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)

The p53 family proteins are transcription factors and have both common and distinct functions. p53 is a classic tumor suppressor, whereas p63 and p73 have fundamental functions in development. To gain an insight into the functional diversities among the p53 family, target genes specifically regulated by p63 and p73 were examined. Here, we found that the GLX2 gene, which encodes glyoxalase II enzyme, is up-regulated by p63 and p73. Accordingly, a specific responsive element was found in intron 1 of the GLX2 gene, which can be activated and bound by p63 and p73. We also found that, upon overexpression, the cytosolic, but not the mitochondrial, GLX2 inhibits the apoptotic response of a cell to methylglyoxal, a by-product of glycolysis. Likewise, we showed that cells deficient in GLX2 are hypersensitive to methylglyoxal-induced apoptosis. Interestingly, a deficiency in GLX2 also enhances the susceptibility of a cell to DNA damage-induced apoptosis in a p53-dependent manner. These observations reveal a novel link between the p53 family and the glyoxalase system. Given that methylglyoxal is frequently generated under both physiological and pathological conditions, we postulate that GLX2 serves as a pro-survival factor of the p53 family and plays a critical role in the normal development and in the pathogenesis of various human diseases, including cancer, diabetes, and neurodegenerative diseases.
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PMID:Glyoxalase II, a detoxifying enzyme of glycolysis byproduct methylglyoxal and a target of p63 and p73, is a pro-survival factor of the p53 family. 1683 76

Recent data from literature report that reactive oxygen species (ROS) seem to play a crucial role in the etiology of both types I and II diabetes. This may render diabetic individuals more prone to oxidative injury when challenged with hypoxic stress. It is in fact well known that many diabetic complications cause ischaemic episodes, with a consequent reduction in oxygen supply to various tissues and organs. To check this hypothesis, in this work we tested type I diabetic individuals' antioxidant capability towards a hypoxic-mediated oxidative challenge. In particular, spontaneously diabetic and age-matched non-diabetic biobreeding (BB) Wistar rats were submitted to chronic normobaric hypoxia, and the response of antioxidant enzymes, as well as redox-sensitive transcription factor NF-kappaB and p53, were monitored. Results show that diabetic subjects present a dramatic enhancement in the major antioxidant enzymes activities, thus supporting the notion of diabetes-related changes in cellular redox status. This allows diabetic individuals to counteract hypoxia-mediated oxidative challenge better than the non-diabetic counterpart. Also the behaviour of both the redox-sensitive nuclear transcription factor NF-kappaB and p53 protein in response to hypoxic stimulation seems to support the hypothesis of a better ROS scavenging efficiency in diabetics under hypoxic conditions. In conclusion, high levels of antioxidant enzymatic defences in diabetic BB rats reflect a positive adaptive response able to assure an efficient protection not only against chronic, diabetes-mediated reactive oxygen species (ROS) overproduction, but also versus further oxidative damage.
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PMID:High levels of antioxidant enzymatic defence assure good protection against hypoxic stress in spontaneously diabetic rats. 1690 32

The target of rapamycin (TOR) pathway regulates ribosome biogenesis, protein synthesis, nutrient import, autophagy and cell cycle progression. After 30 years of concentrated attention, how TOR controls these processes is only now beginning to be understood. Recent advances have identified a wide array of TOR inputs, including amino acids, oxygen, ATP and growth factors, as well the regulatory proteins that facilitate their effects on TOR. Such proteins include AMPK, Rheb and the tumor suppressors LKB1, p53, and Tsc1/2. It has only recently been appreciated that TOR resides in two distinct signaling complexes with differing regulatory roles, only one of which is rapamycin-sensitive, thus opening a new avenue of inquiry into TOR function. Finally, TOR appears to regulate feeding behavior by facilitating communication between organ systems, and is thus implicated in the regulation of glucose and fat homeostasis, and possibly diabetes and obesity. TOR thus functions to coordinate growth-permitting inputs with growth-promoting outputs on both a cellular and an organismal level.
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PMID:Thinking globally and acting locally with TOR. 1704 29

p21(cip1), a regulatory molecule upstream of the G(1/0) checkpoint, is increased in beta-cells in response to mitogenic stimulation. Whereas p21(cip1) can variably stimulate or inhibit cell cycle progression, in vitro studies suggest that p21(cip1) acts as an inhibitor in the pancreatic beta-cell. To determine the functional role of p21(cip1) in vivo, we studied p21-null mice. Surprisingly, islet mass, beta-cell replication rates, and function were normal in p21-null mice. We next attempted to drive beta-cell replication in p21-null mice by crossing them with rat insulin II promoter-murine PL-1 (islet-targeted placental lactogen transgenic) mice. Even with this added replicative stimulus of PL, p21-null islets showed no additional stimulation. A G(1/S) proteome scan demonstrated that p21(cip1) loss was not associated with compensatory increases in other cell cycle inhibitors (pRb, p107, p130, p16, p19, and p27), although mild increases in p57 were apparent. Surprisingly, p18, which had been anticipated to increase, was markedly decreased. In summary, isolated p21(cip1) loss, as for pRb, p53, p18, and p27 and other inhibitors, results in normal beta-cell development and function, either because it is not essential or because its function is subserved or complimented by another protein. These studies underscore marked inhibitory pressure and the complexity and plasticity of inhibitory pathways that restrain beta-cell replication.
Diabetes 2006 Dec
PMID:The cell cycle inhibitory protein p21cip is not essential for maintaining beta-cell cycle arrest or beta-cell function in vivo. 1713 Apr 70

Acrolein, which is a highly reactive alpha,beta-unsaturated aldehyde generated by lipid peroxidation, can affect cells and tissues and cause various disorders. Increased levels of unsaturated aldehydes play an important role in the pathogenesis of a number of human diseases such as Alzheimer's disease, atherosclerosis and diabetes. Acrolein is a highly ubiquitous toxic environmental pollutant. Because of human exposure, there is a need for investigating the mechanisms involved in acrolein toxicity at the cellular and molecular levels. Acrolein can induce cell death by apoptosis, although the mechanisms are not entirely clear. The present study investigates whether mitogen-activated protein kinases (MAPKs) play a role in activation of apoptosis by acrolein. Our findings show that acrolein-mediated apoptosis is in fact MAPK-dependent in Chinese hamster ovary cells. The MAP family kinases, including ERK and p38 kinase, and the transcription factor c-Jun were all activated by phosphorylation after 1 h exposure to acrolein. Phosphorylation of ERK and p38 kinases and their blockade by an ERK inhibitor, U0126, or a p38 inhibitor, SB203580, respectively, suggested that activation of apoptosis by acrolein is ERK- and p38-dependent. Thus, blockade of ERK and p38 inhibited chromatin condensation, caspase-7 and -9 activation as well as ICAD cleavage induced by acrolein. JNK and AKT kinases seem to be implicated in survival pathways against acrolein insult, since their respective inhibitors, SP600125 and LY294002/Wortmannin switched the mode of cell death from apoptosis to total necrosis. Finally, acrolein induced phosphorylation of the pro-apoptotic factor p53 which is responsible for transcription of pro-apoptotic factors such as Bax and Fas ligand. These results provide new information demonstrating the implication of MAPKs and AKT in acrolein-induced apoptosis, and this information may be useful for understanding the pathogenesis of a number of tissue diseases and environmental toxicity in response to acrolein.
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PMID:P38 and ERK mitogen-activated protein kinases mediate acrolein-induced apoptosis in Chinese hamster ovary cells. 1719 91

Diabetic nephropathy (DN) is one of the main causes of end stage renal disease (ESRD) and a leading cause of diabetes mellitus related morbidity and mortality. Recently, sirtuin are reported to have emerging pathogenetic roles in cancer, muscle differentiation, heart failure, neurodegeneration, diabetes and aging. The aim of the present study was to study the role of intermittent fasting (IF) on DN and studying the expression of Sir2 and p53. At biochemical level, we found that IF causes significant improvement in blood urea nitrogen (BUN), creatinine, albumin and HDL cholesterol, parameters that are associated with the development of DN. Diabetic rats on IF also show significant improvement in onset of hypertension. Interestingly, the expression of Sir2, a NAD dependent histone deacetylase, decreases in diabetic rat kidney and this decrease is overcome by IF. Moreover, we provide evidence for involvement of mitogen activated protein kinases (MAPK) cascade in mediating the effects of IF as there is reduction in the expression of p38 which gets induced under diabetic condition. This was further accompanied by the concomitant decrease in cleavage of caspase3 and p53 expression. These findings suggest that IF significantly improves biochemical parameters associated with development of DN and changes the expression of Sir2 and p53.
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PMID:Intermittent fasting prevents the progression of type I diabetic nephropathy in rats and changes the expression of Sir2 and p53. 1731 25

The tumour suppressor gene ZAC/PLAGL1 is widely expressed in many human tissues during fetal development and throughout life. It encodes a DNA-binding protein which shares with p53 the ability to regulate apoptosis and cell cycle arrest concurrently. Owing to its anti-proliferative properties, down-regulation or loss of ZAC is believed to deregulate cell growth, and loss of expression has been observed in a number of different cancers. In addition, overexpression of ZAC during fetal development is believed to underlie the rare disorder transient neonatal diabetes mellitus (TNDM). Imprinted expression of ZAC has been demonstrated in many human and mouse tissues, although biallelic transcription has been noted in human peripheral blood leucocytes (PBL). We report here the identification of a second ZAC promoter, which is responsible for the observed biallelic expression. The promoter lies within a previously uncharacterized CpG island ~55 kb upstream of the imprinted CpG island. In PBL, the imprinted CpG island (P1) is differentially methylated and produces monoallelic transcripts, as in other tissues. However, biallelic transcripts predominate and are derived from the alternative CpG island (P2), which is unmethylated. Biallelic P2 expression was also found in adult pancreas, and ZAC expression from this promoter was identified at a low level in all adult human tissues tested. These findings show that regulation of ZAC expression is more complex than previously realized. The existence of the apparently independently-regulated P2 promoter has important implications for the study of ZAC dysregulation in cancer and TNDM.
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PMID:Tissue-specific imprinting of the ZAC/PLAGL1 tumour suppressor gene results from variable utilization of monoallelic and biallelic promoters. 1734 87

Pancreas transplantation in type 1 diabetes patients could result in (re)activation of allo- and autoreactive T lymphocytes. Anti-thymocyte globulin (ATG) induction treatment is a successful, but broadly reactive anti-lymphocyte therapy used in pancreas and islet transplantation. A more selective alternative is daclizumab, a monoclonal antibody directed against the interleukin-2 receptor (CD25) on activated lymphocytes. We tested the hypothesis that daclizumab is more selective and has less immunological side effects than ATG. Thirty-nine simultaneous pancreas-kidney transplantation patients with type 1 diabetes were randomized for induction therapy with ATG or daclizumab. Auto- and recall immunity was measured cross-sectionally by lymphocyte stimulation tests with a series of auto- and recall antigens in 35 successfully transplanted patients. T cell autoimmunity to islets was low in both groups, except for a marginal but significantly higher reactivity against glutamic acid decarboxylase (GAD)65 in daclizumab-treated patients. The memory responses to recall antigens were significantly higher in the daclizumab-treated group compared to ATG-treated patients, specifically against purified protein derivative (PPD) (anti-bacterial immunity), Haemophilus influenzae virus matrix protein-1 (anti-viral immunity) and p53 [anti-tumour (auto)immunity]. These data imply that daclizumab is more specifically affecting diabetes-related immune responses than ATG. The autoimmunity is affected effectively after daclizumab induction, while memory responses towards bacterial, viral and tumour antigens are preserved.
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PMID:Selective unresponsiveness to beta cell autoantigens after induction immunosuppression in pancreas transplantation with anti-interleukin-2 receptor antibody versus anti-thymocyte globulin. 1745 76

Curcumin is the active ingredient of turmeric that has been consumed as a dietary spice for ages. Turmeric is widely used in traditional Indian medicine to cure biliary disorders, anorexia, cough, diabetic wounds, hepatic disorders, rheumatism, and sinusitis. Extensive investigation over the last five decades has indicated that curcumin reduces blood cholesterol, prevents low-density lipoprotein oxidation, inhibits platelet aggregation, suppresses thrombosis and myocardial infarction, suppresses symptoms associated with type II diabetes, rheumatoid arthritis, multiple sclerosis, and Alzheimer's disease, inhibits HIV replication, enhances wound healing, protects from liver injury, increases bile secretion, protects from cataract formation, and protects from pulmonary toxicity and fibrosis. Evidence indicates that the divergent effects of curcumin are dependent on its pleiotropic molecular effects. These include the regulation of signal transduction pathways and direct modulation of several enzymatic activities. Most of these signaling cascades lead to the activation of transcription factors. Curcumin has been found to modulate the activity of several key transcription factors and, in turn, the cellular expression profiles. Curcumin has been shown to elicit vital cellular responses such as cell cycle arrest, apoptosis, and differentiation by activating a cascade of molecular events. In this chapter, we briefly review the effects of curcumin on transcription factors NF-KB, AP-1, Egr-1, STATs, PPAR-gamma, beta-catenin, nrf2, EpRE, p53, CBP, and androgen receptor (AR) and AR-related cofactors giving major emphasis to the molecular mechanisms of its action.
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PMID:Modulation of transcription factors by curcumin. 1756 8

It has been estimated that up to 1 in 10 adults has at least one adrenocortical nodule up to 1 cm on autopsy; these benign tumors may contribute to metabolic syndrome, hypertension, obesity and abnormalities of the hypothalamic-pituitary-adrenal (HPA) axis that can be linked to other serious disorders such as osteoporosis, depression and late-onset diabetes mellitus. In addition, up to 1 in 1500 of these adrenal "incidentalomas" may hide a carcinoma, which, if diagnosed late or left untreated, is associated with significant morbidity and mortality. Consistent with the theme of this symposium, in the present report, we review the efforts undertaken at the National Institutes of Health (NIH) in the last quarter century to unravel the complex clinical genetics and molecular mechanisms involved in adrenal tumorigenesis. We first proposed that adrenocortical tumors form in a molecular sequence of events similar to that in other organs: as the pathology of the tumor increases towards malignancy, genetic changes accumulate. For example, known genetic associations, like TP53 gene changes, occur during the latest stages of adrenocortical tumorigenesis. At the NIH, significant progress has been made in the understanding of the genetics of primary pigmented adrenocortical disease (PPNAD) and other forms of bilateral adrenocortical hyperplasias. This recently led to the identification of phosphodiesterase 11A ( PDE11A) mutations as a low-penetrance predisposing factor to adrenocortical hyperplasias of both the pigmented and non-pigmented variants.
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PMID:Adrenocortical tumors, primary pigmented adrenocortical disease (PPNAD)/Carney complex, and other bilateral hyperplasias: the NIH studies. 1757 66


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