8 weeks with little immune response nor mortality. These results demonstrated that the cardiac tropism of CVB3 could be used to design vectors for efficient gene expression in the intact heart.     

Young adult bone marrow-derived endothelial precursor cells restore aging-impaired cardiac angiogenic function

Delivery of young bone marrow-derived stem cells offers a novel approach for restoring the impaired senescent cardiac angiogenic function that may underlie the increased morbidity and mortality associated with ischemic heart disease in older individuals. Recently, we reported that alterations in endothelial cells of the aging heart lead to a dysregulation in the cardiac myocyte platelet-derived growth factor (PDGF)-B-induced paracrine pathway, which contributes to impaired cardiac angiogenic function. Based on these results, we hypothesized that cellular restoration of the PDGF pathway by bone marrow-derived endothelial precursor cells (EPCs) could reverse the aging-associated decline in angiogenic activity. In vitro studies revealed that young murine (3-month-old) bone marrow-derived EPCs recapitulated the cardiac myocyte-induced expression of PDGF-B, whereas EPCs from the bone marrow of aging mice (18-month-old) did not express PDGF-B when cultured in the presence of cardiac myocytes. Transplantation of young, but not old, genetically marked syngeneic bone marrow cells into intact, unirradiated aging mice that populated the endogenous senescent murine bone marrow incorporated into the neovasculature of subsequently transplanted syngeneic neonatal myocardium. Moreover, the young bone marrow-derived EPCs restored the senescent host angiogenic PDGF-B induction pathway and cardiac angiogenesis, with graft survival and myocardial activity in the aging murine host (cardiac allograft viability: 3-month-old controls, 8/8; 18-month-old controls, 1/8; 18-month-old donors receiving bone marrow from 3-month-old mice, 15/16; or 18-month-old mice, 0/6; P<0.05). These results may offer a foundation for the development of novel therapies for the prevention and treatment of cardiovascular disease associated with aging.     

Lentiviral vectors for delivery of genes into neonatal and adult ventricular cardiac myocytes in vitro and in vivo

Vectors based on lentiviruses such as human immunodeficiency virus (HIV) type-1 have many advantages for gene therapy, including the ability to infect non-dividing cells, long-term transgene expression and the absence of induction of an inflammatory/immune response. This study was initiated to determine whether lentiviruses would efficiently transfer genes to both neonatal and adult cardiac cells in culture and, by direct injection, to the heart in vivo. A three-plasmid expression system, including a packaging defective helper construct, a plasmid coding for a heterologous (VSV-G) envelope protein and a vector construct harboring reporter genes –E-GFP (enhanced green fluorescent protein) and puro (puromycin-resistance protein) was used to generate pseudotyped HIV-1 particles by transient transfection of human embryonic kidney 293T cells. We demonstrated efficient gene transfer into neonatal and adult cardiac myocytes in vitro and identified conditions in which virtually 100 % of cultured neonatal and 70 % of adult cardiac myocytes express the reporter gene. Transduction of adult cardiac myocytes with high titre lentiviral vectors did not affect the cell number, morphology or viability compared to untransduced cells. We delivered HIV-1-based vectors to the intact heart by direct injection. Hearts transduced with pseudotyped HIV-1 vectors showed levels of transgene expression comparable to that achieved by adenovirus vectors. This study demonstrates for the first time that lentivirus-based vectors can successfully transduce adult cardiomyocytes both in vitro and in vivo, and opens up the prospect of lentivirus-based vectors becoming an important gene delivery system in the cardiovascular field. Received: 1 October 2001, Returned for 1. revision: 18 October 2001, 1. Revision received: 19 November 2001, Returned for 2. revision: 6 December 2001, 2. Revision received: 13 February 2002, Accepted: 6 March 2002     

Acute vincristine pretreatment protects adult mouse cardiac myocytes from oxidative stress

Vincristine is a chemotherapeutic agent that disrupts microtubules. We noted that paclitaxel (Taxol), which stabilizes microtubules, protected cultured adult mouse cardiac myocytes from oxidative stress induced by H(2)O(2). We hypothesized that vincristine, which disrupts microtubules, should have the opposite effect. To our surprise, we found that pretreatment with concentrations of vincristine ranging from 30 to 120 micromol/L for 60 min preserved myocyte viability and morphology after incubation with 30 micromol/L of H(2)O(2) for 35 min as measured by trypan blue exclusion. The cardioprotective effects of vincristine were also observed during prolonged hypoxia. With continuous exposure to vincristine, survival lasted for as long as 24 h, but longer periods of exposure up to 42 h resulted in extensive cell death. Despite microtubule disruption evidenced on deconvolution microscopy, vincristine activated a prosurvival pathway resulting in increased phosphorylation of Akt, ERK and GSK-3beta and in reduced cytochrome C release into the cytosol. Pharmacological inhibitors of Akt and Erk attenuated the cardioprotective effect of vincristine. We conclude that short-term pretreatment with vincristine exerts dramatic protective effects in cultured adult mouse myocytes subjected to acute oxidative stress. Despite causing microtubule disruption, vincristine initiates a prosurvival signaling pathway. As vincristine and doxorubicin are often used in conjunction to treat patients, it is possible that vincristine could be used to modify the cardiotoxicity of doxorubicin.     

Overexpression of HAX-1 protects cardiac myocytes from apoptosis through caspase-9 inhibition

Caspase-9 is a critical regulator of mitochondria-mediated apoptosis. We found that adult cardiac myocytes, but not nonmyocytes, have high caspase-9 expression, and exhibit relative resistance to caspase-9-induced cell death. Thus, we hypothesized that cardiac myocytes possess factors that resist apoptosis. Through a yeast two-hybrid screening of adult human heart cDNA library, we identified HS-1 associated protein-1 (HAX-1), a 35-kD BH-domain containing protein localized to the mitochondria as one of the molecules that interacts with caspase-9. Recombinant HAX-1 protein inhibited caspase-9 processing in a dose-dependent manner in a cell-free caspase activation assay. Overexpression of HAX-1 in adult cardiac myocytes conferred 30% protection from apoptosis as compared with the control. Suppression of HAX-1 expression using siRNA-HAX-1 resulted in significant cell death in adult cardiac myocytes, suggesting the importance of HAX-1 in cardiac myocyte resistance to apoptotic stimulation. On apoptotic stimulation, some caspase-9 translocated to the mitochondria and co-localized with HAX-1, confirming the spatial proximity of caspase-9 and HAX-1. In summary, HAX-1 is a newly identified anti-apoptotic factor and its mechanism of action is through caspase-9 inhibition.     

过表达HSF1及ASK1基因对H2O2刺激后心肌细胞内ROS水平的影响

目的研究热休克因子1(HSF1)及凋亡信号调节激酶1(ASK1)对过氧化氢(H_2O_2)刺激后心肌细胞内活性氧簇水平(ROS)变化的影响。方法对不同组培养心肌细胞分别单独转染质粒HSF1,ASK1,及共转染HSF1 ASK1,48h待其充分表达后用1 mmol/LH_2O_2刺激心肌细胞30min,检测细胞内ROS水平,并与相应转染后未刺激组及未转染的对照组比较,观察ROS水平的变化。结果(1)所有H_2O_2刺激组心肌细胞内ROS水平均高于相同转染条件下的非刺激组(P<0.05);(2)相同H_2O_2刺激条件下,各组ROS水平:HSF1组低于对照组(P<0.05),ASK1组与对照组无显著差异,HSF1 ASK1组与单转HSF1组相比有升高的趋势;(3)相同H_2O_2刺激条件下,各组刺激后比刺激前ROS水平增高的幅度:HSF1组低于对照组(P<0.05),ASK1组与对照组无显著差别,HSF1 ASK1组与单转HSF1组相比有升高的趋势。结论在H_2O_2刺激条件下,HSF1可通过降低心肌细胞内的ROS水平来发挥细胞保护作用,而ASK1对细胞内ROS水平无影响,但其可干扰HSF1对ROS的抑制作用。     

MicroRNA-21 protects against the H2O2-induced injury on cardiac myocytes via its target gene PDCD4

Reactive oxygen species (ROS)-induced cardiac cell injury via expression changes of multiple genes plays a critical role in the pathogenesis of numerous heart diseases. MicroRNAs (miRNAs) comprise a novel class of endogenous, small, noncoding RNAs that negatively regulate about 30% of the genes in a cell via degradation or translational inhibition of their target mRNAs. Currently, the effects of ROS on miRNA expression and the roles of miRNAs in ROS-mediated injury on cardiac myocytes are uncertain. Using quantitative real-time RT-PCR (qRT-PCR), we demonstrated that microRNA-21 (miR-21) was upregulated in cardiac myocytes after treatment with hydrogen peroxide (H₂O₂). To determine the potential roles of miRNAs in H₂O₂-mediated gene regulation and cellular injury, miR-21 expression was downregulated by miR-21 inhibitor and upregulated by pre-miR-21. H₂O₂-induced cardiac cell death and apoptosis were increased by miR-21 inhibitor and was decreased by pre-miR-21. Programmed cell death 4 (PDCD4) that was regulated by miR-21 and was a direct target of miR-21 in cardiac myocytes. Pre-miR-21-mediated protective effect on cardiac myocyte injury was inhibited in H₂O₂-treated cardiac cells via adenovirus-mediated overexpression of PDCD4 without miR-21 binding site. Moreover, Activator protein 1 (AP-1) was a downstream signaling molecule of PDCD4 that was involved in miR-21-mediated effect on cardiac myocytes. The results suggest that miR-21 is sensitive to H₂O₂ stimulation. miR-21 participates in H₂O₂-mediated gene regulation and functional modulation in cardiac myocytes. miR-21 might play an essential role in heart diseases related to ROS such as cardiac hypertrophy, heart failure, myocardial infarction, and myocardial ischemia/reperfusion injury.     

血管紧张素-(1-7)在拮抗血管紧张素Ⅱ诱导心肌细胞Cx43间隙连接上调中的作用

目的探讨血管紧张素-(1-7)[Ang-(1-7)]在血管紧张素Ⅱ(AngⅡ)诱导心肌细胞Cx43间隙连接中作用。方法AngⅡ处理培养心肌细胞24h。PD98059和Ang-(1-7)在AngⅡ刺激细胞前1h加到培养基中,对照组加等体积药物溶剂DMSO。用Western blot分析和电镜观察心肌细胞Cx43表达和间隙连接。结果Western blot分析显示用10-9~10-6mol/L AngⅡ刺激细胞24h,Cx43的表达与对照组相比呈浓度依赖性增加;用AngⅡ0.1μmol/L刺激心肌细胞24h,与对照组相比Cx43表达上调、磷酸化ERK1/2活性增加(P<0.01),ERK1/2激酶特异性抑制剂1μmol/LPD98059和0.1μmol/L Ang-(1-7)能阻断AngⅡ上调Cx43表达和磷酸化ERK1/2活性增加。电镜观察证明用AngⅡ0.1μmol/L刺激心肌细胞24h,AngⅡ处理组细胞间隙连接数目和大小较对照组增加(P<0.05),0.1μmol/L Ang-(1-7)能阻断AngⅡ增加心肌细胞间隙连接数目和大小。结论Ang-(1-7)通过抑制磷酸化ERK1/2活性增加,从而拮抗AngⅡ上调培养新生鼠心肌细胞Cx43间隙连接。     

Hypoxic regulation of inducible nitric oxide synthase via hypoxia inducible factor-1 in cardiac myocytes

The relationship between hypoxia and regulation of nitric oxide synthase (NOS) in myocardial tissue is not well understood. We investigated the role of hypoxia inducible factor-1 (HIF-1) on expression of the inducible NOS (iNOS) in myocardial cells in vivo and in vitro. In situ hybridization in myocardial tissue from rats exposed to hypoxia for 3 weeks demonstrated increased iNOS mRNA expression. Northern analysis of RNA from hearts of those animals and from cells exposed to hypoxia for 12 hours in vitro demonstrated an increase of HIF-1 RNA expression. Electrophoretic mobility shift assays using oligonucleotides containing the iNOS HIF-1 DNA binding site and nuclear extracts from cardiac myocytes showed induction of specific DNA binding in cells subjected to hypoxia. Transient transfection of cardiac myocytes using the murine iNOS promoter resulted in a 3.43-fold increase in promoter activity under hypoxia compared with normoxia. Mutation or deletion of the HIF-1 site eliminated the hypoxic response. As cytokines have been shown to regulate iNOS expression in myocardial cells, cultured neonatal cardiac myocytes were stimulated with interleukin-1beta causing a dramatic induction of iNOS protein expression under normoxia, with further augmentation under hypoxia. Transient transfection of cells stimulated with interleukin-1beta showed an increased iNOS promoter activity under normoxic conditions compared with unstimulated cells, with a further increase in response to hypoxia, which was dependent on HIF-1. These results demonstrate that hypoxia causes an increase in iNOS expression in cardiac myocytes and that HIF-1 is essential for the hypoxic regulation of iNOS gene expression.     

The human adult cardiomyocyte phenotype

AIM: Determination of the phenotype of adult human atrial and ventricular myocytes based on gene expression and morphology. METHODS: Atrial and ventricular cardiomyocytes were obtained from patients undergoing cardiac surgery using a modified isolation procedure. Myocytes were isolated and cultured with or without serum. The relative cell attachment promoting efficiency of several reagents was evaluated and compared. Morphological changes during long-term culture were assessed with phase contrast microscopy, morphometric analysis and immunocytochemistry or RT-PCR of sarcomeric markers including alpha-actinin, myosin light chain-2 (MLC-2) and the adhesion molecule, cadherin. RESULTS: The isolation method produced viable rod-shaped atrial (16.6+/-6.0%, mean+/-S.E.; n=5) and ventricular cells (22.4+/-8.0%, mean+/-S.E.; n=5) in addition to significant numbers of apoptotic and necrotic cells. Cell dedifferentiation was characterized by the loss of sarcomeric structure, condensation and extrusion of sarcomeric proteins. Cells cultured with low serum recovered and assumed a flattened, spread form with two distinct morphologies apparent. Type I cells were large, had extensive sarcolemmal spreading, with stress fibers and nascent myofibrils, whilst type II cells appeared smaller, with more mature myofibril organisation and focal adhesions. CONCLUSION: Characterization of the redifferentiation capabilities of cultured adult cardiac myocytes in culture, provides an important system for comparing cardiomyocytes differentiating from human stem cells and provides the basis for an in vitro transplantation model to study interaction and communication between primary adult and stem cell-derived cardiomyocytes.     

Adiponectin deficiency exacerbates cardiac dysfunction following pressure overload through disruption of an AMPK-dependent angiogenic response

Although increasing evidence indicates that an adipokine adiponectin exerts protective actions on heart, its effects on coronary angiogenesis following pressure overload have not been examined previously. Because disruption of angiogenesis during heart growth leads to contractile dysfunction and heart failure, we hypothesized that adiponectin modulates cardiac remodeling in response to pressure overload through its ability to regulate adaptive angiogenesis. Adiponectin-knockout (APN-KO) and wild-type (WT) mice were subjected to pressure overload caused by transverse aortic constriction (TAC). APN-KO mice exhibited greater cardiac hypertrophy, pulmonary congestion, left ventricular (LV) interstitial fibrosis and LV systolic dysfunction after TAC surgery compared with WT mice. APN-KO mice also displayed reduced capillary density in the myocardium after TAC, which was accompanied by a significant decrease in expression of vascular endothelial growth factor (VEGF) and phosphorylation of AMP-activated protein kinase (AMPK). Inhibition of AMPK in WT mice resulted in aggravated LV systolic function, attenuated myocardial capillary density and decreased VEGF expression in response to TAC. The adverse effects of AMPK inhibition on cardiac function and angiogenic response following TAC were diminished in APN-KO mice relative to WT mice. Moreover, adenovirus-mediated VEGF delivery reversed the TAC-induced deficiencies in cardiac microvessel formation and ventricular function observed in the APN-KO mice. In cultured cardiac myocytes, adiponectin treatment stimulated VEGF production, which was inhibited by inactivation of AMPK signaling pathway. Collectively, these data show that adiponectin deficiency can accelerate the transition from cardiac hypertrophy to heart failure during pressure overload through disruption of AMPK-dependent angiogenic regulatory axis.     

鞘氨醇-1-磷酸对心脏肥大的作用及对心脏微血管内皮细胞的影响

目的探讨鞘氨醇-1-磷酸(S1P)对心脏肥大(CH)的作用与对心脏微血管内皮细胞(CMECs)功能及血管新生的调控,及对磷脂酰肌醇3-激酶/蛋白激酶B/血管内皮生长因子(PI3K/AKT/VEGF)通路的影响。方法收集51例CH患者和65例正常志愿者外周血,及其死亡捐赠的左心室心肌组织,采用免疫组织化学法(IHC)检测两组心肌组织S1P含量,酶联免疫吸附测定法(ELISA)检测外周血S1P、人二氢-S1P(DH-S1P)和血管内皮生长因子(VEGF)的含量。采用免疫荧光法(IF)分别对两组心肌组织进行S1P和分化簇31(CD31)、S1P和Alpha-平滑肌肌动蛋白(α-SMA)共定位染色。采用免疫印迹法(WB)检测心肌组织S1P、S1P受体1-3(S1PR1-3)、α-SMA、CD31及PI3K/AKT通路的变化。分离培养原代CMECs,将第3代CMECs接种于12孔板中,建立肥大CMECs模型,分为两组:去氧肾上腺素(PE)组和PE+S1P(OE)组,每组6孔。OE组转染1μg的PDEST42-S1P-V5质粒24 h,IF对细胞进行染色。结果CH患者心肌组织S1P和血清S1P、DH-S1P和VEGF含量显著低于正常志愿者(t=6.994、7.822、5.982、9.811,P<0.05),且血清VEGF和S1P含量呈显著正相关性(r=0.427,P>0.01)。相比于正常志愿者,CH患者心肌组织CD31+S1P+双阳性共定位细胞占CD31阳性细胞比例显著降低(t=18.214,P<0.05);α-SMA+S1P+双阳性共定位细胞占α-SMA阳性细胞比例也显著降低(t=12.451,P<0.05)。与正常志愿者相比,CH患者心肌组织S1P、S1PR3、CD31和α-SMA蛋白含量明显降低(t=4.254、4.492、15.803、9.941,P<0.05),S1PR2含量明显增高(t=6.828,P<0.05),S1PR1含量无明显变化,差异无统计学意义(P>0.05)。CH患者心脏组织p-PI3K、p-AKT和p-eNOS蛋白表达量明显低于正常志愿者(t=12.340、15.597、8.624,P<0.05)。相比于PE组,OE组中S1P和α-SMA双阳性共定位细胞占α-SMA阳性细胞比例显著增加,细胞培养上清中S1P和VEGF蛋白水平显著增加(t=6.894、5.213,P<0.05)。结论低水平的S1P可能通过抑制CMECs血管新生和间充质转换,及下调PI3K/AKT/eNOS通路在CH的发生发展中发挥重要作用。