UMLS:C0027627 - FACTA Search

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)

The incidence of prostate cancer has dramatically increased worldwide in the past decade, with mortality rates also increasing in many countries. Once prostate cancer is diagnosed, it is important to rapidly begin a treatment regimen that is either potentially curative or impedes disease progression. When the disease is confined to the prostate, it can be cured by radical prostatectomy or irradiation therapy. However, there are no curative therapies for locally advanced, recurrent, or metastatic diseases. Clearly, new therapies are needed for these patients. Gene therapy may provide additional therapeutic options with the potential to affect both localized and metastatic disease. Virus-mediated transduction of the herpes simplex virus thymidine kinase (HSV-tk) gene transfer, followed by a course of the prodrug ganciclovir (GCV), so-called suicide gene therapy, has been demonstrated by several investigators. The present in situ gene therapy clinical trial for human prostate cancer demonstrated safety, clinical efficacy, and biological effects of antitumor activity. HSV-tk clinical trials for prostate cancer are also ongoing in Japan, the Netherlands, and Mexico. Currently, numerous preclinical studies have reported immunomodulatory cytokine gene therapy, such as interleukin-2, interleukin-12, B7-1 (CD80), B7-2 (CD86) and granulocyte-macrophage colony-stimulating factor. Several clinical studies have been approved that potentially will show that these immunomodulatory gene therapies may generate an effective local and systemic antitumor activity and that should provide options for patients with prostate cancer. We review the multiple issues involved in current in situ gene therapy (gene/immunotherapy), its outcome, and future directions for patients with prostate cancer.
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PMID:In situ gene therapy for prostate cancer. 1563 15

We report on 10 patients with resected American Joint Committee on Cancer (AJCC)stage IIA-IIIC melanoma receiving individualized adjuvant peptide vaccinations derived from the melanosomal antigens MelanA/MART1, gp100 and tyrosinase, according to patient tumor associated HLA restricted antigen expression, in combination with granulocyte-macrophage colony-stimulating factor (GM-CSF). Except for 1 patient, all patients had received systemic pretreatment with immunotherapy (n = 8), chemoimmunotherapy (n = 1), chemotherapy (n = 1), or cefalectin therapy (n = 1). Upon prior therapy, 7 of 10 patients had progressed with subcutaneous/cutaneous (n = 2), lymph node (n = 3), or subcutaneous/cutaneous and lymph node (n = 2)metastases, which were subsequently resected prior to vaccination. After a mean of 6.5 vaccination cycles, progression-free survival was 6 months (median, range 2-10). Five patients were relapse-free for 1+ up to 21+ months, 3 patients developed a solitary cutaneous metastasis, and 2 patients developed multiple metastases during vaccination. Overall, vaccine treatment was well tolerated, with no severe side-effects. Eight of 10 patients developed local delayed type hypersensitivity (DTH)reactions to synthetic peptides after the first or second injection. In 2 patients, transient fever, nausea, diarrhea, and muscle pain of National Cancer Institute (NCI)Grade I occurred. In summary, individualized synthetic peptide vaccination, combined with GM-CSF, was feasible and warrants further clinical investigation.
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PMID:Individualized synthetic peptide vaccines with GM-CSF in locally advanced melanoma patients. 1566 24

The aim of this phase I/II study was to determine the maximum tolerated dose (MTD) and the dose-limiting toxicities of chronic oral etoposide given on days 1-10 followed by rescue with subcutaneous (s.c.) granulocyte-macrophage colony-stimulating factor (GM-CSF) on days 12-19 as second-line chemotherapy in platinum-pretreated patients (pts) with advanced ovarian carcinoma. Cohorts of three to six pts were treated with doses of oral etoposide from 750 mg m(-2) cycle(-1) escalated to 1250 mg m(-2) cycle(-1) over 10 days, every 3 weeks. Subcutaneous GM-CSF, 400 mug once daily, days 12-19, was added if dose-limiting granulocytopenia was encountered. In total, 18 pts with a median Karnofsky index of 80% (range, 70-100%) and a median time elapsed since the last platinum dose of 10 months (range, 1-24 months), 30% of whom showed visceral metastases, were treated at four dose levels (DLs) of oral etoposide on days 1-10 of each cycle as follows: DL 1, 750 mg m(-2) cycle(-1), without GM-CSF, three pts; DL 2, 1000 mg m(-2) cycle(-1), without GM-CSF, three pts; DL 3, 1000 mg m(-2) cycle(-1), with GM-CSF, six pts; and DL 4, 1250 mg m(-2) cycle(-1), with GM-CSF, six pts. All pts were assessable for toxicity and 16 pts for response. Dose-limiting toxicity (DLT) was reached at DL 4 by three of six pts, showing World Health Organization (WHO) toxicity grade 4. One patient died from gram-negative sepsis associated with granulocytopenia grade 4. Two more pts developed uncomplicated granulocytopenia grade 4. Thus, we recommend that DL 3 can be used for further phase II evaluation (i.e. oral etoposide 1000 mg m(-2) cycle(-1), days 1-10, followed by s.c. GM-CSF 400 mug, days 12-19). The clinical complete or partial responses in each patient cohort were: DL 1, one of three pts; DL 2, one of three pts; DL 3, three of five pts; and DL 4, two of five pts. In conclusion, in this phase I/II study, we defined the MTD and the dose recommended for the therapy with oral etoposide given over 10 days followed by s.c. GM-CSF in platinum-pretreated patients with advanced ovarian cancer. Our data demonstrate encouraging activity of this regimen and strongly support its further investigation in a phase II study.
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PMID:Phase I/II study of oral etoposide plus GM-CSF as second-line chemotherapy in platinum-pretreated patients with advanced ovarian cancer. 1575 78

In cancer patients, the ability to detect disseminated tumour cells in peripheral blood or bone marrow could improve prognosis and consent both early detection of metastatic disease and monitoring of the efficacy of systemic therapy. These objectives remain elusive mainly due to the lack of specific genetic markers for solid tumours. The use of surrogate tissue-specific markers can reduce the specificity of the assays and give rise to a clinically unacceptable false-positive rate. Mammaglobin (MAM) and maspin are two putative breast tissue-specific markers frequently used for detection of occult tumour cells in the peripheral blood, bone marrow and lymph nodes of breast cancer patients. In this study, it was evaluated whether MAM and maspin gene expression may be induced in the normal blood and bone marrow cells exposed to a panel of cytokines, including chemotactic factors (C5a, interleukin (IL)-8), LPS, proinflammatory cytokines (TNF-alpha, IL-1beta) and growth factors (IL-3, granulocyte-macrophage colony-stimulating factor, granulocyte colony-stimulating factor). The experimental data show that all cytokines included in the panel, except for IL-8, were able to induce maspin expression; on the contrary, MAM gene was never induced. These results suggest that MAM is more specific than maspin and that the possible interference of cytokines should be taken into account in interpreting molecular assays for detection of isolated tumour cells.
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PMID:Effect of different cytokines on mammaglobin and maspin gene expression in normal leukocytes: possible relevance to the assays for the detection of micrometastatic breast cancer. 1584 Oct 77

The EpCAM antigen is highly expressed on colorectal carcinoma (CRC) cells. Murine anti-EpCAM MAb (anti-EpCAM mMAb) alone or in combination with cytokines may induce clinical responses including long-lasting complete remissions (CR) in patients with metastatic disease. The chimeric variant of anti-EpCAM MAb (anti-EpCAM cMAb) interacts more efficiently with human effector cells (ADCC) than the murine counterpart in the killing of colorectal carcinoma cells in vitro, an important mechanism of action for antibody in vivo. Granulocyte-macrophage colony-stimulating factor (GM-CSF) augments immune effector cell functions in vivo and may enhance the therapeutic effect of MAbs. In this study, the therapeutic efficacy of the combination of anti-EpCAM cMAb and GM-CSF was evaluated in 24 patients with metastatic CRC. GM-CSF was given s.c. once daily for 10 consecutive days and on day 3, anti-EpCAM cMAb was given i.v. A treatment cycle was repeated every 4th week. Five patients achieved stable disease > 3 months (overall response rate 21%). Responding patients survived significantly longer than non-responding patients (p = 0.030). The frequency of patients with an immediate-type allergic reaction (ITAR) against anti-EpCAM cMAb at the 1st, 2nd, 3rd and 4th treatment cycles was as 13%, 29%, 25% and 19% respectively. Compared to a previous study where anti-EpCAM mMAb was used in a similar treatment regimen, the present protocol did not augment the overall or progression-free survival. The overall response rate was also similar to anti-EpCAM mMAb treated patients (6/22, 27%), but the anti-EpCAM mMAb treatment protocol induced two CR, one MR and three SD. Further studies are warranted to establish the role of EpCAM as a target for antibody therapy, specifically the significance of chimeric or humanized anti-EpCAM MAbs.
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PMID:Clinical effects of a chimeric anti-EpCAM monoclonal antibody in combination with granulocyte-macrophage colony-stimulating factor in patients with metastatic colorectal carcinoma. 1587 Aug 73

Cytokines have been used in the treatment of patients with cutaneous melanoma. Granulocyte-macrophage colony-stimulating factor (GM-CSF, sargramostim [Leukine]) leads to dendritic cell/macrophage priming and activation, and also increases interleukin-2 (IL-2) receptor expression on T. lymphocytes. IL-2 creates lymphokine-activated killer cells and tumor-infiltrating lymphocyte cells. In this open-label, single-arm study of 16 high-risk patients, we combined these two agents to take advantage of their different but complementary functions. All patients underwent potentially curative surgery. Postoperatively, each patient received GM-CSF at 125 microg/m2/d subcutaneously (SC) for 14 days; this was followed by IL-2 at 9 million IU/m2/d SC for 4 days, and then 10 to 12 days of no treatment. In addition, patients who had large tumors that could yield over 100 million live tumor cells received autologous melanoma vaccines. The duration of follow-up ranged from 21 to 42 months (median: 27 months). During follow-up, five patients developed metastases. This program was carried out on an outpatient basis, and no hospitalization was required. It was well tolerated with minimal side effects. The combination treatment regimen of GM-CSF and IL-2 with or without autologous vaccine used adjuvantly appears to benefit high-risk melanoma patients; further clinical testing of this regimen is warranted.
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PMID:GM-CSF and IL-2 combination as adjuvant therapy in cutaneous melanoma: early results of a phase II clinical trial. 1593 95

Gene therapy-induced expression of immunostimulatory molecules at tumor cell level may evoke antitumor immune mechanisms by recruiting and enhancing viability of antigen-processing cells and specific tumoricidal lymphocytes. The antitumor efficacy of a plasmid, coding for granulocyte-macrophage colony-stimulating factor (GM-CSF) and the B7-1 costimulatory immune molecule, delivered into growing solid tumors by electroporation was investigated. Murine fibrosarcomas (JBS) growing in Balb/C mice (<or=100 mm3) were transfected with GM-CSF/B7-1-expressing plasmid. Complete tumor regression occurred in greater than 60% of treated animals. This response was systemic, durable and tumor specific, with all responding animals resistant to repeat tumor challenge. Using a liver metastatic model, effective cure of distal metastases was achieved following treatment of the primary subcutaneous tumor. This treatment strategy could be applicable in the clinical setting for effective elimination of both primary tumors and associated metastatic disease.
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PMID:Local gene therapy of solid tumors with GM-CSF and B7-1 eradicates both treated and distal tumors. 1687 63

A patient with recurrent breast cancer metastases following initial response to chemotherapy and hormonal maintenance was treated with a whole-cell tumor vaccine, resulting in a prompt objective complete remission of a lung lesion on computed tomography (CT) scans and near-complete regression of multiple breast lesions on magnetic resonance imaging (MRI). Three months after completion of the protocol, metastases were again found in the breast and lung, with new lesions in the brain and liver. Reinstitution of vaccine inoculation resulted in major regression of the brain and breast lesions, improvement in all other areas, and no indication of new lesions. Therapy consisted of inoculation of 20 x 10(6) SV-BR-1-GM cells, a unique breast cancer cell line transfected to release sargramostim (granulocyte macrophage colony-stimulating factor [GM-CSF]). Following lethal irradiation to 200 cGy, vaccine was injected intradermally in four divided doses to the back and thighs, every 2 weeks x 3, then every month x 3. Each treatment was preceded 48 hours earlier with low-dose cyclophosphamide 300 mg/m2 to abrogate regulatory T-cell activity. Interferon (IFN)-alpha, 20,000 IU, was injected into each inoculation site at 48 and 96 hours postinoculation to provide an additional "danger signal." The patient developed positive delayed-type hypersensitivity responses and also antibody reactivity to the vaccine cells.
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PMID:Objective clinical regression of metastatic breast cancer in disparate sites after use of whole-cell vaccine genetically modified to release sargramostim. 1695 69

Seventy-four (74) patients with metastatic melanoma were treated with patient-specific vaccines derived from autologous tumor cell lines. Cryopreserved irradiated tumor cells were injected weekly for 3 weeks, then monthly for 5 months. At a median follow up >6 years, the median event-free survival (EFS) was 4.5 months, with 13 patients alive and progression free 6-12 years later. Median overall survival (OS) was 20.5 months, with 29% 5-year OS. Tumor response rate was 9% among the 35 patients with evaluable disease who received at least 3 injections. Better survival was observed for patients who had minimal rather than clinically evident metastatic disease at the time vaccine therapy was initiated (5-yr OS 47% vs. 13%; p < 0.0001), received granulocyte-macrophage colony-stimulating factor and/or interferon gamma as an adjuvant (5-yr EFS 26% vs. 0%; p < 0.0001) or received an average of <7 million cells for each of the first 3 injections, compared to those who received 7-11.9 million or >12 million cells per injection (5-yr EFS OS 35% vs. 24%; p = 0.041 and p = 0.034). There was a trend toward better EFS for those who had a positive delayed type hypersensitivity (DTH) reaction to an intradermal injection of 1 million irradiated tumor cells at baseline, or converted to positive after 3 injections, compared to those whose DTH remained negative (5-yr EFS 39% vs. 18%; p = 0.159). This treatment approach is feasible, produces minimal toxicity, and is associated with longterm survival in a significant proportion of patients.
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PMID:Patient-specific vaccines derived from autologous tumor cell lines as active specific immunotherapy: results of exploratory phase I/II trials in patients with metastatic melanoma. 1765 Oct 37

Twenty-four (24) pretreated patients with relapsed high-risk resected The American Joint Committee on Cancer (AJCC) stage IIA-IV melanoma received adjuvant peptide vaccinations derived from the melanosomal antigens MelanA/MART1, MAGE-1, gp100, and tyrosinase, according to patient tumor-associated human leukocyte antigen (HLA) restricted antigen expression, in combination with granulocyte-macrophage colony-stimulating factor (GM-CSF). Pretreatment was comprised of surgery (n=23 primary tumor; n=23 metastases), local radiotherapy (n=2), immunotherapy (n=23), chemotherapy (n=10), and chemoimmunotherapy (n=1), respectively. All patients received peptide vaccines in an adjuvant setting. Seven (7) patients were relapse free for 3+ up to 25+ months. Of the patients exhibiting progressive disease (n=17), 13 patients developed metastases during vaccination (9 local, 4 distant), and 4 patients developed metastases (2 local, 2 distant) after finishing vaccine therapy. Two (2)-year local and distant metastases-free survival, 2-year distant metastases-free survival, and 2-year overall survival were calculated as 8.6%, 68%, and 85%, respectively. Vaccine treatment was well tolerated, with no severe side-effects. Twenty (20) of 24 patients developed local delayed-type hypersensitivity (DTH) reactions to synthetic peptide vaccination. Transient fever (n=2) and pain in muscle/bone (n=2) occurred rarely. In conclusion, antigenic peptide vaccination, combined with GM-CSF, is safe and may yield clinical benefits in relapsed high-risk resected melanoma patients.
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PMID:GM-CSF plus antigenic peptide vaccination in locally advanced melanoma patients. 1780 50

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