UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CK2 is upregulated in rapidly dividing cells including most human tumours. Transgenic overexpression of CK2 in lymphoid or mammary lineages predisposes to transformation. Multiple signalling and oncogene pathways could be regulated by CK2 in this process. Our studies suggest that phosphorylation of critical oncogenes by CK2, as well as by other serine-threonine kinases, regulates their stability via susceptibility to the proteasomal degradation system. Beta-catenin is a transcriptional co-factor in the Wnt signalling pathway that is regulated in this fashion. Inactivating mutations in the adenomatosis polyposis coli (APC) gene, which encodes a carrier protein for beta-catenin, or stabilizing mutations in beta-catenin itself, frequently occur in human tumours. CK2 and the monomeric serine-threonine kinase GSK3 have opposing actions on beta-catenin: GSK-3 phosphorylation of the N-terminus of beta-catenin promotes degradation; while phosphorylation by CK2 in the armadillo repeat protein interaction domain protects it. Beta-catenin is overexpressed in mammary tumours occurring in mice transgenic for CK2 or a dominant negative form of GSK3, and also in mammary tumours arising following treatment with the environmental carcinogen DMBA. Experiments are underway to determine whether expression of both CK2 and kinase inactive GSK3 further accelerates tumorigenesis. Inhibitors of GSK3 under development for treatment of diabetes could promote tumours, while CK2 inhibitors should be useful agents for treatment of cancer.
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PMID:CK2 as a positive regulator of Wnt signalling and tumourigenesis. 1634 9

Death receptors belong to the TNF (tumor necrosis factor)/NGF (nerve growth factor) receptor superfamily. Signaling via death receptors plays a distinct role, e.g. in the immune system, where it contributes to regulation of the adaptive immune response in various ways, most notably by triggering activation-induced cell death (AICD) of T cells. Thus, dysregulation of death receptor signaling, either allowing too much or too little apoptosis, can lead to autoimmune disorders and also impacts on tumorigenesis or other diseases. In this chapter we address components, molecular mechanisms and regulation of death receptor signaling with particular focus on CD95 (APO-1, Fas). We discuss the role of death receptor-mediated AICD in regulation of the adaptive immune response against foreign and self antigens in comparison to cytokine deprivation-mediated death by neglect. Finally, the contribution of dysregulated death receptor/ligand systems to autoimmune diseases such as diabetes, multiple sclerosis and Hashimoto's thyroiditis is discussed.
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PMID:Death receptor signaling and its function in the immune system. 1639 52

There is now conclusive evidence that gene therapy can lead to real clinical benefit. Initial enthusiasm has been muted by set-backs related to viral vectors including retroviral oncogenesis and adenoviral inflammatory response. Plasmid-mediated muscle-targeted gene transfer offers the potential of a cost-effective pharmaceutical grade therapy delivered by simple intramuscular injection without the need for anaesthetic, cell culture, transplantation or immunosuppression. This approach is particularly appropriate for long-term circulating therapeutic protein replacement currently requiring repeated injection therapy. Wide-ranging clinical applications include haemophilia, chronic anaemia, growth hormone deficiency and diabetes. Inadequate transgene expression, unregulated protein delivery and immune response have been major limiting factors. Recent innovations including in situ electroporation enabling sustained systemic protein delivery within the therapeutic range are reviewed. Pharmacological and physiological approaches to regulation are discussed in addition to the role of innate and humoral immunity. Translation of advances in all of these areas to clinical success will enable muscle-targeted gene therapy to capitalise on its inherent strengths and realise its long-standing promise.
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PMID:Plasmid-mediated muscle-targeted gene therapy for circulating therapeutic protein replacement: a tale of the tortoise and the hare? 1647 48

Overactivation of the mammalian target of rapamycin (mTOR) branch downstream of the phosphatidylinositol 3-kinase-AKT pathway critically modulates insulin and growth factor signaling by insulin receptor substrates (IRS). On the basis of in vitro studies, the mTOR inhibitor rapamycin has been reported to lead to enhanced activation of AKT by relieving this feedback inhibition on IRS function. In view of the critical role of AKT in insulin signaling and tumorigenesis, the in vivo expression and activation of this kinase and of IRS-1 and IRS-2 were explored in PBMC of 30 patients who were treated long term with rapamycin. A marked decrease of basal and insulin-stimulated AKT phosphorylation, which correlated with the increase of patients' insulin resistance, and a significant increase of IRS total protein expression, together with a lower (IRS-2) or absent (IRS-1) increase of insulin-induced tyrosine phosphorylation, were found. Therefore, contrary to the expectations, long-term exposure to rapamycin caused the impairment of IRS signaling and AKT activation, and this would help to explain the antiproliferative effect and the possible deterioration of glucose metabolism that are observed in rapamycin-treated patients. These findings may form a novel basis for improved understanding of the role of mTOR inhibition in human diseases, such as diabetes and cancer.
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PMID:Chronic inhibition of mammalian target of rapamycin signaling downregulates insulin receptor substrates 1 and 2 and AKT activation: A crossroad between cancer and diabetes? 1680 5

Natural products have been, and continue to be, a major source of pharmacologically active substances from which drugs can be developed. Currently, tumor necrosis factor-alpha (TNF-alpha) inhibitors from natural origins are being advanced for the treatment of inflammatory disorders. Elevated TNF-alpha synthesis has been associated with the development of diabetes, septic shock, tumorigenesis, rheumatoid arthritis, psoriatic arthritis and inflammatory bowel disease. Currently, only protein-based drugs are available for the clinical inhibition of TNF-alpha activity. Small-molecule drugs that can regulate TNF-alpha levels or activity might provide a cost-effective alternative to protein-based therapeutics. This review briefly highlights the physiological and pathological roles of TNF-alpha, and covers those natural compounds capable of interfering with TNF-alpha activity.
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PMID:Modulating TNF-alpha signaling with natural products. 1684

The c-Jun N-terminal kinases (JNKs) are members of the mitogen-activated protein kinase (MAPK) family. In mammalian genomes, three genes encode the JNK family. To evaluate JNK function, mice have been created with deletions in one or more of three Jnk genes. Initial studies on jnk1(-/-) or jnk2(-/-) mice have shown roles for these JNKs in the immune system whereas studies on jnk3(-/-) mice have highlighted roles for JNK3 in the nervous system. Further studies have highlighted the contributions of JNK1 and/or JNK2 to a range of biological and pathological processes. These include bone remodelling and joint disease, inflammatory and autoimmune diseases, obesity, diabetes, cardiovascular disease, liver disease and tumorigenesis in addition to effects in neurons. These results emphasise the differences in the roles played by JNK isoforms in vivo and suggest that the design of JNK inhibitors for subsequent therapeutic uses may benefit from selective inhibition of individual JNK isoforms.
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PMID:The isoform-specific functions of the c-Jun N-terminal Kinases (JNKs): differences revealed by gene targeting. 1693 64

Ductal adenocarcinoma of the pancreas is characterized by extremely aggressive behavior, with an overall 5-year survival of <4%. Because conventional and specifically tailored therapeutic regimens have little impact on patient survival, epidemiological and molecular research aims at identifying and reducing risk factors. Cigarette smoking, obesity, diabetes mellitus, and chronic pancreatitis are amenable to medical prevention or therapy. Heavy alcohol consumption is an inconsistent single risk factor for pancreatic cancer but may promote carcinogenesis by increasing the risk of diabetes mellitus or chronic pancreatitis. For various agents, the key carcinogenic effect is probably an inflammatory response in the pancreatic tissue. On the molecular level, mutations of oncogenes and tumor suppressor genes, as well as various epigenetic alterations, such as overexpression of growth factors and their receptors, are important in tumorigenesis. Complete and safe surgical resection, together with adjuvant therapy, offers prolonged survival, with 5-year survival rates of approximately 25%. However, for unresectable or disseminated disease, which constitutes the vast majority of cases, treatment is palliative. Despite increasing knowledge about the molecular pathology of pancreatic cancer and despite advances in treatment, the overall course of the disease is dismal, and reinforced efforts to reduce incidence and improve outcome are needed desperately.
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PMID:Update on pancreatic cancer and alcohol-associated risk. 1695 77

Both inflammatory diseases and cancer are associated with heightened protein translation. However, the mechanisms of translational regulation and the roles of translation factors in these diseases are not clear. Programmed cell death 4 (PDCD4) is a newly described inhibitor of protein translation. To determine the roles of PDCD4 in vivo, we generated PDCD4-deficient mice by gene targeting. We report here that mice deficient in PDCD4 develop spontaneous lymphomas and have a significantly reduced life span. Most tumors are of the B lymphoid origin with frequent metastasis to liver and kidney. However, PDCD4-deficient mice are resistant to inflammatory diseases such as autoimmune encephalomyelitis and diabetes. Mechanistic studies reveal that upon activation, PDCD4-deficient lymphocytes preferentially produce cytokines that promote oncogenesis but inhibit inflammation. These results establish that PDCD4 controls lymphoma genesis and autoimmune inflammation by selectively inhibiting protein translation in the immune system.
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PMID:Translational regulation of autoimmune inflammation and lymphoma genesis by programmed cell death 4. 1711 84

Endocrinology has recently witnessed several important developments: The Epidemiology of Diabetes Interventions and Complications study, a follow-up to the landmark Diabetes Control and Complications trial, found that strict glucose control early in the course of type 1 diabetes reduces the risk of microvascular and cardiovascular complications and provides prolonged benefits even if intensive control is not so tightly maintained. Inhaled insulin preparations are now available for mealtime coverage. We now have two new injectable medications for diabetes; pramlintide (Symlin) and exenatide (Byetta) are good adjuncts for patients with both type 1 and type 2 diabetes who have trouble reaching their hemoglobin A1c target, and they can help control and even reduce weight. Thyroxine (T4), instead of being merely a "prohormone," has been found to have direct actions on cells, leading to rapid clinical effects and possibly oncogenesis and angiogenesis. The therapeutic range for thyrotropin (TSH) may be much narrower than traditionally believed: some have proposed that the normal range should be redefined as 0.4 to 2.5 mIU/L. New evidence shows that vitamin D is important for more than calcium control and may help prevent type 1 diabetes.
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PMID:Endocrinology update 2006. 1712 44

Zac is a C2H2 zinc finger protein, which regulates apoptosis and cell cycle arrest through DNA binding and transactivation. During tumorigenesis and in response to mitogenic activation, Zac gene expression is down-regulated in a methylation-sensitive manner. As yet, no target genes have been identified that could explain the potent antiproliferative function of Zac. Here, applying genome-wide expression analysis, we identify peroxisome proliferator-activated receptor gamma (PPARgamma) as a new bona fide Zac target gene, which is induced by direct Zac binding to the proximal PPARgamma1 promoter. We show that in human colon carcinoma cells, ZAC activates expression of PPARgamma target genes in a PPARgamma-dependent manner. Moreover, we show that treatment of pituitary tumor cells with octreotide, a somatostatin analogue, leads to Zac induction and subsequent Zac-dependent up-regulation of PPARgamma, which thereupon mediates part of the antiproliferative activity of Zac. Our work provides a first step toward elucidating a functional relationship between Zac and PPARgamma that could be relevant to the understanding of tumorigenesis and diabetes as well.
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PMID:Peroxisome proliferator-activated receptor gamma is a Zac target gene mediating Zac antiproliferation. 1717 96

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