Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027627 (metastases)
 103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bladder carcinoma needs multidisciplinary therapeutic approaches. Surgery classically is the main step of local treatment. Nevertheless, radiation therapy and chemotherapy are largely employed. Radiotherapy uses accelerator photon beams to treat pelvis and bladder up to a total dose of 65 Gy in 6 to 7 weeks. Local control rate after exclusive radiotherapy is 30-40% and morbidity is acceptable. Iridium-192 brachytherapy has limited indications and is generally performed after partial cystectomy. Chemotherapy is the treatment of metastatic bladder cancer. The more active drugs are cisplatin and methotrexate. They are combined polychemotherapy allowing a survival improvement in patients with metastatic disease. Concomitant radio-chemotherapy combinations appear as a promising strategy for conservative treatment.
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PMID:[Radiotherapy and chemotherapy in infiltrating bladder tumors]. 911 25

p53 nuclear immunoreactivity was determined in primary bladder tumours from 50 patients who developed metastatic bladder cancer. We investigated the relationship between p53 nuclear immunoreactivity and the response and outcome following chemotherapy. p53 nuclear accumulation was detected in 48% of the primary tumours using the PAb1801 antibody in archival paraffin-embedded tissue sections. All patients received platinum-based combination chemotherapy including methotrexate for metastatic disease. The response to chemotherapy did not relate to the prevalence of p53 nuclear overexpression: 50% of the patients expressing p53 nuclear reactivity achieved a response compared to 27% of those without p53 expression (P = 0.14); overall, 38% of the patients responded. The median survival after chemotherapy was 5.9 months; 8.4 months for patients with p53 nuclear reactivity compared to 5.2 months for those without (P = 0.38). Multivariate analysis showed that performance status but not p53 nuclear status was an independent prognostic factor for survival following chemotherapy. The results indicate that patients with p53 nuclear immunoreactivity in the primary bladder tumour do not have a lower response rate or poorer outcome following chemotherapy for metastatic disease than do patients without p53 nuclear reactivity.
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PMID:p53 nuclear immunoreactivity as a predictor of response and outcome following chemotherapy for metastatic bladder cancer. 939 91

An improved quality of life secondary to reduced chemotherapy toxicity is an important end point in the treatment of all patients with metastatic cancer. In this review, we have demonstrated that gemcitabine and gemcitabine/cisplatin combinations appear to have a reduced toxicity profile compared with MVAC. Phase II studies with gemcitabine and cisplatin have shown good response rates that are possibly equivalent to MVAC, and a Phase III trial is now completed. Similar data have been reported for the paclitaxel/carboplatin combination and a Phase III trial comparing that combination with MVAC is planned. For patients with TCC who are in mild renal failure or who have significant underlying medical conditions, gemcitabine can also be considered as a reasonable single agent therapy. Complete responses can be seen, even in patients who are older than the age of 70. Moore et al., for example, demonstrated near complete responses to gemcitabine monotherapy in 4 patients older than 80 years of age. In conclusion, chemotherapy options for patients with metastatic bladder cancer have changed significantly with the addition of gemcitabine and other drugs to the armentarium. The integration of gemcitabine into the initial chemotherapy plan for these patients is still being developed. It is clear that this agent should be included in the management discussions of all patients with metastatic bladder cancer.
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PMID:Gemcitabine and other new chemotherapeutic agents for the treatment of metastatic bladder cancer. 993 34

Twenty-one cases of vulvar Paget's disease were studied to assess possible prognostic indicators, including presence and depth of invasion, status of resection margins, tumor DNA cell content, and immunoreactivity for p53 and estrogen receptor proteins. Immunostaining for cytokeratin 7 (CK7), cytokeratin 20 (CK20), and gross cystic disease fluid protein-15 (GCDFP) were also performed. Patients were 45 to 82 years of age (mean, 66.9 years). Ten of 21 patients (47.6%) had invasive Paget's disease. Dermal invasion was < or = 1 mm in 7 of 10 cases and 2 mm, 3 mm, and 8 mm in the remaining three invasive tumors. Of the seven patients with minimally invasive Paget's disease (< or = 1 mm depth of invasion), five are alive with no evidence of disease, one died of an unrelated illness, and one is alive with biopsy-proven in situ Paget's disease, having refused operative treatment. Of the three patients with more than minimally invasive Paget's disease (> 1 mm), all had nodal metastases; one patient is alive with no evidence of disease, one died of undertermined causes, and one died of metastatic Paget's disease. The remaining 11 patients had Paget's disease confined to the epidermis and its adnexal structures. Seven of these patients were alive at last follow-up with no evidence of disease. Of the remaining four patients, one died of metastatic cervical cancer, one died of metastatic bladder cancer, one died of an unrelated illness, and one patient is alive with biopsy-proven in situ Paget's disease and awaiting operative treatment. Twenty of the 21 cases represented primary vulvar Paget's disease while one represented possible local spread from a cervical adenocarcinoma. The immunoprofiles were GCDFP+/CK7+/CK20- in 14 cases, GCDFP+/CK7+/CK20+ in 4 cases, and GCDFP-/CK7+/CK20- in 2 cases. All tumors were estrogen receptor-negative. Immunostaining for p53 was positive in 16 tumors and negative in four tumors. Seven of 12 (58%) patients with positive margins experienced local recurrence of Paget's disease, while the disease recurred in 1 of 4 patients with negative margins. Recurrence was observed in 3 of 5 patients with diploid tumors and in 4 of 10 patients with aneuploid tumors. Neither of these differences is statistically significant. This study supports the recognition of a category of minimally invasive vulvar Paget's disease that has a low risk of distant metastasis and death caused by disease. Status of surgical resection margins, tumor cell DNA ploidy, estrogen receptor expression, and p53 immunoreactivity are not predictive of local recurrence.
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PMID:Prognostic factors in Paget's disease of the vulva: a study of 21 cases. 1054 44

The prognostic factors for infiltrating tumors established by the TNM system in 1997 include: Depth of infiltration, degree of differentiation, status of lymph nodes distant metastases. Of the additional factors investigated, only tumor size and hydronephrosis appear to be of prognostic significance. In the scope of molecular markers, the loss of expression of the epithelial cell-cell adhesion molecule E-cadherin signals an unfavorable clinical course. In cases of carcinoma of the urinary bladder without metastases (T2-4,N0,M0), radical cystectomy is the therapy of choice. A preceding neoadjuvant systemic regimen of chemotherapy with three cycles of M-VAC (methotrexate, vinblastine, adriamycin, cisplatin) significantly improves the survival rate. In patients with locally advanced urinary bladder carcinoma, however, adjuvant systemic chemotherapy with M-VAC after cystectomy and lymphadenectomy offers no advantages for survival. Quality of life in patients with metastatic bladder cancer disease is improved by new cytotoxic drugs, i.e. gemcitabine or taxanes.
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PMID:[Locally advanced or metastatic bladder carcinoma. Current aspects of therapy]. 1176 Mar 52

Chemotherapy is an indispensable measure in the treatment of invasive or metastatic bladder cancer as even if metastases are not clinically apparent, the majority of cases of invasive bladder cancer are accompanied by micrometastases. At present, MVAC (methotrexate, vinblastine, adriamycin, cisplatin) is the gold standard for bladder cancer chemotherapy. There have consequently been many attempts at MVAC dose-intensification as well as many studies of the feasibility of neoadjuvant chemotherapy using MVAC. Unfortunately, the majority of results from these studies have been negative or contradictory. However, a recent large-scale randomised, controlled study yielded more promising results. Evidence has recently emerged which indicates that a useful chemotherapeutic strategy could possibly be devised by adjusting the dose and timing of MVAC. Increasing effort is also being put into the development of new gold standards for bladder cancer chemotherapy based on the use of newly developed antitumour drugs, and a number of candidates have emerged. It is hoped that the future we will see successful establishment of a number of useful regimens as a result of Phase III clinical studies using MVAC as their control regimen. For example, both gemcitabine and the taxanes, in combination with other drugs, are strong candidates for this purpose. The ultimate therapeutic strategy for bladder cancer will be a therapeutic approach which permits conservation of the bladder even when the malignancy is invasive and steady progress is already being made toward this goal, in limited cases, by means of multidisciplinary treatment.
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PMID:Developing therapies for advanced bladder cancer. 1177 25

Paclitaxel, a natural anticancer drug, has gained widespread acceptance as an active broad-spectrum antitumor agent, including its use in urological malignancies, particularly urothelial tract cancer and testicular cancer. The mechanism of action, based on the premature stabilization of the microtubule assembly with disruption of the cytoskeletal framework, is completely different from those of DNA-damaging agents, e.g., cisplatin and ifosfamide. As a single agent, paclitaxel is one of the most active drugs in metastatic bladder cancer, with an overall response rate of 40-50% being obtained in previously untreated patients. These promising single-agent results have prompted the use of combination regimens including, in particular, cisplatin and paclitaxel. A high degree of activity for the cisplatin-paclitaxel combination as reflected by responses in 50-80% of patients, including a substantial number of complete responses (> 30%), has been identified. The role of other agents such as vinorelbine, methotrexate, 5-fluorouracil, or ifosfamide as additions to this two-drug combination currently remains open. The combination of paclitaxel plus ifosfamide or vinorelbine in the absence of a platinum derivative has yielded rather disappointing results. Of particular interest may be the combination of paclitaxel and carboplatin. Both drugs can be given to patients with impaired renal function. Overall response rates of 45-60% have been reported in phase II studies. The so-called platelet-sparing effect of paclitaxel given in combination with carboplatin has resulted in a surprisingly low frequency of myelotoxicity, particularly thrombocytopenia. The combination of paclitaxel with carboplatin is being compared in an ongoing trial against the current standard MVAC regimen (methotrexate/vinblastine/Adriamycin/cisplatin) in patients with metastatic disease. Furthermore, the activity of paclitaxel-based combinations is currently being explored in the neoadjuvant setting in phase II studies, and the potential for the combination with the other new promising agent--gemcitabine--will be evaluated in a phase I setting. In prostate cancer, estramustine phosphate is widely used as palliative treatment for patients with hormone-refractory disease. In vitro synergistic activity has been observed between estramustine and paclitaxel in prostate-cancer cell lines, although paclitaxel has not demonstrated single-agent activity in patients with hormone-refractory prostate cancer. In clinical trials the combination of the two agents was associated with increased gastrointestinal toxicity. The addition of etoposide as a third drug has yielded prostate-specific antigen (PSA)-response rates of > 50%, but data on quality of life and survival time have not been reported for these combinations. A true clinical role for paclitaxel in prostate cancer has therefore not been established. Paclitaxel has finally demonstrated single-agent activity in relapsed and/or cisplatin-refractory testicular cancer in recent phase II trials, indicating different mechanisms of resistance to cisplatin and paclitaxel. These results have formed the rationale for the introduction of paclitaxel as part of combination chemotherapy regimens in patients with relapsed but chemosensitive testicular cancer. Preliminary results demonstrate that paclitaxel can be safely included into these conventional-dose combination regimens. When it is used prior to high-dose chemotherapy, sufficient numbers of peripheral blood stem cells (PBSCs) for high-dose therapy can be collected. The final role of paclitaxel in risk-adapted chemotherapeutic strategies in testicular cancer is not defined, but it appears that paclitaxel-based combinations can achieve a substantial response rate in patients with relapsed disease.
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PMID:Recent strategies for the use of paclitaxel in the treatment of urological malignancies. 1207 32

The WH2 (WASP homology domain-2) is a small actin monomer-binding motif and is found in many proteins that regulate the actin cytoskeleton, including the beta-thymosins, ciboulot, WASP, and verprolin/WIP (WASP-interacting protein). In sequence database searches we identified a novel mouse protein containing a WH2 domain in its C-terminal region. This mouse gene also shows strong sequence homology to human MIM (Missing in Metastasis), a cDNA fragment that is present in non-metastatic but absent in metastatic bladder cancer cell lines. Northern blot and in situ hybridizations show that MIM is strongly expressed in the developing neurons and skeletal and cardiac muscles in mouse embryos. In adult mice, the strongest expression of MIM mRNA is in liver, outer layers of the kidney, and in the Purkinje cells of the brain. Recombinant MIM protein interacts with actin monomers and inhibits actin filament nucleation in vitro. However, the MIM/ATP-G-actin complex can participate in actin filament assembly at the barbed end. MIM binds ATP-G-actin with a higher affinity (K(D) = 0.06 microm) than ADP-G-actin (K(D) = 0.3 microm) and inhibits the nucleotide exchange on actin monomers. Site-directed mutagenesis demonstrates that the actin monomer-binding site resides in the C-terminal WH2 domain of MIM. Overexpression of mouse MIM in NIH 3T3 cells results in the disappearance of actin stress fibers and appearance of abnormal actin filament structures. These data show that MIM is an ATP-G-actin binding protein that regulates cytoskeletal dynamics in specialized mammalian cell-types.
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PMID:Mouse MIM, a tissue-specific regulator of cytoskeletal dynamics, interacts with ATP-actin monomers through its C-terminal WH2 domain. 1248 61

Fifty-seven patients with MAGE-3-positive measurable metastatic cancer, most of them with melanoma, were vaccinated with escalating doses of a recombinant MAGE-3 protein combined with a fixed dose of the immunological adjuvant SBAS-2, which contained MPL and QS21. The immunisation schedule included 4 intramuscular (i.m.) injections at 3-week intervals. Patients whose tumour stabilised or regressed after 4 vaccinations received 2 additional vaccinations at 6-week intervals. The vaccine was generally well tolerated. Among the 33 melanoma patients who were evaluable for tumour response, we observed 2 partial responses, 2 mixed responses and 1 stabilisation. Time to progression in these 5 patients varied from 4 to 29 months. In addition, a partial response lasting 10 months was observed in 1 of the 3 metastatic bladder cancer patients included. None of the tumour responses described above involved visceral metastases. Immunological responses to the vaccine will be reported separately.
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PMID:Immunisation of metastatic cancer patients with MAGE-3 protein combined with adjuvant SBAS-2: a clinical report. 1250 61

Combination chemotherapy with newer, more active drugs in patients with advanced and/or metastatic bladder cancer might show improved response rate and survival. Gemcitabine (GEM) and Epidoxorubicin (EPI) have demonstrated activity in this disease. In addition, experimental studies in vitro have shown that the two agents have additive-synergistic effects when used in combination. Our prior phase I dose-finding study in previously untreated patients with advanced or metastatic bladder cancer defined recommended doses for further trials of GEM 1000 mg/m2 and EPI 25 mg/m2 on days 1, 8 and 15 every 28 days. A phase II trial at this dose level was initiated in previously untreated patients to assess efficacy and toxicity. Eligible patients had measurable disease; Karnofsky performance status (PS) of > 40; no prior chemotherapy; and adequate bone marrow reserve, cardiac, hepatic and renal function. Thirty- one patients (22 males, 9 females) with median age of 64 (range 44-75) and median PS of 80 were accrued, and all were eligible. Twelve patients had T4N1-2 M0, 8 had lymph node only metastases, while 11 had visceral metastases (liver, bone, lung). A total of 181 cycles was administered (range 3-7 per patient). Major toxicities (WHO grade > or = 3) were: neutropenia in 5 patients, thrombocytopenia in 2 patients, and anemia in 2 patients. Three patients had febrile neutropenic episodes and only 3 patients required dose reduction. Grade 1-2 non-hematological toxicities included nausea/vomiting, stomatitis and alopecia. No cardiac toxicity was observed. Of the 30 response evaluable patients, 17 (57%) demonstrated a major response (3 complete and 14 partial) (95% CI: 39%-75%), 7 had stable disease (23%) and 6 progressed (20%). These preliminary results confirm the phase I observation that the combination of GEM--EPI is highly active in the treatment of advanced and metastatic bladder cancer with a favourable toxicity profile.
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PMID:Gemcitabine plus Epi-doxorubicin as first-line chemotherapy for bladder cancer in advanced or metastatic stage: a phase II. 1253 29


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