Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Diseases such as type 2 diabetes, Alzheimer's and Parkinson's are associated with the formation of amyloid. The transmissible spongiform encephalopathies, such as variant Creutzfeldt-Jakob disease, are believed to result from infectious forms of amyloid proteins termed prions. The ability of amyloid to initiate spontaneously and in the case of prions, to transfer successfully from one host to another, has been hard to fully rationalize. In this paper we use a mathematical model to explore the idea that it might be a combination of the presence of the prion/amyloid form and a change in the state of the host that allows the amyloid/prion to successfully initiate and propagate itself. We raise the intriguing possibility that potentially infectious amyloid may lie dormant in an apparently healthy individual awaiting a change in the state of the host or transmittal to a new more susceptible host. On this basis we make an analogy between prion/amyloid disease development and the two-hit model of cancer progression. We additionally raise the possibility that infectious amyloid strains may be characterized by a size distribution of length or radius.
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PMID:Silent prions lying in wait: a two-hit model of prion/amyloid formation and infection. 1509 87

Insulin resistance is a worldwide risk factor for the two most dangerous human disease groups; namely, for cardiovascular lesions and malignancies. The insulin resistance syndrome have five basic criteria: hyperglycemia, visceral obesity, elevated serum triglyceride level, low HDL-cholesterol level (dyslipidemia) and hypertension. Each of these criteria alone are risk factors for cancer, and they mean together a multiple risk. Insulin resistance of the liver, skeletal muscles, and fatty tissue leads to a reactive hyperinsulinemia by the increased secretory activity of the beta-cells. Insulin has diverse metabolic effects, and at the same time is a growth factor. It enhances the production and mitogenic activity of other, insulin-like growth factors, and leads to pathological cell proliferation. In the uncompensated phase of insulin resistance hyperglycemia appears, which promotes tumor genesis by several pathways. The elevated serum glucose level is advantageous for the increased DNA synthesis of the tumor cells. It provokes deliberation of free radicals, which will cause derangement of both the DNA and the enzymes having a role in the repair mechanisms. Hyperglycemia leads to a nonenzymatic glycation of protein structures, and the glycated products enhance the deliberation of free radicals, cytokines and growth factors. Insulin resistance means an enhanced risk for breast, pancreas, liver, colon, bladder, prostate and oral cavity cancers. The moderately increased fasting glucose level is also a risk factor for breast, stomach and colon cancers, even without manifestation of type 2 diabetes. Insulin resistance promotes tumor progression as well. In cancer patients with hyperglycemia or type 2 diabetes, the rate of tumor recurrence, metastatic spread and fatal outcome is higher as compared with the tumor patients without metabolic disease. The correlation between insulin resistance and tumor promotion reveals new possibilities in the prevention and treatment of cancer. The healthy diet, physical activity and weight loss increase insulin sensitivity, and decrease the risk for both cardiovascular diseases and malignancies.
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PMID:[Correlations of insulin resistance and neoplasms]. 1688 76

Peroxisome proliferator activated receptor (PPAR) gamma is a nuclear receptor involved primarily in lipid and glucose metabolism. PPARgamma is also expressed in several cancer types, and has been suggested to play a role in tumor progression. PPARgamma agonists have been shown to reduce the growth of colorectal carcinoma cells in culture and in xenograft models. Furthermore, the PPARgamma agonist thiazolidinedione has been shown to reduce metastasis in a murine model of rectal cancer. Since the chemokine receptor CXCR4 has emerged as an important player in tumorigenesis, particularly in the process of metastasis, we sought to determine if PPARgamma agonists might act in part by reducing CXCR4 expression. We found that rosiglitazone, a thiazolidinedione PPARgamma agonist used primarily in the treatment of type 2 diabetes, significantly reduced cell-surface expression of CXCR4 protein on HT-29 human colorectal carcinoma cells. This effect occurred at concentrations as low as 1 nM, and was first evident after 8 h of drug exposure. CXCR4 mRNA was also down-regulated after treatment with rosiglitazone, indicating that the effect occurs at the level of transcription. Four other thiazolidinedione compounds (ciglitazone, pioglitazone, troglitazone, and MCC555) also significantly reduced CXCR4 expression. To confirm the involvement of PPARgamma in thiazolidinedione-induced CXCR4 down-regulation, we used PPARgamma antagonists GW9662 and T0070907, both of which completely blocked the effect of rosiglitazone on CXCR4 expression. Furthermore, HT-29 cells in which PPARgamma expression was reduced using shRNA were less responsive to rosiglitazone. In conclusion, we have shown that thiazolidinedione compounds reduce CXCR4 mRNA and cell-surface protein expression in a PPARgamma-dependent manner.
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PMID:Thiazolidinedione drugs down-regulate CXCR4 expression on human colorectal cancer cells in a peroxisome proliferator activated receptor gamma-dependent manner. 1739 24

Stress is the imbalance of homeostasis, which can be sensed even at the subcellular level. The stress-sensing capability of various organelles including the endoplasmic reticulum (ER) has been described. It has become evident that acute or prolonged ER stress plays an important role in many human diseases; especially those involving organs/tissues specialized in protein secretion. This article summarizes the emerging role of ER stress in diverse human pathophysiological conditions such as carcinogenesis and tumor progression, cerebral ischemia, plasma cell maturation and apoptosis, obesity, insulin resistance, and type 2 diabetes. Certain components of the ER stress response machinery are identified as biomarkers of the diseases or as possible targets for therapeutic intervention.
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PMID:Endoplasmic reticulum stress. 1748 6

Excess levels of circulating amino acids (AAs) play a causal role in specific human pathologies, including obesity and type 2 diabetes. Moreover, obesity and diabetes are contributing factors in the development of cancer, with recent studies suggesting that this link is mediated in part by AA activation of mammalian target of rapamycin (mTOR) Complex 1. AAs appear to mediate this response through class III phosphatidylinositol 3-kinase (PI3K), or human vacuolar protein sorting 34 (hVps34), rather than through the canonical class I PI3K pathway used by growth factors and hormones. Here we show that AAs induce a rise in intracellular Ca(2+) ([Ca(2+)](i)), which triggers mTOR Complex 1 and hVps34 activation. We demonstrate that the rise in [Ca(2+)](i) increases the direct binding of Ca(2+)/calmodulin (CaM) to an evolutionarily conserved motif in hVps34 that is required for lipid kinase activity and increased mTOR Complex 1 signaling. These findings have important implications regarding the basic signaling mechanisms linking metabolic disorders with cancer progression.
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PMID:Amino acids activate mTOR complex 1 via Ca2+/CaM signaling to hVps34. 1846 Mar 36

PED/PEA-15 is a 15-kDa ubiquitously expressed protein implicated in a number of fundamental cellular functions, including apoptosis, proliferation, and glucose metabolism. PED/PEA-15 lacks enzymatic function and serves mainly as a molecular adaptor. PED/PEA-15 is an endogenous substrate for protein kinase C (PKC), calcium/calmodulin-dependent protein kinase II (CAM kinase II), and Akt. In particular, PKC phosphorylates PED/PEA-15 at Ser(104) and CAM kinase II or Akt at Ser(116), modifying its stability. Evidence obtained over the past 10 years has indicated that PED/PEA-15 regulates cell survival by interfering with both intrinsic and extrinsic apoptotic pathways. In addition, it may also control cell proliferation by interfering with ERK1/2-mediated pathways. Indeed, PED/PEA-15 has been identified as an ERK1/2 interactor, which modifies its subcellular localization and targeting to a specific subset of substrates. Increased PED/PEA-15 levels may affect tumorigenesis and cancer progression as well as sensitivity to anticancer agents. Moreover, PED/PEA-15 affects astrocyte motility and increases susceptibility to skin carcinogenesis in vivo. PED/PEA-15 expression is regulated at the transcriptional and the posttranslational levels. Increased PED/PEA-15 expression has been identified in individuals with type 2 diabetes early during the natural history of the disease. Evidence generated over the past 10 years indicated that this defect contributes to altering glucose tolerance by impairing insulin action and insulin secretion and might play a role in the development of diabetes-associated neurological disorders. Strategies are being devised to target key signaling events in PED/PEA-15 action aimed at improving glucose tolerance and at facilitating cancer cell death.
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PMID:Frontiers: PED/PEA-15, a multifunctional protein controlling cell survival and glucose metabolism. 1953 39

Overweight and obesity are health problems of epidemic proportions, increasing the risk not only of cardiovascular disease and type 2 diabetes mellitus but also of various types of cancer. Obesity is strongly associated with changes in the physiological function of adipose tissue, leading to insulin resistance, chronic inflammation, and altered secretion of adipokines. Several of these factors, such as insulin resistance, increased levels of leptin, plasminogen activator inhibitor-1, and endogenous sex steroids, decreased levels of adiponectin, and chronic inflammation, are involved in carcinogenesis and cancer progression. This article reviews these mechanisms, focusing on adipose tissue dysfunction as a unifying causal factor. Although understanding of the link between obesity and cancer might provide therapeutic targets, preventing overweight and obesity still remains number one priority.
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PMID:Obesity and cancer: the role of dysfunctional adipose tissue. 1975 44

Damaged DNA can lead to aneuploidy and/or chromosomal instability, which is believed to be major contributor to tumor progression. Genotoxic and oncogenic stresses-induced DNA damage activate the tumor suppressor pathways initiate DNA damage response (DDR). One of the cellular fates in response to DDR is permanent growth arrest in mitotically active cells, including stem cells, leading to senescence and adaptive changes in postmitotic cells. These cellular alterations happen through complex interactions and function to disorder the existing cellular homeostasis. This is a disease state similar to metabolic syndrome occurred by the systemic DDR to inhibit ongoing malignant transformation. Significant metabolic changes occurred by the influence of the major tumor suppressor proteins p53 and FOXO discussed in the article. After a strong correlation established between the systemic DNA damage response to inhibit ongoing malignant transformation and metabolic syndrome characteristics, logical extrapolations for type 2 diabetes, cardiovascular disease, and aging are carried out. Finally, therapeutic evaluations are performed in the light of the novel pathophysiological data implying that "metabolic syndrome" is a real disease.
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PMID:Metabolic syndrome is a real disease and premalignant state induced by oncogenic stresses to block malignant transformation. 2009 80

Damaged DNA can lead to aneuploidy and/or chromosomal instability, which is believed to be major contributor to tumor progression. DNA damage in response to genotoxic and oncogenic stresses activate the tumor suppressor pathways initiating DNA damage response (DDR). One of the cellular fates in response to DDR is permanent growth arrest in mitotically active cells, including stem cells, leading to senescence. On the other hand, DDR reasons in adaptive changes in postmitotic cells. These cellular alterations happen through complex interactions and function to disrupt the existing cellular homeostasis. Significant metabolic changes occurred by the influence of the major tumor suppressor protein p53 and other related factors such as FOXO, AMPK, PARP, NF-kappaB and PGC-1 are discussed in the article. After a strong correlation established between the systemic DNA damage response to inhibit ongoing malignant transformation and metabolic syndrome characteristics, logical extrapolations for type 2 diabetes, cardiovascular disease, and aging are carried out. Finally, therapeutic evaluations are performed in the light of the novel pathophysiological data implying that "metabolic syndrome" is a real disease.
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PMID:Systemic DNA damage response and metabolic syndrome as a premalignant state. 2033 25

The phosphatidylinositol 3-kinase-mammalian target of rapamycin (PI3K-mTOR) pathway plays pivotal roles in cell survival, growth, and proliferation downstream of growth factors. Its perturbations are associated with cancer progression, type 2 diabetes, and neurological disorders. To better understand the mechanisms of action and regulation of this pathway, we initiated a large scale yeast two-hybrid screen for 33 components of the PI3K-mTOR pathway. Identification of 67 new interactions was followed by validation by co-affinity purification and exhaustive literature curation of existing information. We provide a nearly complete, functionally annotated interactome of 802 interactions for the PI3K-mTOR pathway. Our screen revealed a predominant place for glycogen synthase kinase-3 (GSK3) A and B and the AMP-activated protein kinase. In particular, we identified the deformed epidermal autoregulatory factor-1 (DEAF1) transcription factor as an interactor and in vitro substrate of GSK3A and GSK3B. Moreover, GSK3 inhibitors increased DEAF1 transcriptional activity on the 5-HT1A serotonin receptor promoter. We propose that DEAF1 may represent a therapeutic target of lithium and other GSK3 inhibitors used in bipolar disease and depression.
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PMID:Interactome mapping of the phosphatidylinositol 3-kinase-mammalian target of rapamycin pathway identifies deformed epidermal autoregulatory factor-1 as a new glycogen synthase kinase-3 interactor. 2036 87


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