Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Damage to the enteric nervous system is implicated in human disease and animal models of inflammatory bowel disease, diabetes, and Parkinson's disease, but the mechanism of death and the response of surviving neurons are poorly understood. We explored this in a coculture model of myenteric neurons, glia, and smooth muscle during exposure to the established or potential neurotoxins botulinum A, hydrogen peroxide, and acrylamide. Neuronal survival, axonal degeneration and regeneration, and neurotransmitter release were assessed during acute exposure (0-24 h) to neurotoxin and subsequent recovery (96-144 h). Unique and selective responses to each neurotoxin were found with acrylamide (0.5-2.0 mM) causing a 30% decrease in axon number without neuronal loss, whereas hydrogen peroxide (1-200 microM) caused a parallel loss in both axon and neuron number. Immunoblotting identified the loss of synaptic vesicle proteins that paralleled axon damage and was associated with marked suppression of depolarization-induced release of acetylcholine (ACh). The caspase inhibitor zVAD, but not DEVD, significantly prevented neuronal death, implying a largely caspase-3/7-independent mechanism of apoptotic death that was supported by staining for annexin V and cleaved caspase-3. In contrast, botulinum A (2 microg/ml) caused a 40% decrease in ACh release without effect on neuronal survival or axon structure. By 96 h after exposure to acrylamide or hydrogen peroxide, axon number was restored to or even surpassed the level of time-matched controls, regardless of partial neuronal loss, but ACh release remained markedly suppressed. Neural responses to toxic factors are initially unique but then converge upon robust axonal regeneration, whereas neurotransmitter release is both vulnerable to damage and slow to recover.
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PMID:Discrete responses of myenteric neurons to structural and functional damage by neurotoxins in vitro. 1940 12

Sutherlandia frutescens is a South African herb traditionally used for internal cancers, diabetes, a variety of inflammatory conditions and recently to improve the overall health in cancer and HIV/AIDS patients. The in vitro effects of S. frutescens extracts were evaluated on cell numbers, morphology, cell cycle progression and cell death. Dose-dependent studies (2-10 mg/ml) revealed a decrease in malignant cell numbers when compared to their controls. S. frutescens extracts (10 mg/ml) decreased cell growth in a statistically significantly manner to 26% and 49% (P<0.001) in human breast adenocarcinoma (MCF-7) and human non-tumorigenic epithelial mammary gland cells (MCF-12A) respectively after 72 h of exposure. Cell density was significantly compromised and hypercondensed chromatin, cytoplasmic shrinking, membrane blebbing and apoptotic bodies were more pronounced in the MCF-7 cell line. Both S. frutescens-treated cell lines exhibited and increased tendency for acridine orange staining, suggesting increased lysosomal and/or autophagy activity. Flow cytometry showed an increase in the sub G(1) apoptotic fraction and an S phase arrest in both the 5 mg/ml and 10 mg/ml S. frutescens-treated cells. S. frutescens induced an increase in apoptosis in both cell lines as detected by Annexin V and propidium iodide flow cytometric measurement. At 10 mg/ml, late stages of apoptosis were more prominent in MCF-7 S. frutescens-treated cells when compared to the MCF-12A cells. Transmission electron microscopy revealed hallmarks of increased vacuolarization and hypercondensed chromatin, suggesting autophagic and apoptotic processes. The preliminary study demonstrates that S. frutescens water extracts exert a differential action mechanism in non-tumorigenic MCF-12A cells when compared to tumorigenic MCF-7 cells, warranting future studies on this multi-purpose medicinal plant in southern Africa.
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PMID:In vitro effects of Sutherlandia frutescens water extracts on cell numbers, morphology, cell cycle progression and cell death in a tumorigenic and a non-tumorigenic epithelial breast cell line. 1952 21

Type 2 diabetes is a complex disorder with a strong genetic background. CDC2L2 is one of the susceptibility genes of type 2 diabetes in Chinese Han population in northern area. The relationship between CDC2L2 and type 2 diabetes remains unknown. In this paper, the function and its molecular pathway of p58, a protein coded by CDC2L2, in beta cell apoptosis were investigated. INS-1 cells cultured in high glucose (20 mmol/L) medium were divided into control, vector control (transfected with pcDNA3.0) and experimental (transfected with pcDNA3.0-HA-p58) groups. Beta cell apoptosis level was detected by Annexin V-FITC/PI double staining assay. The flow cytometry results showed that in high glucose medium (20 mmol/L), high expression of p58 increased beta cell apoptosis significantly compared with that in blank and vector controls (P<0.01, P<0.05). Western blot revealed that the expressions of Caspase-3, Bax and cytochrome C in cytoplasm increased significantly (P<0.05, P<0.01, P<0.01), whereas the expression of Bcl-2 decreased significantly (P<0.05) in the INS-1 cells with high expression of p58, compared with those in both control groups. However, the Bad and Bik expression levels of INS-1 cells did not show obviously changes compared with those in both controls. The above results suggest that in high glucose condition, p58 may induce INS-1 cell apoptosis through up-regulating the expression of Bax and down-regulating the expression of Bcl-2, since both of them could promote the release of cytochrome C into cytoplasm, and finally activate Caspase-3. These results provide an important basis for the further exploration of the molecular mechanism of beta cell apoptosis induced by CDC2L2.
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PMID:[Molecular mechanism of beta cell apoptosis induced by p58 in high glucose medium]. 1970 91

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

Hyperglycemia which characterizes diabetes, leads to several abnormalities in the cellular pathways. We examined the toxicity of glucose in human hepatoma HepG2 cells. HepG2 cells when incubated with 50mM glucose for 72h showed altered morphology i.e. presence of detached and shrunken rounded cells. Glucose treated HepG2 cells also exhibited a significant decrease in viability. Caspase-3 activity and Annexin V staining were significantly increased in glucose treated HepG2 cells, suggesting an apoptotic mode of cell death. Glucose induced apoptosis in HepG2 cells was a consequence of increased oxidative stress as evidenced by the increased reactive oxygen species (ROS) level, lipid peroxidation, protein carbonyl and 3-nitrotyrosine adduct formation. The intracellular antioxidant glutathione was found to be increased in HepG2 cells treated with glucose, possibly to aid the cells to overcome the persistent oxidative stress elicited by glucose in HepG2 cells. N-Acetyl cysteine, a precursor of glutathione and an antioxidant was effective in reversing the morphological changes, increasing the viability, decreasing the ROS level and 4-hydroxynonenal and 3-nitrotyrosine adduct formation, thus validating the role of oxidative stress as a major mechanism for glucose induced apoptosis in HepG2 cells. These results suggest that glucose induces apoptosis in liver cells through increased oxidative stress.
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PMID:Apoptosis in HepG2 cells exposed to high glucose. 1989 8

To define whether repetitive exposures to low-dose radiation (LDR) can attenuate diabetes-induced testicular cell death, Type 1 diabetic rats were produced by single injection of streptozotocin (STZ). Once hyperglycemia was diagnosed, diabetic rats were treated with and without LDR (25 and 50 mGy X-rays) daily for 4 weeks. Eight and 12 weeks after diabetes onset, testicular apoptotic cell death was examined by flow cytometry with Annexin V/PI staining, Western blotting assay for caspase-3 cleavage, and TUNEL staining for localization of apoptotic cells. Diabetes induced a significant increase in testicular apoptotic cell death, which was able to be attenuated by repetitive exposures to LDR. Diabetes-induced testicular cell death was associated with increased mitochondrial dysfunction, shown by the decreased mitochondrial potential and increased expressions of Bax mRNA and protein. All these changes were significantly attenuated in certain extends by repetitive exposures to LDR. To investigate the mechanisms by which LDR attenuates diabetes-induced testicular apoptotic cell death, serum sex hormone (testosterone, luteinizing hormone and follicle stimulating hormone) levels, and both serum and testicular oxidative damage (lipid peroxides) and antioxidant contents (superoxide dismutase, catalase and glutathione) were measured. Serum sex hormones were significantly decreased in diabetic rats, but not significantly in diabetic rats with multiple exposures to LDR; serum and testicular oxidative damage was significantly increased along with significant decreases in serum and testicular antioxidants in diabetic rats; however, these changes were significantly prevented by repetitive exposures to LDR. Furthermore, diabetic effects on the testicular oxidative damage and cell death were all attenuated by antioxidant N-acetylcysteine. These results suggest that diabetes-induced testicular cell death is probably mediated by increased oxidative stress. LDR protection from diabetes-induced testicular cell death is most likely mediated by its preserving antioxidants.
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PMID:Repetitive exposures to low-dose X-rays attenuate testicular apoptotic cell death in streptozotocin-induced diabetes rats. 1993 67

Down's syndrome (DS) is characterized by several pathological aspects leading to an increased susceptibility to cardiovascular diseases, infections, leukemia, endocrine alterations. DS patients display some of the physiopathological characteristics of aging, observed also in Alzheimer disease (AD), such as abnormalities in lipids metabolism, diabetes, high cholesterol fraction, senile plaques and neurofibrillary tangles. For this reason DS is considered a precocious and accelerated model of senescence, in which increased apoptosis is the main cornerstone. In order to better understand the apoptotic process in pathological cellular aspects of DS, the aim of this study was to investigate the apoptotic response of DS fibroblasts to OA, a toxin that induces malformations and inhibits growth in different cell lines. We focused specifically on the mitochondrial response by investigating changes in mitochondrial membrane potential (evaluate by flow cytometry and fluorescence microscopy using JC-1 probe) and alterations of mitochondrial outer membrane (evaluated by flow cytometry using annexin V/propidium iodide). Results indicates that DS Fibroblasts have a baseline of apoptosis higher than normal fibroblasts and are more susceptible to the pro-apoptotic effect of OA. Understanding the mechanism of apoptosis in DS fibroblasts could provide new insight in the pathogenic mechanism of this pathology and suggest potential therapeutical targets to the clinical treatment at complex diseases associated to this pathology.
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PMID:Okadaic acid induces apoptosis in Down syndrome fibroblasts. 2000 80

Angiogenesis is observed in many diseases, such as tumor progression, diabetes and rheumatoid arthritis; it is a process that involves proliferation, migration, differentiation and tube formation of endothelial cells. Vascular endothelial growth factor (VEGF) plays an important role in angiogenesis by induction of these endothelial functions. Thus, inhibition of these critical angiogenic steps is a practical therapeutic strategy for those diseases. NP-184 is a substituted benzimidazole analogue which exhibits a potent anti-thrombotic activity. In this report, NP-184 inhibited the viability of human umbilical vascular endothelial cells (HUVEC) in a concentration-dependent manner, and caused cell apoptosis as examined by cell-cycle analysis and Annexin V staining with flow cytometry. NP-184 also concentration-dependently inhibited the HUVEC migration, tube formation on Matrigel, and rat aortic ring sprouting stimulated by VEGF. Regarding the intracellular signal transduction, NP-184 concentration-dependently interfered with the activation of AKT, ERK and the nuclear translocation of NF-kappaB. In vivo study showed that NP-184 dose-dependently reduced angiogenesis in Matrigel plug assay. These results indicate that NP-184 is a potential candidate for developing the treatment of angiogenesis related-diseases.
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PMID:A novel compound, NP-184, inhibits the vascular endothelial growth factor induced angiogenesis. 2006 87

The morphological and functional integrity of the endothelial cell (EC) is compromised in many cardiovascular diseases such as atherosclerosis, hypertension, and diabetes. Angiotensin II (Ang II) plays important roles in the initiation and progression of these diseases. 3-Hydroxy-3-methylglutaryl-coenzyme A reductase inhibitors (statins) may have cholesterol-independent pleiotropic effects on preventing the EC injury and dysfunction that occurs in these diseases, and the protective effects may relate to bradykinin 2 receptors (B2Rs). Our study was designed to test the hypothesis that atorvastatin, via B2Rs, protects the viability and function of EC exposed to Ang II independent of hemodynamics. The experimental results showed that the cytotoxic effects of Ang II on human umbilical vein endothelial cells were significantly ameliorated by atorvastatin pretreatment (LDH tests, MTT assay, and propdium iodide (PI)/Annexin V-stating analysis), and atorvastatin treatment simultaneously enhanced expression of endothelial nitric oxide synthase and yielded of nitric oxide (NO) and cyclic guanosine monophosphate, but both effects were attenuated by the B2Rs antagonist HOE-140. This study proves the hypothesis and may be pertinent to the complex mechanism of action of statins explaining their long-term beneficial effects in maintaining the morphological and functional integrity of vascular ECs.
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PMID:Atorvastatin protects against angiotensin II-induced injury and dysfunction in human umbilical vein endothelial cells through bradykinin 2 receptors. 2048 55


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