Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0699790 (colon cancer)
 28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A characteristic alkaline phosphatase (orthophosphoric monoester hydrolase, alkaline pH optimum, EC 3.1.3.1) was detected in the sera of most patients with infectious mononucleosis, acute and chronic lymphatic leukaemia, non-Hodgkin's lymphoma, Burkitt's lymphoma and nasopharyngeal carcinoma. The enzyme was also present in the sera of nine out of 26 patients with cancer of the cervix. N-APase in these cases counted 30-100% of the total alkaline phosphatase activity. N-APase was absent from the sera of healthy individuals and of patients with acute and chronic granulocytic leukaemia, breast cancer, colon cancer, rheumatoid arthritis, ulcerative colitis, systemic lupus erythematosis, hepatitis and obstructive jaundice. Only three of 22 patients with Hodgkin's disease showed n-apase activity in the serum. In infectious mononucleosis the presence of N-APase activity was well correlated with the clinical course. In 13 cases studied, the clinical improvement was associated with the decrease or disappearance of N-APase activity. N-APase activity could not be detected in white cells of acute myeloid leukaemic patients, nor in the cells of myeloid blastic crisis of chronic granulocytic leukaemia. It was present in the cells of lymphoid blastic crisis of chronic granulocytic leukaemia.
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PMID:N-alkaline phosphatase: a potential disease marker for lymphoproliferative disorders. 43 2

As more women are living longer, there is an increasing need for women to discuss hormone replacement therapy (HRT) with their physicians. This task is complicated by areas of scientific uncertainty and evolving data concerning the risks and benefits of HRT. Benefits of HRT that are supported by strong scientific evidence include relief from menopausal symptoms such as hot flashes, prevention of osteoporosis, cardioprotective effects, relief of urogenital atrophy, and decreased urinary incontinence. Benefits supported by observational evidence include improvement of emotional lability and depression, improved sense of well-being in patients with rheumatoid arthritis, increased dermal and total skin thickness, improved verbal memory skills, and decreased risk of colon cancer. Risks to consider include a possible increase in the incidence of breast cancer and an increase in endometrial cancer in women who have an intact uterus and do not receive a progestin. Women in various risk groups, such as those at risk for coronary artery disease, osteoporosis, or breast cancer, must consider the risk-to-benefit ratio for their own individual circumstances.
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PMID:Current concepts in postmenopausal hormone replacement therapy. 869 Nov 83

To analyze the possible adverse effects of low dose methotrexate (MTX) therapy, 276 patients with rheumatoid arthritis (RA) were examined retrospectively. One hundred and seven patients (39%) experienced 113 adverse events : 57 showed liver dysfunction, 24 gastrointestinal complaints, 13 cutaneous symptoms, 6 respiratory symptoms, and 6 malignancies. Interestingly, 3 patients developed a dry cough without infiltration nor interstitial shadow on chest X-ray. The cough was rapidly resolved by discontinuation of MTX, but it recurred in 1 patient when MTX was re-administered. This finding might suggest a close association between MTX administration and the occurrence of dry cough. Of the 6 patients with malignancies diagnosed during MTX therapy, 2 showed malignant lymphoma, 2 lung cancer, 1 breast cancer and 1 colon cancer. MTX might have an oncogenic potential in RA because the coincidence rate, especially with respect to lymphoma, was significantly higher than estimated in a normal population.
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PMID:[Adverse effects of low-dose methotrexate therapy in rheumatoid arthritis]. 896 53

It has been proposed that cyclooxygenase (COX)-1 and COX-2 subserve different physiologic functions largely because of the striking differences in their tissue expression and regulation. COX-1 displays the characteristics of a "housekeeping" gene and is constitutively expressed in almost all tissues. COX-1 appears to be responsible for the production of prostaglandins (PG) that are important for homeostatic functions, such as maintaining the integrity of the gastric mucosa, mediating normal platelet function, and regulating renal blood flow. In sharp contrast, COX-2 is the product of an "immediate-early" gene that is rapidly inducible and tightly regulated. Under basal conditions, COX-2 expression is highly restricted; however, COX-2 is dramatically upregulated during inflammation. For example, synovial tissues in patients with rheumatoid arthritis (RA) express increased levels of COX-2. In animal models of inflammatory arthritis, COX-2 increases in parallel with PG production and clinical inflammation. In vitro experiments have revealed increased COX-2 expression after stimulation with proinflammatory cytokines, such as interleukin 1 (IL-1) and tumor necrosis factor-alpha (TNF-alpha), in many cell types, including synoviocytes, endothelial cells, chondrocytes, osteoblasts, and monocytes/macrophages. Another distinguishing characteristic of COX-2 is decreased expression in response to glucocorticoids. COX-2 is also increased in some types of human cancers, particularly colon cancer. Mechanisms underlying the association between COX-2 overexpression and tumorigenic potential may include resistance to apoptosis, or programmed cell death. Upregulated COX-2 expression undoubtedly plays a role in pathologic processes characterized by increased local PG production. One would predict, based on current information regarding the differential tissue expression of COX-1 and COX-2, that highly selective inhibitors of COX-2 will provide effective antiinflammatory activity with marked reduction in toxicity.
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PMID:COX-1 and COX-2 tissue expression: implications and predictions. 924 46

Non-steroidal anti-inflammatory drugs (NSAIDs) inhibit cyclooxygenase (COX) activity, thereby suppressing the synthesis of proinflammatory prostaglandins. The identification and molecular-biological characterization of an inducible COX isoform (COX-2) in inflammatory cells led to the hypothesis that a selective inhibition of COX-2 would result in relief of inflammation and pain without causing the COX-1-dependent side effects (gastrointestinal ulceration, platelet dysfunction, kidney damage) of conventional NSAIDs. On the basis of data obtained in several laboratories by means of the "human whole blood assay" there is now convincing evidence that none of the currently available NSAIDs is a selective COX-2 inhibitor. Meanwhile, the specific COX-2 inhibitors celecoxib and rofecoxib are being tested worldwide in phase III clinical trials on patients with rheumatoid arthritis and osteoarthritis. However, the simple concept of COX-2 being an exclusively proinflammatory inducible enzyme cannot be upheld any longer. In addition, COX-2 is expressed constitutively in brain, spinal cord and kidney, as well as in numerous other organs. In the present review the perspectives and possible risks of specific COX-2 inhibitors are discussed, as well as additional indications for their implementation (e.g. colon cancer).
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PMID:[Specific COX-2 inhibitors: prospects of therapy with new analgesic and anti-inflammatory substances]. 1009 92

Animal and human data demonstrate that cyclooxygenase (COX)-2 upregulation in osteoarthritis and rheumatoid arthritis is associated with the pain and inflammation of the disease state. The COX-1 isoform, however, is a constitutive enzyme with homeostatic functions. Unlike conventional nonsteroidal anti-inflammatory drugs, which inhibit both forms of the COX enzyme, celecoxib inhibits COX-2 preferentially to COX-1 in vitro. Celecoxib reversed signs of arthritis and pain in an animal model as effectively as indomethacin. Data from murine studies as well as in vitro and epidemiologic data indicate that COX-2 plays a role in the development of colon cancer, and epidemiologic studies also suggest that COX inhibition can slow the progression of Alzheimer's disease.
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PMID:Role of cyclooxygenase-1 and -2 in health and disease. 1019 97

Amino acids modulate the secretion of both insulin and glucagon; the composition of dietary protein therefore has the potential to influence the balance of glucagon and insulin activity. Soy protein, as well as many other vegan proteins, are higher in non-essential amino acids than most animal-derived food proteins, and as a result should preferentially favor glucagon production. Acting on hepatocytes, glucagon promotes (and insulin inhibits) cAMP-dependent mechanisms that down-regulate lipogenic enzymes and cholesterol synthesis, while up-regulating hepatic LDL receptors and production of the IGF-I antagonist IGFBP-1. The insulin-sensitizing properties of many vegan diets--high in fiber, low in saturated fat--should amplify these effects by down-regulating insulin secretion. Additionally, the relatively low essential amino acid content of some vegan diets may decrease hepatic IGF-I synthesis. Thus, diets featuring vegan proteins can be expected to lower elevated serum lipid levels, promote weight loss, and decrease circulating IGF-I activity. The latter effect should impede cancer induction (as is seen in animal studies with soy protein), lessen neutrophil-mediated inflammatory damage, and slow growth and maturation in children. In fact, vegans tend to have low serum lipids, lean physiques, shorter stature, later puberty, and decreased risk for certain prominent 'Western' cancers; a vegan diet has documented clinical efficacy in rheumatoid arthritis. Low-fat vegan diets may be especially protective in regard to cancers linked to insulin resistance--namely, breast and colon cancer--as well as prostate cancer; conversely, the high IGF-I activity associated with heavy ingestion of animal products may be largely responsible for the epidemic of 'Western' cancers in wealthy societies. Increased phytochemical intake is also likely to contribute to the reduction of cancer risk in vegans. Regression of coronary stenoses has been documented during low-fat vegan diets coupled with exercise training; such regimens also tend to markedly improve diabetic control and lower elevated blood pressure. Risk of many other degenerative disorders may be decreased in vegans, although reduced growth factor activity may be responsible for an increased risk of hemorrhagic stroke. By altering the glucagon/insulin balance, it is conceivable that supplemental intakes of key non-essential amino acids could enable omnivores to enjoy some of the health advantages of a vegan diet. An unnecessarily high intake of essential amino acids--either in the absolute sense or relative to total dietary protein--may prove to be as grave a risk factor for 'Western' degenerative diseases as is excessive fat intake.
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PMID:Vegan proteins may reduce risk of cancer, obesity, and cardiovascular disease by promoting increased glucagon activity. 1068 87

Evidence derived from several lines of investigation suggest that prostaglandins, metabolites of arachidonic acid, play an important role in colon cancer development. Elevated prostaglandin levels are found in colon cancers and their precursor lesions, adenomatous polyps. Agents such as aspirin and NSAIDs, which inhibit the generation of these arachidonic acid metabolites, are associated with a decreased risk of developing or dying from colon cancer. Both the amount of the agent used and the duration of exposure seem to be important variables. In animals, NSAIDs are among the most potent agents discovered for the reduction of tumors in both genetic and carcinogen-induced models. Data from human trials also suggests that NSAIDs such as sulindac can reduce the size and number of polyps in individuals with familial adenomatous polyposis (FAP). In parallel with the above findings, it is now understood that at least two forms of the enzyme responsible for the metabolism of arachidonic acid exist. One of these forms, COX-1, is generally considered a constitutive form that is responsible for maintaining normal physiologic function. Inhibition of COX-1 leads to many of the clinically undesirable side effects associated with NSAID use. The other known form of the enzyme, COX-2, is an inducible form that is found in increased levels in inflammatory states and in many cancers and their associated pre-malignant lesions. Levels of COX-2 are increased by exposure to mitogens and growth factors. Agents that specifically inhibit COX-2 are now in clinical development and appear to be well-tolerated and effective for the treatment of osteoarthritis and rheumatoid arthritis. The potential for use of COX-2 specific NSAIDs in the prevention of colon cancer is suggested from the distribution of COX-2 in adenomatous polyps and colon cancer and the effectiveness of these agents in genetic and carcinogen-induced animal models of colon cancer. The development of these agents for the prevention of colon cancer will be discussed.
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PMID:COX-2 and colon cancer: potential targets for chemoprevention. 1076 21

In addition to housekeeping cyclooxygenase (COX)-1, which is constitutively expressed in many body cells, an inducible COX-2 has been described and cloned. Induction or presence of COX-2 has been reported not only in isolated cells, but also in cells in various tissues, as well as in both physiological and pathophysiological states, including acute exudative inflammation, proliferative inflammation, animal arthritis, rheumatoid arthritis, angiogenesis, bone absorption, gastric ulcer, colon cancer, hyperalgesia, Alzheimer's disease and certain states of the kidney, brain and female reproductive organs. This review article introduces results from recent works in these fields. COX-1- or COX-2-knockout mice may provide many clues on the roles of COX-2, but may simultaneously cause unnecessary confusion in the recognition of the roles of COX-2, and this is discussed. Recently the roles of COX-2 in exudative inflammation and the anti-inflammatory effects of selective COX-2 inhibitors have been questioned. This is discussed in the text. Prostanoids mediate signals to adjacent cells to provide fine regulation of cellular function. Because of the short duration of the expression of COX-2 gene and protein, COX-2 must play some roles different from those of COX-1 gene and protein in vivo. It is not yet possible to identify all the roles of COX-2, but in some tissues, such as the kidney, the brain and others, COX-2 may be expressed constitutively, whereas the prostaglandin generation by COX-2 may replace that by COX-1 in some states (or vice-versa). Precise analyses of the expression of COX-2 may disclose fine modulation of cellular and organ functions by PGs. Several selective or preferential COX-2 inhibitors have been developed and were shown to be effective in clinical trials. Most were reported to be free of adverse gastrointestinal effects, but it should be noted that in the healing process of gastric ulcers and in sodium-restricted states, adverse effects of selective COX-2 inhibitors could be expected. Soon, with more detailed knowledge of the delicate roles of COX-2 in vivo, effective and safe application of COX-2 inhibitors should be realized.
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PMID:Cyclooxygenase-2: its rich diversity of roles and possible application of its selective inhibitors. 1102 54

Prostaglandins are formed from arachidonic acid by the action of cyclooxygenase and subsequent downstream synthetases. Two closely related forms of the cyclooxygenase have been identified which are now known as COX-1 and COX-2. Both isoenzymes transform arachidonic acid to prostaglandins, but differ in their distribution and their physiological roles. Meanwhile, the responsible genes and their regulation have been clarified. COX-1, the pre-dominantly constitutive form of the enzyme, is expressed throughout the body and performs a number of homeostatic functions such as maintaining normal gastric mucosa and influencing renal blood flow and platelet aggregation. In contrast, the inducible form is expressed in response to inflammatory and other physiological stimuli and growth factors, and is involved in the production of the prostaglandins that mediate pain and support the inflammatory process. All the classic NSAIDs inhibit both COX-1 and COX-2 at standard anti-inflammatory doses. The beneficial anti-inflammatory and analgesic effects are based on the inhibition of COX-2, but the gastrointestinal toxicity and the mild bleeding diathesis are a result of the concurrent inhibition of COX-1. Agents that inhibit COX-2 while sparing COX-1 represent a new attractive therapeutic development and could represent a major advance in the treatment of rheumatoid arthritis and osteoarthritis. Apart from its involvement in inflammatory processes, COX-2 seems to play a role in angiogenesis, colon cancer and Alzheimer's disease, based on the fact that it is expressed during these diseases. The benefits of specific and selective COX-2 inhibitors are currently under discussion and offer a new perspective for a further use of COX-2 inhibitors.
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PMID:Cyclooxygenase inhibitors--current status and future prospects. 1131 43


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