Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

OH-1, consisting of purified natural human TNF-alpha and natural human IFN-alpha induced from BALL-1 cells stimulated with HVJ, has been obtained in large scale using Hayashibara's hamster method and has synergistically enhanced antitumor activity against wider spectrum of tumor cells, in vitro and in vivo. One of the action mechanism of OH-1 is clarified to be a result of arrest in the S phase of the cell cycle. In phase I study of OH-1 by intravenous administration to 23 patients with different advanced and/or metastatic malignant tumors, OH-1 shows the similar side effects to that of IFN-alpha without serious ones. The maximum tolerant dose is assumed as over 2,000 x 10(4) U/body. The early phase II clinical study of OH-1 is now on going, in which OH-1 shows anti-tumor effect with intravenous administration of over 200 x 10(4) U/body/day. As a preliminary result, OH-1 in dose of over 200 x 10(4) U/body/day to 62 patients with disseminated or advanced solid tumor shows an efficacy rate of 21.0%; CR in one patient of breast cancer and PR in three patients each of breast cancer, hepatocellular carcinoma and renal-cell carcinoma and PR in three other advanced cancer.
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PMID:[Large scale production of natural lymphokines with antitumor activity (OH-1) using transplantable human cell lines and its clinical use]. 315 17

A good correlation was found between in vivo and in vitro responses of peripheral MNC from breast cancer patients and the NK boosting effect of human beta IFN. In vitro immunochemistry studies showed that marked antitumor effects were obtained against cultured cancer cells when a widely used chemotherapeutic agent such as 5-FU was combined with nonsensitized spontaneously cytolytic MNC, preactivated in vitro with beta IFN. These results suggest that the in vitro susceptibility assay of MNC to IFNs could be used for predicting favorable responses to immunochemotherapy regimens employing IFNs as immunomodulating agents.
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PMID:Comparative studies between in vitro and in vivo effects of human beta-interferon on natural killer activity and its relevance to immunochemotherapy. 341 25

Exposure of ZR-75-1 human breast cancer cells for 48 h to human recombinant interferon alpha (IFN alpha) resulted in increased expression of oestrogen receptors as measured in a whole cell binding assay. This effect was inversely proportional to dose being significant following treatment with 10-100 IU IFN ml-1 and was only observed at a low initial cell plating density. The extent of the increase in oestrogen receptor levels ranged from 1.2- to 7.2-fold following treatment with 10 IU IFN ml-1. No increase in progesterone receptor expression was observed under the same experimental conditions. Concentrations of IFN which increased oestrogen receptor levels had no effect on cell proliferation. IFN (500 IU ml-1) inhibited cell proliferation and the combination of this treatment with tamoxifen (2 microM) had a greater anti-proliferative effect than either drug alone although there was no evidence of synergism. However, a 5-day pretreatment of cells with IFN (10 IU ml-1) markedly sensitised them to the growth-inhibiting effect of a subsequent 6-day exposure to tamoxifen.
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PMID:Recombinant human interferon alpha increases oestrogen receptor expression in human breast cancer cells (ZR-75-1) and sensitizes them to the anti-proliferative effects of tamoxifen. 356 59

The effect of natural beta-interferon (beta-IFN) on cell proliferation and steroid receptor level was investigated in CG-5 human breast cancer cell line. beta-interferon determines an appreciable diminution of cell growth, at concentrations ranging from 100 to 1000 IU/ml, which is enhanced when serum content of the culture medium is lowered. Low concentrations of beta-IFN (10-100 IU/ml) produce, after a 5-day treatment, an increase in estrogen receptors (ER) and progesterone receptors (PR). No variation of ER and PR levels is observed when beta-IFN is added directly to the cell homogenate before the assay. Our data suggest that beta-IFN could affect hormone sensitivity through a modification of ER and PR in neoplastic mammary cells.
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PMID:Effect of natural beta-interferon on cell proliferation and steroid receptor level in human breast cancer cells. 366 27

Effectiveness of recombinant DNA (rDNA) human interferon alpha 2 (IFN alpha 2) in advanced breast cancer was evaluated in 14 patients who had received prior endocrine and/or cytotoxic therapy. After randomization, 7 patients received IFN alpha 2 two million IU m-2 day-1, s.c., 3 times a week (schedule 1) and 7 patients received 50 million IU m-2 day-1, i.v., for 5 consecutive days, every 3 weeks (schedule 2). Treatment duration was 4-21 weeks in schedule 1 and 6-24 weeks (2-8 courses) in schedule 2. Regressions were not achieved with either schedule. Treatment was associated with significant toxicity and was more severe in schedule 2. Dose limiting toxicities were leukopenia, elevation of liver enzymes, hyperglycemia and fatigue. Serum IFN activity was low or undetectable in patients on schedule 1 and high in patients on schedule 2. At 24 h, serum IFN activity was detectable in only 1/6 patients on schedule 1 as compared to 3/7 patients on schedule 2. IFN neutralizing factors were detected in the serum of only 1 patient prior to treatment but none were detected in any of the patients during or after discontinuation of treatment (4-24 weeks). IFN alpha 2 increased the expression of both HLA class 1 antigens and beta 2 microglobulin in peripheral blood lymphocytes in vivo. This effect was dose related.
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PMID:Recombinant DNA human interferon alpha 2 in advanced breast cancer: a phase 2 trial. 391 78

In this paper we describe a model system for looking at the effects of human interferon, IFN, on an established human tumour. Highly purified human IFN derived from lymphoblastoid cells (HuIFN alpha-Namalwa) strongly inhibited the growth of a human breast cancer growing as a xenograft in nude mice. The effect was dose-dependent, required daily treatment for an optimal effect and was time-dependent, little inhibition being seen before 2 weeks of therapy. With the doses used, however, neither tumour regression nor disappearance were seen and on morphological examination, treated tumours appeared as miniatures of control tumours. The inhibition of the tumour by HuIFN alpha-Namalwa appeared to be due to a direct effect on the human cells as this IFN had little effect on the mouse immune system in vitro as measured by NK cells activity. Also HuIFN therapy had no effect on levels of an interferon induced enzyme, 2-5A synthetase, in the mouse spleen cells but stimulated this enzyme in the human tumour.
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PMID:Human interferon inhibits the growth of established human breast tumours in the nude mouse. 618 13

Interferon (IFN-alpha) increased estrogen receptor (ER) activity in human breast cancer tissue, human uterus (endometrium), and rabbit uterus. The optimum response was obtained with three different doses of IFN-alpha 10, 100, and 1000 U per ml. Escalation of the dose up to 5000 U per ml did not increase further ER activity. Cytosol fractions with zero or low binding activity (below 10 fm per mg) did not respond to IFN-alpha treatment. Addition of antibodies against IFN-alpha resulted in abrogation of IFN-alpha effect. Use of recombinant IFN-alpha or highly purified lymphoblastoid IFN-alpha showed similar effects on ER. The mechanism of the augmentation effect of ER activity by IFN-alpha is not clear. The increase of ER activity may have important clinical applications if the same is obtained in vivo.
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PMID:Interferon as a modifier of estrogen receptors. 619 54

Nineteen patients with advanced refractory metastatic breast cancer no longer responsive to chemotherapy were treated in the first phase II efficacy trial of recombinant leukocyte A interferon (IFL-rA), a highly purified single molecular species of alpha interferon prepared by recombinant DNA methods. Patients received a previously determined maximum tolerated dose for this agent (50 X 10(6) U/m2 body surface area) by intramuscular injection three times weekly for up to 3 months. The symptoms of toxicity observed in this trial resemble those previously reported for alpha interferons and include fever, chills, fatigue, anorexia, and leukopenia. All patients required dose reductions, most often for reasons of severe fatigue. Of the 17 patients evaluable for tumor response, one patient had stable disease and 16 had evidence of tumor progression. We conclude that IFL-rA is not an active agent in the treatment of advanced, refractory breast cancer when used at a maximum tolerated dose on this treatment schedule.
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PMID:Recombinant leukocyte A interferon in advanced breast cancer. Results of a phase II efficacy trial. 634 90

Clonogenic tumor cells from fresh biopsies of human cancers were cultivated in vitro and tested for sensitivity by continuous exposure to pharmacologically achievable concentrations of either of two highly purified human leukocyte interferon subtypes (IFN-alpha A and IFN-alpha D) prepared by recombinant DNA methods. The interferons were compared on a weight basis at concentrations of 0.4 and 4.0 ng/ml (equivalent to 80 and 800 units of interferon activity for IFN-alpha A and 2.0 and 20 units for IFN-alpha D). Inhibition of tumor colony-forming units (50% of control or less) was observed in 38.1% of the 273 tumors tested against IFN-alpha A, and in 16% of the 71 tumors tested against IFN-alpha D. Of the tumor types with at least ten samples tested against IFN-alpha A, the percentage of cases exhibiting inhibition was as follows: melanoma (51.7%), lung cancer (50%), myeloma (33.4%), ovarian cancer (33.9%), sarcoma (33.3%), adenocarcinoma of unknown primary (30.4%), breast cancer (28%), acute leukemia (30.8%), and renal cancer (23%). More marked inhibition (30% of control or less) was observed in 18.7% of all tumors tested against IFN-alpha A. Of 60 melanomas tested, 18 (30%) exhibited marked in vitro inhibition of growth with IFN-alpha A. Although a smaller number of tumors (71) were tested against IFN-alpha D on a weight basis, it appeared, in general, to be slightly less active than IFN-alpha A (p less than 0.01), and only 8% of tumors tested exhibited marked inhibition over the same dosage range of interferon. Comparison of the dose-response curves for the 68 tumors tested simultaneously against both interferons did not reveal marked interpatient differences in the inhibition curves, although IFN-alpha D was slightly less active overall. Tumors exhibiting at least 50% inhibition of tumor colony formation also proved to be sensitive to a significantly larger number of cytotoxic drugs (tested simultaneously) than the tumors not inhibited with interferon (p less than 0.0001 for IFN-alpha A). We conclude that the in vitro clonogenic assay may aid in targeting tumor types most likely to exhibit interferon sensitivity and assist in case selection for entry into clinical trials with cloned interferons.
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PMID:Effects of cloned human leukocyte interferons in the human tumor stem cell assay. 668 47

Eighty-one patients with a variety of refractory disseminated malignant neoplasms have been treated in the first multiple fixed-dose phase I trial of recombinant leukocyte A interferon (IFL-rA). Each patient received IFL-rA by intramuscular injection, three times weekly for 28 days. Dosages were escalated in different patients from 1 to 136 x 10(6) units per injection. The toxic reactions seen with IFL-rA resembled those of nonrecombinant leukocyte interferon and included fever, chills, fatigue, anorexia, myalgia, headache, occasional nausea and vomiting, and dose-dependent reversible leukopenia and hepatic transaminase elevations. The pharmacokinetics of IFL-rA were also comparable with nonrecombinant leukocyte interferon. Objective evidence of antitumor activity was seen in non-Hodgkin's lymphoma, chronic lymphocytic leukemia, Hodgkin's disease, breast cancer, and melanoma, indicating that IFL-rA, the first genetically engineered biological response modifier available for testing in cancer patients, is biologically active in vivo.
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PMID:A multiple-dose phase I trial of recombinant leukocyte A interferon in cancer patients. 675 47


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