Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020473 (hyperlipidemia)
 15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A hallmark of hyperlipidemia-induced atherosclerosis is altered gene expression that initiates cell proliferation and (de)differentiation in the intima of the arterial wall. The molecular signaling that mediates this process in vivo has yet to be identified. Extracellular signal-regulated kinases (ERKs) are thought to play a pivotal role in transmitting transmembrane signals required for cell proliferation in vitro. The present studies were designed to investigate the activity, abundance, and localization of ERK1/2 in atherosclerotic lesions of cholesterol-fed rabbits. Immunofluorescence analysis revealed abundant and heterogeneous distribution of ERK1/2, mainly localized in the cap and basal regions of atheromas. A population of ERK-enriched cells was identified as alpha-actin-positive smooth muscle cells (SMCs). ERK1 and 2 were heavily phosphorylated on tyrosyl residues and coexpressed with proliferating cell nuclear antigen in atherosclerotic lesions. ERK1/2 protein levels in protein extracts from atherosclerotic lesions were 2- to 3-fold higher than the vessels of chow-fed rabbits, and their activities were elevated 3- to 5-fold over those of the normal vessel. SMCs derived from atherosclerotic lesions had increased migratory/proliferative ability and higher ERK activity in response to LDL stimulation compared with cells from the normal vessel. Inhibition of ERK activation by PD98059, a specific inhibitor of mitogen-activated protein kinase kinases (MEK1/2), abrogated LDL-induced SMC proliferation in vitro. Taken together, our findings support the proposition that persistent activation and hyperexpression of ERK1/2 may be a critical element to initiate and perpetuate cell proliferation during the development of atherosclerosis.
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PMID:Hyperexpression and activation of extracellular signal-regulated kinases (ERK1/2) in atherosclerotic lesions of cholesterol-fed rabbits. 1063 96

Hyperlipidemia alters gene expression of arterial endothelial and smooth muscle cells (SMCs) and induces atherosclerotic lesions, in which cell proliferation and apoptosis co-exist. The signal transduction pathways that mediate these responses in the vessel wall in vivo have yet to be identified. Stress-activated protein kinases (SAPKs) or c-Jun NH(2)-terminal protein kinases (JNKs) are thought to be crucial in transmitting transmembrane signals required for cell differentiation and apoptosis in vitro. In the present study, we investigated the localization and activity of SAPK/JNK in atherosclerotic lesions of cholesterol-fed rabbits. Immunofluorescence analysis revealed abundant and heterogeneous distribution of pan-SAPK/JNK and phosphorylated SAPK/JNK, which were mainly localized in cell nuclei of the lesional cap and basal regions. Double staining of the lesions demonstrated that a portion of alpha-actin(+) SMCs and RAM11(+) macrophages contained abundant phosphorylated SAPK/JNK proteins. SAPK/JNK protein levels in protein extracts from atherosclerotic lesions were two- to threefold higher than the vessels of chow-fed rabbits. SAPK/JNK activities were elevated three- to fivefold higher than the normal vessels. Interestingly, increased SAPK/JNK in lesions was co-localized or coincided with high levels of transcription factor p53 as identified by double labeling and immunoprecipitation. Abundant pro-apoptotic protein BAX and BCL-X(S) were also observed. Furthermore, low-density lipoprotein (LDL) and oxidized LDL stimulated SAPK/JNK activation in cultured SMCs in a time- and dose-dependent manner. LDL also induced SAPK/JNK activation in vascular SMCs derived from LDL-receptor-deficient Watanabe rabbits, indicating a LDL-receptor-independent process. Thus, SAPK/JNK persistently hyperexpressed and activated in lesions may play a key role in mediating cell differentiation and apoptosis during the development of atherosclerosis via activation of transcription factor p53.
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PMID:Increased expression and activation of stress-activated protein kinases/c-Jun NH(2)-terminal protein kinases in atherosclerotic lesions coincide with p53. 1085 11

The insulin gene promoter contains many transcriptional response elements that predispose the gene to a wide range of regulatory signals. Glucagon-like peptide 1 (GLP-1) stimulates insulin gene transcription by intracellular second messenger cascades leading to direct transcription factor activation or to the up-regulation of insulin promoter specific transcription factors. In these studies, we have identified a novel regulatory signaling mechanism acting on the rat insulin 1 promoter (rINS1) in the INS-1 beta-cell line. In the presence of stimulatory concentrations of GLP-1 (0.1--100 nM) on rINS1 activity, inhibition of p38 mitogen-activated protein kinase (p38 MAPK) using SB 203580 resulted in a marked increase in promoter activity (maximum 3-fold) over GLP-1 alone, as determined by rINS1 promoter-luciferase reporter gene expression. This effect was revealed to be mediated via the cAMP response element (CRE) of rINS1, because site directed mutagenesis of the CRE motif in rINS1 abolished the increased response to SB 203580. Furthermore, inhibition of p38 MAPK uncovered a similar, more pronounced, response in the expression of a generic CRE promoter driven reporter gene. Time course dose-response studies indicate that the p38 MAPK induced inhibitory response may involve expression of immediate early genes (IEGs); maximum repression of rINS1 activity occurred after 4 h of treatment, comparable with regulatory responses by IEGs. In conclusion, these results demonstrate a novel signaling mechanism whereby p38 MAPK represses rINS1 promoter activity in response to GLP-1, suggesting the involvement of a robust regulatory control by p38 MAPK in insulin gene expression. The relevance of this mechanism may be most apparent during periods of cellular stress in which p38 MAPK activity is stimulated. In this regard, reduced insulin expression levels caused by chronic hyperglycemia (glucotoxicity) and/or hyperlipidemia (lipotoxicity) may be a direct consequence of this mechanism.
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PMID:Insulinotropic hormone glucagon-like peptide 1 (GLP-1) activation of insulin gene promoter inhibited by p38 mitogen-activated protein kinase. 1118 33

Abnormalities in lipid and lipoprotein metabolism are commonly observed in patients with chronic renal disease. Specifically, hyperlipidemia and the glomerular deposition of atherogenic lipoproteins (e.g., Low density lipoprotein, LDL; and its oxidized variants) are implicated in key pathobiological processes involved in the development of glomerular disease, including stimulation of monocyte infiltration into the mesangial space, mesangial cell hypercellularity, and mesangial extracellular matrix deposition. This review discusses recent understanding of glomerular mitogenic responses, intracellular signaling events associated with mesangial hypercellularity in renal diseases, and the participation of cholesterol and atherogenic lipoproteins in intracellular signaling pathways involved in mesangial cell proliferation. Generally, the mitogenic intracellular signaling pathways are regulated by the activation of series of transmembrane and cytoplasmic protein tyrosine kinases that converge into the activation of Ras and down-stream mitogen-activated protein kinase (MAP kinase). Activated MAP kinase, through translocating into the nucleus and the activation of various transcription factors and protooncogenes, regulate cell proliferation. The importance of mitogenic intracellular signaling in mesangial proliferative disease has only recently been recognized and showed that the activation of MAP kinase and/or cyclin/cyclin-dependent kinases play crucial role in different phases of cell growth cycle and hypercellularity of glomerular cells in various experimental renal diseases. Using glomerular mesangial cells as an in-vitro model system, studies from our laboratory indicated that the accumulation of LDL and more potently its oxidized forms within the glomerulus, through the activation of membrane receptor tyrosine kinases (e.g., EGF receptor), activate Ras and MAP kinase signaling cascade leading to DNA synthesis and subsequent mesangial cell proliferation. These data suggest that atherogenic lipoproteins may act as one of the major endogenous modulators for mitogenic signaling response and cell proliferation within the glomerulus. It is reasonable to speculate that the correction or reduction of hyperlipidemia, glomerular lipid deposition, and the pro-oxidative milieu within the glomerulus, through the inhibition of mitogenic signaling events, may provide protective environment against mesangial hypercellularity and subsequent matrix deposition, and the progression of renal disease.
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PMID:Low density lipoproteins and mitogenic signal transduction processes: role in the pathogenesis of renal disease. 1196 55

Insulin resistance is a key pathophysiologic feature of obesity and type 2 diabetes and is associated with other human diseases, including atherosclerosis, hypertension, hyperlipidemia, and polycystic ovarian disease. Yet, the specific cellular defects that cause insulin resistance are not precisely known. Insulin receptor substrate (IRS) proteins are important signaling molecules that mediate insulin action in insulin-sensitive cells. Recently, serine phosphorylation of IRS proteins has been implicated in attenuating insulin signaling and is thought to be a potential mechanism for insulin resistance. However, in vivo increased serine phosphorylation of IRS proteins in insulin-resistant animal models has not been reported before. In the present study, we have confirmed previous findings in both JCR:LA-cp and Zucker fatty rats, two genetically unrelated insulin-resistant rodent models, that an enhanced serine kinase activity in liver is associated with insulin resistance. The enhanced serine kinase specifically phosphorylates the conserved Ser(789) residue in IRS-1, which is in a sequence motif separate from the ones for MAPK, c-Jun N-terminal kinase, glycogen-synthase kinase 3 (GSK-3), Akt, phosphatidylinositol 3'-kinase, or casein kinase. It is similar to the phosphorylation motif for AMP-activated protein kinase, but the serine kinase in the insulin-resistant animals was shown not to be an AMP-activated protein kinase, suggesting a potential novel serine kinase. Using a specific antibody against Ser(P)(789) peptide of IRS-1, we then demonstrated for the first time a striking increase of Ser(789)-phosphorylated IRS-1 in livers of insulin-resistant rodent models, indicating enhanced serine kinase activity in vivo. Taken together, these data strongly suggest that unknown serine kinase activity and Ser(789) phosphorylation of IRS-1 may play an important role in attenuating insulin signaling in insulin-resistant animal models.
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PMID:In vivo phosphorylation of insulin receptor substrate 1 at serine 789 by a novel serine kinase in insulin-resistant rodents. 1200 86

Ciliary neurotrophic factor (CNTF) is primarily known for its roles as a lesion factor released by the ruptured glial cells that prevent neuronal degeneration. However, CNTF has also been shown to cause weight loss in a variety of rodent models of obesity/type II diabetes, whereas a modified form also causes weight loss in humans. CNTF administration can correct or improve hyperinsulinemia, hyperphagia, and hyperlipidemia associated with these models of obesity. In order to investigate the effects of CNTF on fat cells, we examined the expression of CNTF receptor complex proteins (LIFR, gp130, and CNTFRalpha) during adipocyte differentiation and the effects of CNTF on STAT, Akt, and MAPK activation. We also examined the ability of CNTF to regulate the expression of adipocyte transcription factors and other adipogenic proteins. Our studies clearly demonstrate that the expression of two of the three CNTF receptor complex components, CNTFRalpha and LIFR, decreases during adipocyte differentiation. In contrast, gp130 expression is relatively unaffected by differentiation. In addition, preadipocytes are more sensitive to CNTF treatment than adipocytes, as judged by both STAT 3 and Akt activation. Despite decreased levels of CNTFRalpha expression in fully differentiated 3T3-L1 adipocytes, CNTF treatment of these cells resulted in a time-dependent activation of STAT 3. Chronic treatment of adipocytes resulted in a substantial decrease in fatty-acid synthase and a notable decline in SREBP-1 levels but had no effect on the expression of peroxisome proliferator-activated receptor gamma, acrp30, adipocyte-expressed STAT proteins, or C/EBPalpha. However, CNTF resulted in a significant increase in IRS-1 expression. CNTFRalpha receptor expression was substantially induced in the fat pads of four rodent models of obesity/type II diabetes as compared with lean littermates. Moreover, we demonstrated that CNTF can activate STAT 3 in adipose tissue and skeletal muscle in vivo. In summary, CNTF affects adipocyte gene expression, and the specific receptor for this cytokine is induced in rodent models of obesity/type II diabetes.
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PMID:The regulation and activation of ciliary neurotrophic factor signaling proteins in adipocytes. 1242 52

Obesity is associated with a number of pathological disorders such as non-insulin-dependent diabetes, hypertension, hyperlipidemia, and cardiovascular diseases. alpha-Lipoic acid (LA) has been demonstrated to activate the insulin signaling pathway and to exert insulin-like actions in adipose and muscle cells. Based on this similarity LA is expected to promote adipogenesis in pre-adipocytes. Here, however, we report that LA inhibited differentiation of 3T3-L1 pre-adipocytes induced by a hormonal mixture or troglitazone. Northern blot analysis of cells demonstrated that this inhibition was accompanied with attenuated expression of adipocyte-specific fatty acid-binding protein and lipoprotein lipase. Electrophoretic mobility shift assay and Western blot analysis of cells demonstrated that LA modulates transcriptional activity and/or expression of a set of anti- or pro-adipogenic transcription factors. LA treatment of 3T3-L1 pre-adipocytes also resulted in prolonged activation of major mitogen-activated protein kinase signaling pathways but showed little or no effect on the activity of the insulin receptor/Akt signaling pathway. These findings suggest that LA inhibits insulin or the hormonal mixture-induced differentiation of 3T3-L1 pre-adipocytes by modulating activity and/or expression of pro- or anti-adipogenic transcription factors mainly through activating the MAPK pathways.
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PMID:Alpha-lipoic acid inhibits adipocyte differentiation by regulating pro-adipogenic transcription factors via mitogen-activated protein kinase pathways. 1283 69

Chylomicron remnants, major lipoproteins at postprandial hyperlipidemia, have been considered to be proatherogenic lipoproteins. However, the mechanisms by which chylomicron remnants enhance atherosclerosis have not been fully understood. Monocyte chemoattractant protein-1 (MCP-1) is a chemokine which stimulates migration of monocytes and plays a critical role in the development of atherosclerosis. In this study, we investigated the effect of chylomicron remnants on MCP-1 expression in cultured vascular smooth muscle cells (VSMCs). We prepared chylomicrons from the lymph of gastrostomized rats fed with egg solution and obtained chylomicron remnants from the plasma of hepatectomized rats which were injected with chylomicrons. Treatment of VSMC with chylomicron remnants resulted in a significant increase of the expression of MCP-1 mRNA and protein in a time-and a dose-dependent manner. Further, chylomicron remnants activated p38 mitogen-activated protein kinase (MAPK) and extracellular signal-regulated kinase (ERK1/2). Pretreatment of VSMCs with p38 MAPK inhibitors, SB203580 and SB202190, resulted in a dose-dependent inhibition of chylomicron remnants-induced MCP-1 mRNA and protein expression, whereas a MAPK kinase inhibitor, PD98059, had no effect on these responses. MCP-1 secretion by chylomicron remnants was much more pronounced than those by chylomicrons, oxidized low-density lipoproteins, or lysophosphatidylcholine. These results indicated that chylomicron remnants stimulated MCP-1 expression in VSMCs, and suggested that chylomicron remnants might contribute to the formation of atherosclerosis through this proinflammatory effect.
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PMID:Chylomicron remnants induce monocyte chemoattractant protein-1 expression via p38 MAPK activation in vascular smooth muscle cells. 1464 87

Insulin resistance and compensatory hyperinsulinemia are recognized not only in type 2 diabetes mellitus(DM) but also in essential hypertension(EHT), hyperlipidemia and obesity; these are known as the components of metabolic syndrome and accumulation of these components increase risk of cardiovascular diseases(CVD). When coronary angiographic findings were evaluated in patients with coronary artery disease(CAD), the severity was higher in CAD with DM than that without DM. Even in CAD without DM, the severity of coronary angiographic findings was higher in CAD with insulin resistance than that without insulin resistance. When residents of rural communities in Japan were followed 8 years, the incidence of CVD was 3.5 times higher in subjects with insulin resistance than those without insulin resistance. One of the intracellular signal transduction of insulin receptor; MAP kinase may be concerned atherosclerotic mechanisms of insulin resistance. These findings suggest that insulin resistance is a significant background of atherosclerosis, and insulin resistance is one of the major facilitation factors of genesis and progression of CVD.
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PMID:[Significance of insulin resistance to atherosclerotic complications in essential hypertension]. 1473 36

Hyperglycemia and hyperlipidemia are important risk factors for diabetes-accelerated atherosclerosis. Macrophage proliferation has been implicated in the progression of atherosclerosis. We therefore investigated the effects of hyperglycemia and hyperlipidemia on macrophage proliferation in murine atherosclerotic lesions and isolated primary macrophages. Hyperglycemic LDL receptor-deficient mice that were fed a cholesterol-free diet for 12 weeks did not have elevated cholesterol levels compared with nondiabetic mice, and there was no evidence of increased macrophage proliferation in atherosclerotic lesions. Moreover, elevated glucose levels did not increase proliferation of isolated mouse peritoneal macrophages. In contrast, hyperglycemic LDL receptor-deficient mice that were fed a cholesterol-rich diet showed increased cholesterol levels concomitant with macrophage proliferation in atherosclerotic lesions. Glucose promoted lipid and protein oxidation of LDL in vitro. Glucose-oxidized LDL resulted in phosphorylation of extracellular signal-regulated kinase and protein kinase B/Akt and stimulated proliferation of isolated macrophages. The mitogenic effect of glucose-oxidized LDL was mediated by CD36 and by extracellular signal-regulated kinase activation induced by protein kinase C-dependent and phosphatidylinositol 3-kinase-dependent pathways. Thus, hyperglycemia is not sufficient to stimulate macrophage proliferation in lesions of atherosclerosis or in isolated macrophages. A combination of hyperglycemia and hyperlipidemia, however, stimulates macrophage proliferation by a pathway that may involve the glucose-dependent oxidation of LDL.
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PMID:Hyperlipidemia in concert with hyperglycemia stimulates the proliferation of macrophages in atherosclerotic lesions: potential role of glucose-oxidized LDL. 1556 53


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