Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030193 (pain)
 261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The third generation aromatase inhibitors are both remarkably potent and specific endocrine agents inhibiting aromatase activity and reducing circulating oestrogen levels in postmenopausal women to levels never previously seen. Their therapeutic potential is consequently much greater than the earlier prototype drugs. Their excellent side-effect profile also allows for potential wider indications in the treatment of oestrogen-related diseases, including breast cancer. It still remains to determine whether their potent endocrine effects translate into increased therapeutic benefit. In advanced breast cancer, aromatase inhibitors have been shown to have improved efficacy and toxicity profiles when compared with progestins, aminoglutethimide and tamoxifen. Aromatase inhibitors have also been used in the neoadjuvant setting, where they have been shown to achieve higher response rates than tamoxifen and to be more successful at downstaging tumours. Early results comparing an aromatase inhibitor with tamoxifen in the adjuvant setting in early breast cancer show anastrozole to be superior to tamoxifen in terms of both disease-free survival and a lower incidence of new contralateral tumours. There was also a more favourable side-effect profile, which has implications for potential future prophylactic treatment. Additionally, since aromatase inhibitors have different mechanisms of action, unlike antioestrogens, they may be particularly useful as chemopreventive agents if oestrogens are themselves genotoxic. Aromatase inhibitors have been used to date almost exclusively in postmenopausal women. The potential of combining them with luteinising hormone-releasing hormone analogues allows the possibility of treating premenopausal women with either oestrogen receptor-positive breast cancer or benign conditions such as cyclical breast pain, fibroadenomata, recurrent cystic disease or endometriosis. There is also the potential for their use in men with conditions such as gynaecomastia or prostate cancer. These new generation aromatase inhibitors may well have an increasing role in the future management of a number of conditions in addition to breast cancer.
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PMID:The therapeutic potential of aromatase inhibitors. 1260 59

The medical treatment of endometriosis needs to be optimized. Therapeutic management strategies of endometriosis-associated pain or recurrent disease is primarily aimed at downregulating the ovarian function or at antagonizing the effect of estrogen in ectopic endometrial implants. In this context, basic research is delivering powerful tools for the possible development of new, specific treatment modalities. Recently, aromatase overexpression has been detected in endometriotic tissue. Aromatase (p450arom) is responsible for conversion of C19 androgens to estrogen in several human tissues. Aromatase activity gives rise to local estrogen biosynthesis, which, in turn, stimulates prostaglandin E(2) production by upregulation of cyclooxygenase-2 (COX-2), thus establishing a positive feedback cycle. Another abnormality in endometriosis, i. e. the deficiency in 17 beta-hydroxysteroiddehydrogenase type-II (17 beta-HSD-Type-II) expression, impairs the inactivation of estradiol to estrone. In contrast to the eutopic endometrium, these molecular aberrations collectively favour accumulation of increasing amounts of local estradiol and prostaglandin E(2) in endometriosis. In several human cell lines, prostaglandin and estrogen concentrations are associated with proliferation, migration, angiogenesis, apoptosis resistance, and even invasiveness. Consequently, aromatase and COX-2 are promising new therapeutic targets. In summary, specific aromatase inhibitors (such as Letrozole, Anastrozol or Exemestan) or selective COX-2 inhibitors (e.g. Celecoxib, Rofecoxib) are of great interest to be studied in clinical trials in premenopausal woman with endometriosis to extend the spectrum of currently available treatment options.
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PMID:[Aromatase inhibitors--theoretical concept and present experiences in the treatment of endometriosis]. 1450 58

Aromatase p450 (p450arom) is the key enzyme for biosynthesis of estrogen, which is an essential hormone for the establishment and growth of endometriosis. There is no detectable aromatase enzyme activity in normal endometrium; therefore, estrogen is not locally produced in endometrium. Endometriosis tissue, however, contains very high levels of aromatase enzyme, which leads to production of significant quantities of estrogen. Moreover, one of the best-known mediators of inflammation and pain, prostaglandin E (2), strikingly induces aromatase enzyme activity and formation of local estrogen in this tissue. Additionally, estrogen itself stimulates cyclo-oxygenase-2 and therefore increases the formation of prostaglandin E (2) in endometriosis. We were able to target this positive feedback cycle in endometriosis using aromatase inhibitors. In fact, pilot trials showed that aromatase inhibitors could decrease pelvic pain associated with endometriosis.
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PMID:Aromatase and endometriosis. 1508 80

Medical treatment of endometriosis relies on drugs that suppress ovarian steroids and induce an hypoestrogenic state that causes atrophy of ectopic endometrium. Gonadotrophin-releasing hormone (GnRH) analogues, danazol, progestogens and oestrogen-progestin combinations have all proven effective in relieving pain and reducing the extent of endometriotic implants. However, symptoms often recur after discontinuation of therapy and hypoestrogenism-related side effects limit the long-term use of most medications. Furthermore, these therapies are of limited value in patients with a desire to become pregnant because they inhibit ovulation. An important target for current research is to identify effective therapies that can be safely administered in the long term. GnRH analogues with add-back therapy, progestogens and continuous oral contraceptive are options available for a medium or long-term systemic treatment. Mifepristone, an antiprogestogen, may constitute an alternative if encouraging preliminary data on its effectiveness and tolerability are confirmed. A very appealing area of interest is the possibility of treating endometriosis without suppressing ovarian function. Aromatase inhibitors might have such characteristics as they have been shown to inhibit oestrogen production selectively in endometriotic lesions, without affecting ovarian function; the clinical role of these drugs in the treatment of endometriosis is under evaluation. Levonorgestrel medicated intrauterine device has proven effective in relieving dysmenorrhoea associated with endometriosis, as well as pain associated with rectovaginal endometriosis. Although a systemic absorption is present determining side effects, this approach is promising in the long-term management of this condition. A fundamental objective of research in endometriosis treatment is to develop new therapeutic approaches based on the findings from experimental studies on the aetiopathogenesis of the disease; current research is focusing on anti-inflammatory drugs and modulators of the immune system. TNF-binding protein-1 and IL-12 have proved effective in reducing endometriotic lesions in animal models, while pentoxifylline and INF-alpha 2b have shown encouraging results in clinical studies. This area may be of paramount importance in the near future in order to develop a therapy that could prevent or eradicate endometriosis rather than merely relieving the symptoms.
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PMID:Emerging drugs for endometriosis. 1515 42

Endometriosis is a common, chronic and estrogen-dependent gynaecological disorder associated with pelvic pain and infertility. In addition to, or perhaps as a consequence of, immune, environmental and genetic factors, endometriotic lesions show high estradiol (E(2)) biosynthesis and low E(2) inactivation compared with normal endometrium. Current medical therapies of pain, which aim to lower circulating E(2) concentrations, are not effective in at least half of these patients. We and others recently demonstrated the expression of a few steroidogenic genes in endometriosis. The most important genes in this group are steroidogenic acute regulatory protein (StAR) and aromatase. Both are essential for E(2) production. Prostaglandin E(2) (PGE(2)) is the most potent known stimulator of both StAR and aromatase. PGE(2) production in endometriosis is up-regulated by increased levels of the enzyme cyclo-oxygenase-2 (COX-2) in this tissue. COX-2 in turn is stimulated by E(2), interleukin-1beta (IL-1beta) and PGE(2) itself in endometrial and endometriotic cells. Thus, there is a positive feedback loop that favours continuous formation of E(2) and PGE(2) in endometriosis. These basic findings led to recent phase-II studies employing aromatase inhibitors in the treatment of endometriosis. Aromatase inhibitors treat both postmenopausal and premenopausal endometriosis at least as effectively as the existing medical treatments. In premenopausal women, we and others administered aromatase inhibitors in combination with an ovarian-suppressant treatment. In this review, we emphasize the most recent basic studies in detail and provide a short summary of recent clinical trials.
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PMID:Aromatase and other steroidogenic genes in endometriosis: translational aspects. 1612 52

The medical treatment of endometriosis needs to be optimized. Therapeutic management strategies for endometriosis-associated pain or recurrent disease are primarily aimed at downregulating ovarian function or antagonizing the effect of estrogen in ectopic endometrial implants. In this context, basic research is providing important results for the development of new, specific treatment modalities. Aromatase overexpression has recently been detected in endometriotic tissue. Aromatase (p450arom) is responsible for converting C19 androgens into estrogen in several types of human tissue. Aromatase activity causes local estrogen biosynthesis, which, in turn, stimulates prostaglandin E2 production by upregulating cyclooxygenase-2 (COX-2). Thus, a positive feedback cycle develops between the two systems. Another abnormality in endometriosis, the deficient 17beta-hydroxysteroiddehydrogenase type II (17beta-HSD-Type-II) expression, impairs the inactivation of estradiol to estrone. In contrast to the eutopic endometrium, these molecular aberrations increase the amount of local estradiol and prostaglandin E2 in endometriosis. In several human cell lines, prostaglandin and estrogen concentrations are associated with proliferation, migration, angiogenesis, apoptosis resistance and even invasiveness. Consequently, aromatase and COX-2 are thought to be promising new therapeutic targets. Thus, specific aromatase inhibitors (e.g. Letrozol/Femara, Anastrozol/Arimidex or Exemestan/Aromasin) or selective COX-2 inhibitors (e.g. Celecoxib/Celebrex, Rofecoxib/Vioxx, Valdecoxib/Bextra) are of great interest and should be studied in clinical trials in premenopausal woman with endometriosis to expand the spectrum of currently available treatment options.
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PMID:Aromatase inhibitors and cyclooxygenase-2 (COX-2) inhibitors in endometriosis: new questions--old answers? 1615 42

Aromatase inhibitors (AIs) are widely used as an adjuvant endocrine treatment in postmenopausal women with early-stage breast cancer. Clinical trials have assessed 5 years of AI therapy, either as an alternative to tamoxifen for primary adjuvant therapy of breast cancer, or after 5 years of adjuvant tamoxifen. Treatment of 2-3 years' duration after 2-3 years of tamoxifen has also been studied. AI therapy brings side effects related to estrogen deprivation, and this side effect profile differs in clinically relevant ways from that seen with tamoxifen. In particular, the selective estrogen receptor modulatory effects of tamoxifen contribute to menopausal symptoms, vaginal discharge, and the rare but worrisome risks of thromboembolism and uterine carcinoma. By contrast, the low levels of estrogen achieved with aromatase inhibition contribute to menopausal symptoms, vaginal dryness and sexual dysfunction, and accelerated bone demineralization with risk of osteoporosis and osteoporotic fracture. Clinical experience also suggests that AI therapy is associated with a novel musculoskeletal side effect consisting of an arthralgia syndrome. The actual incidence of AI-associated arthralgias or musculoskeletal symptoms is not known, though such symptoms are quite prevalent and appear more commonly with AI use than with tamoxifen. Arthralgias can be a reason for discontinuation of AI treatment. The possible mechanisms of AI-associated arthralgia are unclear. Estrogen deficiency causes bone loss, which in turn contributes to arthralgia. Less well-studied functions of estrogen include regulating immune cells and cytokines involved in bone remodeling, and modulating pain sensitivity at the level of the central nervous system. Arthralgia and arthritis have seldom been rigorously differentiated in clinical trials of AIs. Assessment of inflammatory and rheumatologic markers, as well as detailed evaluation of patient symptoms using appropriate quality-of-life instruments, may be warranted in order to understand both the symptoms and the etiology of the arthralgia syndrome. Treatment options for arthralgia (primarily non-steroidal anti-inflammatory drugs) are currently inadequate, but areas of active research include high-dose vitamin D and new-targeted therapies to inhibit bone loss.
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PMID:Aromatase inhibitor-associated arthralgia syndrome. 1736 3

Aromatase inhibitors are recommended for use by postmenopausal women who have estrogen receptor-positive early-stage breast cancer. They reduce local and distant recurrence more effectively than tamoxifen. Anastrozole (Arimidex, AstraZeneca Pharmaceuticals LP), letrozole (Femara, Novartis Pharmaceuticals Corporation), and exemestane (Aromasin, Pfizer Inc.) inhibit aromatase activity, thus significantly decreasing estrogen production in tissues such as liver, muscle, and fat. Very low levels of estrogen may be one cause of musculoskeletal pain, a common side effect associated with the drugs. In the major adjuvant aromatase inhibitor clinical trials, 25%-30% of the patients enrolled experienced musculoskeletal pain. Although quality-of-life studies demonstrate that aromatase inhibitors are well tolerated overall, some women discontinue this treatment because of musculoskeletal pain. Little is known about how to predict, measure, or manage musculoskeletal pain caused by aromatase inhibition. Oncology nurses play an important role in the assessment and management of side effects related to cancer. This article provides an overview of the current knowledge about musculoskeletal pain in patients with breast cancer receiving aromatase inhibitor therapy.
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PMID:Aromatase inhibitors and musculoskeletal pain in patients with breast cancer. 1762 27

Aromatase P450 (P450(arom)) is overexpressed in endometriosis, endometrial cancers and uterine fibroids. With weak estrogen agonists/antagonists and some other enzymatic activities, isoflavones are increasingly advocated as a natural alternative to estrogen replacement therapy (ERT) and are available as dietary supplements. Puerarin is major isoflavonoid compound isolated from Pueraria lobata, a Chinese medicine known as Gegen. Our clinical study shows that puerarin can be used in the treatment of endometriosis, which improves pain and infertility. Assuming that the effect of puerarin on endometriosis may result from the regulation of aromatase expression or activity, we carried out this study to test the effects of puerarin on aromatase in Ishikawa and RL95-2 cell lines. Our data have demonstrated a significant decrease of P450(arom) expression at both mRNA and protein levels by low dose puerarin treatment in both cell lines. Besides, we found that the -410/-401bp and -565/-559bp regions of aromatase promoter II contained the critical cis-acting elements, binding AP-1 and c-jun. We also found that puerarin exerted a time-course effect on the inhibition of c-jun mRNA, which parallelled that of P450(arom). To further confirm if c-jun is responsible for the P450(arom) regulation by puerarin, we knocked down c-jun expression using siRNA and it indicates that c-jun acts as a considerable transcription factor in regulating P450(arom) expression and activity. Accordingly, the suppression of P450(arom) expression and activity by puerarin treatment may associate with the downregulation of transcription factor AP-1 or c-jun.
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PMID:Decreased expression of aromatase in the Ishikawa and RL95-2 cells by the isoflavone, puerarin, is associated with inhibition of c-jun expression and AP-1 activity. 1884 66

Endometriosis is a common and chronic disease characterized by persistent pelvic pain and infertility. Estradiol is essential for growth and inflammation in endometriotic tissue. The complete cascade of steroidogenic proteins/enzymes including aromatase is present in endometriosis leading to de novo estradiol synthesis. PGE(2) induces the expression of the genes that encode these enzymes. Upon PGE(2) treatment, coordinate recruitment of the nuclear receptor SF-1 to the promoters of these steroidogenic genes is the key event for estradiol synthesis. SF-1 is the key factor determining that an endometriotic cell will respond to PGE(2) by increased estradiol formation. The presence of SF-1 in endometriosis and its absence in endometrium is determined primarily by the methylation of its promoter. The key steroidogenic enzyme in endometriosis is aromatase encoded by a single gene because its inhibition blocks all estradiol biosynthesis. Aromatase inhibitors diminish endometriotic implants and associated pain refractory to existing treatments in affected women.
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PMID:Steroidogenic factor-1 and endometriosis. 1915 Apr 83


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