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

The muscle protein catabolism present in rats with insulin-dependent diabetes and other catabolic conditions is generally associated with increased glucocorticoid production and mRNAs encoding components of the ubiquitin-proteasome system. The mechanisms that increase ubiquitin (UbC) expression have not been identified. We studied the regulation of UbC expression in L6 muscle cells because dexamethasone stimulates the transcription of this gene and others encoding components of the ubiquitin-proteasome pathway. Results of in vivo genomic DNA footprinting experiments indicate that a protein(s) binds to Sp1 sites approximately 50 bp upstream from the UbC transcription start site; dexamethasone changes the methylation pattern at these sites. Sp1 binds to DNA probes corresponding to the rat or human UbC promoter, and treating cells with dexamethasone increases this binding. Deletion and mutation analyses of the rat and human UbC promoters are consistent with an important role of Sp1 in UbC induction by glucocorticoids. Dexamethasone-induced ubiquitin expression is blocked by mithramycin, an inhibitor of Sp1 binding. UO126, a pharmacologic inhibitor of MEK1, also blocks UbC transcriptional activation by dexamethasone; L6 cells transfected to express constitutively active MEK1 exhibit increased UbC promoter activity. Thus, glucocorticoids increase UbC expression in muscle cells by a novel transcriptional mechanism involving Sp1 and MEK1.
 ...
PMID:Ubiquitin (UbC) expression in muscle cells is increased by glucocorticoids through a mechanism involving Sp1 and MEK1. 1187 50

Several novel genes that are upregulated in diabetic kidneys have been identified. Recently, transforming growth factor beta driven secreted proteins, i.e., connective tissue growth factor and gremlin (bone morphogenetic protein 2), have been identified, and their expression has been correlated with the tissue changes seen in diabetic nephropathy in the adult population. However, there are very few studies reported in the literature that describe the gene expression in the diabetic state during embryonic and neonatal life. It is well known that exposure to glucose or its epimer, i.e., mannose, induces marked dysmorphogenesis of the embryonic metanephros in an organ culture system. These changes are associated with ATP depletion and marked apoptosis, suggesting an oxidant stress in the induction of dysmorphogenesis of the embryonic metanephros. In view of the glucose-induced changes in the fetal metanephros, a diabetic state was induced by the administration of streptozotocin during pregnancy, and newborn mouse kidneys were processed for suppression subtractive hybridization-PCR. In addition, a diabetic state was induced in newborn diabetic mice, and after 1 week their kidneys were harvested and subjected to representational difference analysis of cDNA. Four novel genes with upregulated mRNA expression were identified. They included: (1) a translocase inner mitochondrial membrane 44 that is involved in the ATP-dependent import of preproteins from the cytosol into the mitochondrial matrix; (2) a kidney-specific aldo-keto reductase that utilizes NADPH and NADH as cofactors in the reduction of aromatic aldehydes and aldohexoses; (3) Rap1b, a Ras-related small GTP-binding protein that behaves as a GTPase and cycles between GTP-bound (active) and GDP-bound (inactive) states associated with conformational change, and (4) a fusion protein of ubiquitin polypeptide and ribosomal protein L40 (UbA(52) or ubiquitin/60) that is intimately involved in the ubiquitin-dependent proteasome pathway related to the accelerated degradation of proteins under various stress conditions, such as those seen in patients with cancer and diabetes mellitus.
 ...
PMID:Renal gene expression in embryonic and newborn diabetic mice. 1193 60

We investigated the expression of Th1- and Th2-associated chemokine receptors on peripheral blood lymphocytes at diagnosis and in the first phase of type 1 diabetes. Peripheral blood mononuclear cells (PBMCs) of 25 patients with newly diagnosed type 1 diabetes, 10 patients with longstanding type 1 diabetes, and 35 healthy control subjects were examined for expression of the chemokine receptors CXCR4 (naive T-cells), CCR5 and CXCR3 (Th1 associated), and CCR3 and CCR4 (Th2 associated) on CD3+ lymphocytes. Furthermore, we analyzed chemokine serum levels (monocyte chemoattractant protein [MCP]-1, macrophage inflammatory protein [MIP]-1alpha, MIP-1beta, and RANTES [regulated on activation, normal T-cell expressed and secreted]) and phytohemagglutinin (PHA)-stimulated cytokine secretion of Th1- (gamma-interferon [IFN-gamma] and tumor necrosis factor-alpha [TNF-alpha]) and Th2 (interleukin [IL]-4 and -10)-associated cytokines by PBMC. The patients with newly diagnosed type 1 diabetes were followed for these parameters at 6-12 months after diagnosis. The PBMCs of patients with newly diagnosed but not with longstanding type 1 diabetes showed reduced expression of the Th1-associated chemokine receptors CCR5 (P < 0.001 vs. control subjects) and CXCR3 (P < 0.002 vs. control subjects). This reduction correlated with reduced IFN-gamma and TNF-alpha production of PBMCs after PHA stimulation and reversed 6-12 months after diagnosis to normal levels. CCR4 cells were reduced in both newly diagnosed and longstanding type 1 diabetic patients, which correlated to reduced PHA-stimulated IL-4 production. MIP-1alpha and MIP-1beta levels were considerably elevated in a subgroup of patients with newly diagnosed diabetes. We assume that Th1-associated peripheral T-cells are reduced in a narrow time window at the time of diagnosis of diabetes, possibly due to extravasation in the inflamed pancreas. Thus, chemokine receptor expression of peripheral blood lymphocytes may be a useful surrogate marker for the immune activity of type 1 diabetes (e.g., in intervention trials).
Diabetes 2002 Aug
PMID:Reduced expression of Th1-associated chemokine receptors on peripheral blood lymphocytes at diagnosis of type 1 diabetes. 1214 60

The proteasome, a large protease complex in cells, is the major machinery for protein degradation. It was previously considered a humble garbage collector, performing housekeeping duties to remove misfolded or spent proteins. Until recently, the interests of immunologists in proteasomes were focused largely on its role in antigen processing. Its real importance in cell biology has only been revealed contemporarily due to the availability of relatively specific inhibitors. It has now become increasingly clear that many aspects of immune responses highly depend on proper proteasome activity. Recently, a proteasome inhibitor has been successfully used to prevent acute as well as ongoing heart allograft rejection in mice. Such inhibitors are also efficacious in treating several autoimmune diseases, such as arthritis, psoriasis, and probably type I diabetes, in animal models. Phase II and III clinical trials of proteasome inhibitors in treating various tumors have shown promising results, and the side-effects of these drugs are tolerable. Therefore, proteasome inhibition represents a new and promising frontier in immunosuppressant development.
 ...
PMID:On the role of proteasomes in cell biology and proteasome inhibition as a novel frontier in the development of immunosuppressants. 1248 42

Highly active antiretroviral therapy, which includes a combination of protease inhibitors, is highly successful in controlling human immunodeficiency virus (HIV) infection and reducing the morbidity and mortality of autoimmune deficiency syndrome (AIDS). However, the benefits of HIV protease inhibitors are compromised by numerous undesirable side effects. These include peripheral fat wasting and excessive central fat deposition (lipodystrophy), overt hyperlipidemia, and insulin resistance. The mechanism associated with protease inhibitor-induced metabolic abnormalities is multifactorial. One major effect of the protease inhibitor is its suppression of the breakdown of the nuclear form of sterol regulatory element binding proteins (nSREBP) in the liver and adipose tissues. Hepatic accumulation of nSREBP results in increased fatty acid and cholesterol biosynthesis, whereas nSREBP accumulation in adipose tissue causes lipodystrophy, reduces leptin expression, and promotes insulin resistance. The HIV protease inhibitors also suppress proteasome-mediated breakdown of nascent apolipoprotein (apo) B, thus resulting in the overproduction and secretion of triglyceride-rich lipoproteins. Finally, protease inhibitor also suppresses the inhibition of the glucose transporter GLUT-4 activity in adipose and muscle. This latter effect also contributes directly to insulin resistance and diabetes. These adverse effects need to be alleviated for long-term use of protease inhibitor therapy in treatment of HIV infection.
 ...
PMID:Effects of HIV protease inhibitor therapy on lipid metabolism. 1254 52

Muscle atrophy is a common consequence of catabolic conditions like kidney failure, cancer, sepsis, and acute diabetes. Loss of muscle protein is due primarily to activation of the ubiquitin-proteasome proteolytic system. The proteolytic responses to catabolic signals include increased levels of mRNA that encode various components of the system. In the case of two genes, the proteasome C3 subunit and ubiquitin UbC, the higher levels of mRNA result from increased transcription but the mechanisms of transactivation differ between them. This review summaries the evidence that cachectic signals activate a program of selective transcriptional responses in muscle that frequently occurs coordinately with increased protein destruction.
 ...
PMID:Increased transcription of ubiquitin-proteasome system components: molecular responses associated with muscle atrophy. 1267 54

The ubiquitin-proteasome pathway is a major route of degradation of cell proteins. It also plays an essential role in maintaining cell homeostasis by degrading many rate-limiting enzymes and critical regulatory proteins. Alterations in proteasome activity have been implicated in a number of pathologies including Parkinson's disease, Alzheimer's disease and diabetes. The eukaryotic proteasome is a multicatalytic protease characterized by three activities with distinct specificities against peptide substrates. Although substrates were identified which could selectively measure the individual activities in the purified proteasome little data is available on how specific those substrates are for proteasomal activity when used with biological samples which may contain many other active peptidases. Here we examine the three major peptidase activities in lysates of two cell types and in a liver cytosol fraction in the presence of specific proteasome inhibitors and after fractionation by gel permeation chromatography. We demonstrate that other proteinases present in these preparations can degrade the commonly used proteasome substrates under the standard assay conditions. We develop a simple method for separating the proteasome from the lower molecular weight proteases using a 500kDa molecular weight cut-off membrane. This allows proteasome activity to be accurately measured in crude biological samples and may have quite broad applicability. We also identify low molecular weight tryptic activity in both the cell and tissue preparations which could not be inhibited by the proteasome inhibitor epoxomycin but was inhibitable by two cysteine proteinase inhibitors and by lactacystin suggesting that lactacystin may not be completely proteasome specific.
 ...
PMID:Assessment of proteasome activity in cell lysates and tissue homogenates using peptide substrates. 1267 63

Insulin-dependent diabetes mellitus is known to go along with enhanced muscle protein breakdown. Since evidence has been presented that the ubiquitin-proteasome system is significantly involved in muscle wasting under this condition, we have investigated, whether this biological role goes along with alterations of the proteasome system in skeletal muscle of streptozotocin-diabetic rats. Previously, we have found a drop of overall proteasome activity in muscle extracts of rats after induction of diabetes but no change in total amount of 20S proteasome was detected. In the present investigation under the same diabetic conditions we have measured a significant decrease in the amount of proteasome activator PA28, a finding that explains the loss of total proteasome activity. Since increased mRNA levels of proteasome subunits have been measured in muscle tissue of rats after induction of diabetes, we have isolated and purified 20S proteasomes from muscle tissue of control and 6 days diabetic rats. The specific chymotrypsin-like, trypsin-like, and peptidylglutamylpeptide-hydrolysing activities of proteasomes from diabetic and control rats were found to be not significantly different. Therefore, we have fractionated 20S proteasomes into their subtypes and detected that induction of diabetes mellitus effects a redistribution of subtypes of all three proteasome populations but only the increase in subtype V (immuno-subtype) was statistically significant. This altered subtype pattern obviously meets the requirements to the system under wasting conditions. Since this process goes along with de novo biogenesis of 20S proteasomes, it most likely explains the phenomenon of elevated mRNA concentrations of proteasome subunits after induction of diabetes mellitus.
 ...
PMID:Alteration of 20S proteasome-subtypes and proteasome activator PA28 in skeletal muscle of rat after induction of diabetes mellitus. 1267 65

Genetic variation in the gene for a cytosolic cysteine protease, calpain-10, increases the susceptibility to type 2 diabetes apparently by altering levels of gene expression. In view of the importance of altered beta-cell function in the pathophysiology of type 2 diabetes, the present study was undertaken to define the effects on insulin secretion of exposing pancreatic islets to calpain inhibitors for 48 hours. Exposure of mouse islets to calpain inhibitors (ALLN, ALLM, E-64-d, MDL 18270, and PD147631) of different structure and mechanism of action for 48 hours reversibly suppresses glucose-induced insulin secretion by 40% to 80%. Exposure of islets to inhibitors of other proteases, ie, cathepsin B and proteasome, did not affect insulin secretion. The 48-hour incubation with calpain inhibitors also attenuates insulin secretory responses to the mitochondrial fuel alpha-ketoisocaproate (KIC). The same incubation also suppresses glucose metabolism and intracellular calcium ([Ca(2+)](i)) responses to glucose or KIC in islets. In summary, long-term inhibition of islet calpain activity attenuates insulin secretion possibly by limiting the rate of glucose metabolism. A reduction of calpain activity in islet could contribute to the development of beta-cell failure in type 2 diabetes thereby providing a link between genetic susceptibility to diabetes and the pathophysiologic manifestations of the disease.
 ...
PMID:A 48-hour exposure of pancreatic islets to calpain inhibitors impairs mitochondrial fuel metabolism and the exocytosis of insulin. 1275 79

Troglitazone (TRG) is an antidiabetic agent that increases the insulin sensitivity of target tissues in non-insulin-dependent diabetes mellitus. Therapy with troglitazone has been associated with severe hepatic injury in a small percentage of patients and the mechanism of TRG-induced hepatotoxicity remains unclear. A family of highly conserved stress proteins identified as heat shock proteins (Hsps), are well-known to protect cells against a wide variety of toxic conditions such as extreme temperature changes, oxidative stress and toxic drugs. The stress-inducible Hsp 70 protein is one of the best-known endogenous factors protecting cells from injury under various stress conditions. Here we examined the effects of TRG on Hsp 70 mRNA and protein expression in primary cultures of rat hepatocytes. We also investigated the effects of TRG in an in vivo model by examining Hsp 70 protein levels in livers prepared from C57 mice fed a 0.2% dietary admixture of TRG. Levels of Hsp 70 mRNA increased in a concentration-dependent manner in rat hepatocytes treated for 8h with increasing concentrations of TRG. However, Hsp 70 protein levels decreased significantly in cells treated with increasing concentrations of TRG. C57 mice fed a 0.2% admixture of TRG for 10 days, also demonstrated decreased liver Hsp 70 protein levels. To investigate whether TRG decreased Hsp 70 protein levels by activating the ubiquitin-proteasome pathway, cells were pretreated with 10 microM lactacystin, a potent and specific inhibitor of this pathway. Lactacystin pretreatment failed to prevent TRG-induced decrease in Hsp 70 protein. The data suggests that TRG-induced effects may be mediated through another system of regulated proteolysis or may involve a post-transcriptional regulator mechanism. The mechanism of TRG-induced hepatotoxicity remains unclear, however, the effects induced by TRG on Hsp 70 may, in part, play a role.
 ...
PMID:Troglitazone reduces heat shock protein 70 content in primary rat hepatocytes by a ubiquitin proteasome independent mechanism. 1277 May 24


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>