Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P08758 (annexin V)
 9,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Apoptosis, a form of programmed cell death (PCD), plays an important role in the initiation and progression of a number of cardiovascular disease, such as heart failure, myocardial infarction, and atherosclerosis. One of the most prominent characteristics of apoptosis is the externalisation of phosphatidylserine (PS), a plasma cell membrane phospholipid, which in healthy cells only is present on the inner leaflet of the plasma cell membrane. Annexin A5, a 35 kD plasma protein, has strong affinity for PS in the nano-molar range. Through the coupling of Annexin A5 to contrast agents, visualization of apoptotic cell death in vivo in animal models and in patients has become feasible. These imaging studies have provided novel insight into the extent and kinetics of apoptosis in cardiovascular disease. Furthermore, Annexin A5 imaging has proven to be a suitable imaging biomarker for the evaluation of cell death modifying compounds and plaque stabilizing strategies. Recent insight in PS biology has shown that PS externalisation not only occurs in apoptosis, but is also observed in activated macrophages and stressed cells. In addition, it has been shown that Annexin A5 not only binds to exteriorized PS, but is also internalized through an Annexin A5 specific mechanism. These latter findings indicate that Annexin A5 imaging is not exclusively valuable for apoptosis detection, but can also be used to visualize inflammation and cell stress. This will open novel opportunities for imaging and drug delivery strategies. In this review we will discuss the introduction of Annexin A5 in preclinical and clinical imaging studies and provide an outlook on novel opportunities of Annexin A5 based targeting of PS.
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PMID:Annexin A5: an imaging biomarker of cardiovascular risk. 1832 65

Platelet microparticles (PMP) are released from activated platelets and play an important role in hemostasis, thrombosis and inflammation. Since platelets were recently found to demonstrate an intrinsic capacity for activating both classical and alternative pathways of the complement system, the present study extended these observations to PMP. PMP were generated by treating platelets with 10 microM A23187 (37 degrees C, 5 min). PMP were identified by flow cytometry, based on size, Annexin V binding, and expression of P-selectin and GPIIb (CD41). PMP expressed gC1qR/p33, a multifunctional cellular protein that was recently described to activate the classical complement cascade. PMP also expressed the classical pathway and contact system regulator, C1 inhibitor (C1-INH), as well as CD55 and CD59. Despite C1-INH expression, PMP supported classical pathway C4 activation in the presence of purified C1 and C4. Moreover, statistically significant deposition of C3b and C5b-9 was detected on PMP exposed to plasma, concurrently with expression of CD55 and CD59. These data provide the first evidence for the ability of PMP to support in situ complement activation. Complement activation contributes to a variety of vascular and inflammatory disease states including atherosclerosis and ischemia/reperfusion injury.
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PMID:Expression of complement components and inhibitors on platelet microparticles. 1843 23

The accelerated atherosclerosis that occurs in some patients with systemic lupus erythematosus (SLE) has a complex pathogenesis, including alterations in lipids, inflammation and the immune system. In this article, we review the evidence that peroxidase-related alteration of normal, protective high-density lipoprotein (HDL) converts them to pro-inflammatory HDL (piHDL), characterized by lower content of the cholesterol transport lipoprotein ApoA1 and impaired function of the antioxidant enzyme paroxonase, which prevents oxidation of low-density lipoprotein (LDL). Forty-five per cent of women with SLE have piHDL compared with 20% of patients with rheumatoid arthritis and 4% of healthy controls. The presence of piHDL increases risk for coronary artery events and carotid artery plaque. Another result of lipid oxidation in patients with SLE is generation of highly oxidized LDL and phospholipids (PL), probably stimulating antibodies to OxPL phospholipids. These antibodies along with promoting thrombosis also interfere with deposits of Annexin V onto endothelial cells, which probably promote increased instability of atherosclerotic plaque. Thus, piHDL and anti-OxPL promote plaque formation, plaque instability and thrombosis, accounting for some of the large increase in atherosclerosis and coronary artery events in SLE.
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PMID:Atherosclerosis and systemic lupus erythematosus: the role of altered lipids and of autoantibodies. 1849 Apr 9

Oxidized low density lipoproteins (OxLDL) are known to promote atherosclerosis, but it is only recently that OxLDL have been associated with alterations of the functions of bone-forming osteoblasts and osteoporosis. Although high density lipoproteins (HDL) are recognized for their anti-atherogenic action, there is less information about their ability to protect against osteoporosis. Therefore, we investigated the capacity of HDL3 to prevent the cell death induced by OxLDL in human osteoblastic cells. Simultaneous exposure of the cells to HDL3 and OxLDL abolished the reduction of cell viability monitored by MTT activity measurement and the induction of apoptosis determined by annexin V staining indicating that HDL3 prevent the apoptosis of osteoblasts induced by OxLDL. This protection correlated with the displacement by HDL3 of OxLDL association to osteoblasts, signifying that OxLDL binding and/or internalization are/is necessary for their cytotoxic effects. We also found that exposition of osteoblastic cells to HDL3 prior to incubation with OxLDL reduced cell death and preserved the lysosomal integrity. This protection was correlated with an increase of SR-BI expression, a modification of OxLDL metabolism with less global uptake of OxLDL and greater selective uptake of cholesterol from OxLDL. These results strongly suggest that, as for atherosclerosis, HDL may exert beneficial actions on bone metabolism.
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PMID:HDL3 reduces the association and modulates the metabolism of oxidized LDL by osteoblastic cells: a protection against cell death. 1898 Feb 42

Low density lipoprotein modified by secretory phospholipase A(2) (PLA-LDL) protects monocytes against oxidative stress. In this study we investigated possible direct effects of PLA-LDL on mitochondrial membrane potential and reactive oxygen species generation. Mitochondrial membrane potential in human monocytic THP-1 cells or primary human monocytes was monitored by flow cytometry using the fluorescent dye 5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazolylcarbocyanine iodide or respirometry. Formation of reactive oxygen species was determined by flow cytometric measuring 2',7'-dichlorofluorescin oxidation. Cell death was assessed using Annexin V/propidium iodide staining. We observed that PLA-LDL caused mitochondrial uncoupling in monocyte/macrophage cell lines as well as in primary human monocytes. PLA-LDL-associated non-esterified fatty acids provoked uncoupling. Uncoupling attenuated reactive oxygen species formation induced by hydrogen peroxide, 2,3-dimethoxy-1,4-naphthoquinone or oxidized LDL. Knock-down of uncoupling protein UCP2 affected neither PLA-LDL-induced uncoupling, nor reactive oxygen species generation. Furthermore, we observed that the chemical uncoupler carbonyl cyanide m-chlorophenylhydrazone increased THP-1 cell survival after hydrogen peroxide treatment. Thus, PLA-LDL-induced uncoupling attenuates reactive oxygen species generation, which may contribute to increased monocyte survival in atherosclerotic plaques and support pro-atherogenic effects of LDL modified by PLA(2).
Atherosclerosis 2010 Jan
PMID:Phospholipase A2-modified low density lipoprotein induces mitochondrial uncoupling and lowers reactive oxygen species in phagocytes. 1964 53

Molecular and cellular imaging of atherosclerosis has garnered more interest at the beginning of the 21st century, with aims to image in vivo biological properties of plaque lesions. Apoptosis seems an attractive target for the diagnosis of vulnerable atherosclerotic plaques prone to a thrombotic event. The aim of the present work was to screen for apoptosis peptide binders by phage display with the final purpose to detect apoptotic cells in atherosclerotic plaques by magnetic resonance imaging (MRI). A phosphatidylserine-specific peptide identified by phage display was thus used to design an MRI contrast agent (CA), which was evaluated as a potential in vivo reporter of apoptotic cells. A library of linear 6-mer random peptides was screened in vitro against immobilized phosphatidylserine. Phage DNA was isolated and sequenced, and the affinity of peptides for phosphatidylserine was evaluated by enzyme-linked immunosorbent assay. The phosphatidylserine-specific peptide and its scrambled homologue were attached to a linker and conjugated to DTPA-isothiocyanate. The products were purified by dialysis and by column chromatography and complexed with gadolinium chloride. After their evaluation using apoptotic cells and a mouse model of liver apoptosis, the phosphatidylserine-targeted CA was used to image atherosclerotic lesions on ApoE(-/-) transgenic mice. Apoptotic cells were detected on liver and aorta specimens by the immunostaining of phosphatidylserine and of active caspase-3. Sequencing of the phage genome highlighted nine different peptides. Their alignment with amino acid sequences of relevant proteins revealed a frequent homology with Ca2+ channels, reminiscent of the function of annexins. Alignment with molecules involved in apoptosis provides a direct correlation between peptide selection and utility. The in vivo MRI studies performed at 4.7 T provide proof of concept that apoptosis-related pathologies could be diagnosed by MRI with a low molecular weight paramagnetic agent. The new CA could have real potential in the diagnosis and therapy monitoring of atherosclerotic disease and of other apoptosis-associated pathologies, such as cancer, ischemia, chronic inflammation, autoimmune disorders, transplant rejection, neurodegenerative disorders, and diabetes mellitus. The phage display-derived peptide could also play a potential therapeutic role through anticoagulant activity by mimicking the role of annexin V, the endogenous ligand of phosphatidylserine.
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PMID:Peptidic targeting of phosphatidylserine for the MRI detection of apoptosis in atherosclerotic plaques. 1974 79

Endothelial progenitor cells (EPCs) play an important role in preventing atherosclerosis. The factors that regulate the function of EPCs are not completely clear. Increased formation of advanced glycation endproducts (AGEs) is generally regarded as one of the main mechanisms responsible for vascular damage in patients with diabetes and atherosclerosis. AGEs lead to the generation of reactive oxygen species (ROS) and part of the regenerative capacity of EPCs seems to be due to their low baseline ROS levels and reduced sensitivity to ROS-induced cell apoptosis. Therefore, we tested the hypothesis that AGEs can alter functions and promote apoptosis in EPCs through overpress cell oxidant stress. EPCs, isolated from bone marrow, were cultured in the absence or presence of AGEs (50, 100, and 200 microg/ml). A modified Boyden's chamber was used to assess the migration of EPCs and the number of recultured EPCs was counted to measure the adhesiveness function. MTT assay was used to determine the proliferation function. ROS were analyzed using the ROS assay kit. A spectrophotometer was used to assess superoxide dismutase (SOD) and glutathione peroxidase (GSH-PX) activity, and PCR was used to test mRNA expression of SOD and GSH-PX. SiRNA was used to block receptor for advanced glycation endproducts (RAGEs) expression. Apoptosis was evaluated by Annexin V immunostaining and TUNEL staining. Co-culturing with AGEs increases ROS production, decreases anti-oxidant defenses, overpresses oxidant stress, inhibits the proliferation, migration, and adhesion of EPCs, and induces EPCs apoptosis. In addition, these effects were attenuated during block RAGE protein expression by siRNA. AGEs may serve to impair EPCs functions through RAGE-mediate oxidant stress, and promote EPCs sensitivity toward oxidative-stress-mediated apoptosis, which indicates a new pathophysiological mechanism of disturbed vascular adaptation in atherosclerosis and suggests that lower levels of AGEs might improve the success of progenitor cell therapy.
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PMID:Advanced glycation endproducts alter functions and promote apoptosis in endothelial progenitor cells through receptor for advanced glycation endproducts mediate overpression of cell oxidant stress. 1975 58

Anti-phospholipid syndrome (APS) is defined based on both clinical findings (recurrent arterial and/or venous thrombosis and recurrent fetal loss) and laboratory evidence of persistent anti-phospholipid antibodies (anti-cardiolipin antibodies, anti-beta2 glycoprotein I antibodies, or LA activity). However, the precise mechanism responsible for arterial and/or venous thromboembolic complications in APS patients remains unclear. To clarify the association between the various types of anti phospholipid antibodies (aPLs) and thrombotic complications, we examined the prevalence of seven types of aPLs [anti-cardiolipin/beta2-glycoprotein I antibodies(anti-CL/beta2-GPI), anti-phosphatidylserine/prothrombin antibodies(anti-PS/PT), anti-beta2-glycoprotein I antibodies (anti-beta2-GPI), anti prothrombin antibodies (anti-PT), anti-protein C antibodies (anti-PC), anti-protein S antibodies(anti-PS), and annexin V antibodies(anti-AN)] in 168 patients with systemic lupus erythematosus (SLE). We confirmed that the presence of anti-CL/beta2-GPI, anti-PS/PT, and anti-beta2-GPI is closely related to arterial thrombosis, and that the presence of anti-protein S is closely related to venous thromboembolism. Furthermore, our in-vitro experiment suggests that anti-CL/beta2-GPI and anti-PS/PT may cooperate to promote platelet activation, and may be involved in the pathogenesis of arterial thrombosis. On the other hand, anti-protein S led to APC resistance, which may represent an important mechanism responsible for the development of venous thrombosis. Furthermore, our study showed that anti-CL/beta2-GPI causes a persistently high-level expression of tissue factor on monocytes, and this may increase the risk of atherosclerosis.
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PMID:[Advanced clinical laboratory studies in the graduate school of medicine--studies on pathogenic mechanisms of anti-phospholipid syndrome]. 1976 14

Damage to endothelial cells is a key event in the pathogenesis of atherosclerosis and vascular disease. This study aimed to determine whether free fatty acids (FFAs) induced oxidative stress and apoptosis in human brain microvascular endothelial cells (HBMVECs) in vitro and, if so, which signalling pathway mediated these effects. After culture in different concentrations of FFAs for 24 - 72 h, cell viability/proliferation was determined using a cell counting kit, apoptosis was detected by measuring caspase-3 activity and by using annexin V-conjugated fluorescein isothiocyanate/propidium iodide staining, and oxidative stress was evaluated by measuring the levels of reactive oxygen species (ROS) and mitochondrial membrane potential (MMP). The HBMVECs exposed to FFAs showed significantly decreased cell proliferation, increased apoptosis and ROS levels, and decreased MMP. In conclusion, the results showed that high levels of FFAs induced oxidative stress, which damaged HBMVECs and resulted in apoptosis.
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PMID:Oxidative stress and apoptosis of human brain microvascular endothelial cells induced by free fatty acids. 2014 89

We investigated the molecular mechanisms responsible for the induction of apoptosis in mouse monocytic macrophage cell line J774A.1 stimulated by 7-ketocholesterol (7-KC). Cell apoptosis was detected by Annexin V-propidium iodide (PI) staining. The DNA-binding activity of nuclear factor kappa B (NF-kappaB) was assessed by electrophoretic mobility shift assay (EMSA). Results showed that 7-KC-stimulation in J774A.1 cells activated NF-kappaB, which is involved in cell apoptosis, in a time- and dose-dependent manners. 7-KC was also found to increase the binding activity of NF-kappaB to specific DNA binding sites, a possible mechanism for the induction of the cell apoptosis. Moreover, these effects were partially inhibited by pyrrolidine dithiocarbamate (PDTC), an NF-kappaB inhibitor. Taken together, 7-KC may be an important factor in atherosclerosis due to the ability of 7-KC to induce cell apoptosis, which is at least partially mediated through the activation of NF-kappaB.
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PMID:7-ketocholesterol induces cell apoptosis by activation of nuclear factor kappa B in mouse macrophages. 2042 63


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