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:C0027947 (neutropenia)
17,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The camptothecin analogues topotecan and irinotecan (CPT-11) are active anticancer drugs. This article reviews the accumulated results of clinical and laboratory studies performed with these agents at The Johns Hopkins Oncology Center. In a phase I clinical and pharmacology trial of topotecan given as a 30-min infusion daily for 5 days every 3 weeks, profound neutropenia precluded dose escalation above 1.5-2.0 mg/m2 per day, the maximum tolerated dose (MTD). The daily x5 schedule has been developed further with dose escalation using granulocyte-colony-stimulating factor support in patients who have kidney or liver dysfunction and given in combination with cisplatin. In addition, a phase I trial of topotecan given as a 5-day continuous intravenous infusion to patients with refractory leukemia has had promising antileukemic responses. A separate series of in vitro studies indicates that a modest degree of resistance to the cytotoxicity of topotecan can be mediated by P-glycoprotein. A phase I and pharmacology study of irinotecan given as a 90-min infusion every 3 weeks has defined an MTD of 240 mg/m2, with dose escalation being limited by several toxicities. These included an acute treatment-related syndrome of flushing, warmth, nausea, vomiting, and diarrhea; a subacute combination of nausea, diarrhea, anorexia, and weight loss; and/or neutropenia. Antitumor activity has been observed with topotecan and irinotecan in patients with a variety of solid tumors and refractory leukemia in our studies, which supports the widespread enthusiasm for this group of compounds.
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PMID:Camptothecin analogues: studies from the Johns Hopkins Oncology Center. 752 Aug 44

Drug resistance is a common phenomenon in clinical oncology. In vitro, tamoxifen has been shown to be an effective inhibitor of P-glycoprotein and a modulator of the multidrug resistance phenotype. We have previously shown that vinblastine can be given safely in combination with tamoxifen at doses that may modulate P-glycoprotein activity. In this phase I trial, tamoxifen (150 mg/m2 twice a day) was given with CHOPE (cyclophosphamide/doxorubicin/vincristine/prednisone/etoposide) in order to assess the toxicities of the combination. Resistance to three of these cytotoxic agents (doxorubicin, vincristine, and etoposide) may be mediated by P-glycoprotein. A total of 13 patients were evaluable on this trial, which showed that the maximum tolerated doses of cyclophosphamide and etoposide were 750 and 80 mg/m2, respectively. The dose-limiting toxicity was myelosuppression with 50% of the patients (3/6) treated at this dose level developing febrile neutropenia and 85% (6/7) developing grade 4 neutropenia. Tamoxifen at a dose of 150 mg/m2 twice a day can be given safely with the lymphoma regimen CHOPE at standard doses, but this combination may result in increased myelosuppression.
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PMID:A phase I trial of high-dose oral tamoxifen and CHOPE. 772 Jan 78

The search for new active agents and strategies to improve the prognosis for patients with stage IV breast cancer has led to examination of paclitaxel. Several clinical trials have been undertaken to determine its optimal use and clarify its role in the treatment of breast cancer and other malignancies. Several phase II trials involving breast cancer patients with limited prior therapy have yielded overall response rates (complete response and partial response) of 44% to 62% among women receiving paclitaxel. Treatment was generally well tolerated, with febrile neutropenia the most common side effect. An interim analysis of the European-Canadian Randomized Trial in Metastatic Breast Cancer demonstrated safety and efficacy of paclitaxel in a multicenter setting. Among the 234 patients evaluable for response, 29% (34/117) responded at 175 mg/m2 paclitaxel and 22% responded (26/117) at 135 mg/m2. Treatment was well tolerated at both dose levels; responses continue to evolve in patients who remain on study. Among patients with extensive prior therapy (> 2 prior regimens for stage IV disease), paclitaxel also has demonstrated safety and efficacy. At Memorial Sloan-Kettering Cancer Center, responses were noted among 36% of patients who had received two prior treatments and 21% of those who had received 3 or more. Paclitaxel was administered at 200 mg/m2 plus G-CSF. Other studies involving heavily pretreated patients yielded overall response rates as high as 53%. The concerns about cross-resistance between paclitaxel and doxorubicin (or other agents for which resistance is thought to be at least partly due to P-glycoprotein-mediated pleiotropic drug resistance) also are addressed.
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PMID:Single-agent use of Taxol (paclitaxel) in breast cancer. 786 28

The nuclear enzyme topoisomerase I (topo I) has been recently recognized as the target for the anticancer drug camptothecin (CPT) and its derivatives. Two of the agents that target this enzyme--topotecan (TPT) and CPT-11--appear to be active against a broad range of human tumors. In the following presentation, we review 1) the role of topo I in normal cells, 2) the chemistry and proposed mechanism of action of CPT and its analogues, 3) the results of preclinical and clinical testing of TPT and CPT-11, and 4) mechanisms of resistance to these agents. In normal cells, topo I is thought to be involved in gene transcription and DNA replication. During the course of its normal catalytic cycle, topo I transiently forms a covalent bond with DNA. CPT and its derivatives slow the religation step of the enzyme and stabilize the covalent adduct between topo I and DNA. In S-phase cells, advancing replication forks convert these topo I-DNA adducts into double-strand breaks that appear to be responsible for the cytotoxicity of these agents. Preclinical studies demonstrate antineoplastic activity for TPT and CPT-11 in a variety of tumor models. Phase I studies have identified neutropenia as the dose-limiting toxicity for both drugs. Gastrointestinal effects might also be dose-limiting for CPT-11 administered on some schedules. CPT-11 has shown antitumor activity in phase II trials for patients with carcinomas of lung, cervix, ovary, colon, and rectum and for patients with non-Hodgkin's lymphoma. Phase II studies of TPT are in progress. Resistance to the cytotoxic effects of these agents might result from decreased production of topo I or from production of a mutated form of topo I. In addition, decreased metabolic activation of CPT-11 (which is a pro-drug) and active efflux of TPT by P-glycoprotein-mediated transport might contribute to resistance. As agents with a novel mechanism of action, tolerable toxicity, and encouraging antitumor activity in early clinical trials, TPT and CPT-11 are undergoing further clinical development. If these agents can be successfully combined with other active chemotherapy agents, the topo I-directed agents offer the potential for significant advances in the treatment of patients with a variety of malignancies.
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PMID:The current status of camptothecin analogues as antitumor agents. 838 Nov 86

CI-980 is a synthetic mitotic inhibitor that binds to the colchicine binding site of tubulin. It demonstrates broad activity against human and murine tumor models and shows no cross resistance with tumor models whose mechanism of resistance is mediated by P-glycoprotein (MDR-1). A phase I study was completed in 25 patients with solid tumors using a 24-hour infusion schedule, with courses repeated every 3 weeks. Eight dose levels were tested between 1.2 and 15.6 mg/m2. The maximum tolerated dose was 14.4 mg/m2. Neutropenia was dose-related but not dose-limiting; thrombocytopenia was infrequent. CNS toxicities were dose-limiting and consisted of dizziness, headache, loss of coordination, loss of consciousness, nervousness, and other symptoms. These events occurred near the end of the infusion and were reversible, usually within 24 hours. One patient who was to be treated at dose level 8 (intended dose was 19.2 mg/m2; actual dose was 15.6 mg/m2) became encephalopathic prior to completion of the infusion. Other adverse events included gastrointestinal toxicities (nausea, vomiting, anorexia, constipation, stomatitis, dyspepsia, bleeding, cheilitis), IV site erythema, fever, and fatigue. A partial response was observed in one patient with colon cancer and reductions in CA-125 levels were observed in 2 patients with ovarian cancer. Pharmacokinetics were linear and dose-proportional. Results indicate high systemic clearance and wide tissue distribution. Mean pharmacokinetic parameter values: T1/2 = 5.52 hours, plasma clearance 1163 mL/min/m2, and Vdss 376 L/m2.
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PMID:A phase I trial and pharmacokinetic evaluation of CI-980 in patients with advanced solid tumors. 938 46

Cremophor EL (cremophor), a component of the paclitaxel formulation, can potentially reverse P-glycoprotein-associated multidrug resistance. A Phase I trial of cremophor as a 6-h infusion every 3 weeks was performed with bolus doxorubicin (50 mg/m2). The cremophor dose was escalated from 1 to 60 ml/m2. A standard paclitaxel premedication was given before cremophor. Using a bioassay, potentially active cremophor levels (> or = 1 microl/ml) were measured in plasma from patients receiving cremophor doses of 30, 45, and 60 ml/m2. A cross-over design was used to assess the influence of cremophor 30 ml/m2 on the pharmacokinetics of doxorubicin and doxorubicinol. The plasma area under the concentration versus time curve (AUC) of doxorubicin increased from 1448 +/- 350 to 1786 +/- 264 ng/ml x h (P = 0.02) in the presence of cremophor, whereas the AUC of doxorubicinol increased from 252 +/- 104 to 486 +/- 107 ng/ml x h (P = 0.02). This pharmacokinetic interaction was associated with significantly increased neutropenia. With reduction of the doxorubicin dose to 35 mg/m2, the cremophor dose was increased to 60 ml/m2. Dose-limiting toxicities occurred in two of six patients after 45 ml/m2 and two of four patients after 60 ml/m2, which included febrile neutropenia and grade III cremophor-related toxicities of rash, pruritus, headache, and hypotension. All patients who received 45 ml/m2 cremophor reached plasma levels > or = 1.5 microl/ml, but at 60 ml/m2, only two of four reached this level, and the calculated plasma clearance of cremophor was significantly faster at this dose. One patient with hepatoma resistant to epirubicin achieved a near-complete response. Cremophor 45 ml/m2 over 6 h with 35 mg/m2 doxorubicin is recommended for further studies. The pharmacokinetic interaction between cremophor and doxorubicin is quantitatively similar to that described in trials of paclitaxel with doxorubicin and suggests that the cremophor in the paclitaxel formulation is responsible.
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PMID:Phase I trial of cremophor EL with bolus doxorubicin. 979 61

Mechanisms of chemoresistance in renal cell carcinoma include P-glycoprotein, overexpression of multidrug resistance-1 (mdr1) gene, and unstable chromosomal aberrations. In vitro exposure of resistant tumor cells to low dose hydroxyurea causes loss of chromosomal aberrations, decrease in the mdr1 gene copies, and increased sensitivity to vinblastine. Patients received continuous hydroxyurea 500 mg every Monday, Wednesday and Friday. Vinblastine 5 mg/m2 was given intravenously on days 1 and 8 every 21 days. Seventeen patients with a median age of 63 (range 40-80) received a median of 3 courses of vinblastine (range 1-14). Toxicities included: > or = grade 3 non-hematologic toxicity (1) and febrile neutropenia (2). No treatment related mortality occurred. Three patients (17.6%) had partial responses. The median survival was 38.0 weeks (95% CI = 26.9-49.1 weeks). The addition of hydroxyurea given at the dose of 500 mg orally three times weekly had no major impact on the expected antitumor effect of vinblastine.
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PMID:A pilot study of low dose hydroxyurea as a novel resistance modulator in metastatic renal cell cancer. 1094 87

PSC-833 reverses multidrug resistance by P-glycoprotein at concentrations < or = 1000 ng / ml. A phase I study of PSC-833 and doxorubicin was conducted to determine the maximum tolerated dose and to investigate pharmacokinetics. PSC-833 was intravenously infused as a 2-h loading dose (LD) and a subsequent 24-h continuous dose (CD). Doxorubicin was infused over 5 min, 1 h after the LD. The starting dose was 1 mg / kg for both LD and CD with 30 mg / m(2) doxorubicin; these dosages were increased to 2 and 10 mg / kg and 50 mg / m(2), respectively. Thirty-one patients were treated. Nausea / vomiting was controllable with granisetron and dexamethasone. Neutropenia and ataxia were dose limiting. Steady-state concentrations of PSC-833 > 1000 ng / ml were achieved at a 2 mg / kg LD and a 10 mg / kg CD. Ex-vivo bioassay revealed that activity in serum for reversing multidrug resistance was achieved in all patients; IC(50) of P-glycoprotein expressing 8226 / Dox(6) in patients' serum was decreased from 5.9 to 1.3 microg / ml (P < 0.0001) by PSC-833 administration. Doxorubicin clearance was 24.3 +/- 13.7 (mean +/- SD) liter / h/m(2), which was lower than the 49.0 +/- 16.9 liter / h/m(2) without PSC-833 (P < 0.0001). The relationship between doxorubicin exposure and neutropenia did not differ between patients treated and not treated with PSC-833. The recommended phase II dose of PSC-833 was 2 and 10 mg / kg for LD and CD, respectively, which achieved a sufficient concentration in serum to reverse drug resistance, as confirmed by bioassay. The dose of doxorubicin should be reduced to 40 mg / m(2), not because of the pharmacodynamic interaction between PSC-833 and doxorubicin affecting hematopoiesis, but because of pharmacokinetic interaction.
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PMID:Phase I study of intravenous PSC-833 and doxorubicin: reversal of multidrug resistance. 1122 52

Etoposide is a substrate for P-glycoprotein, CYP3A4, CYP3A5, and UGT1A1. Glucocorticoids modulate CYP3A and P-glycoprotein in preclinical models, but their effect on clinical etoposide disposition is unknown. We studied the pharmacokinetics of etoposide and its catechol metabolite in children with acute lymphoblastic leukemia, along with polymorphisms in CYP3A4, CYP3A5, MDR1, GSTP1, UGT1A1, and VDR. Plasma pharmacokinetics were assessed at day 29, after 1 month of prednisone (n = 102), and at week 54, without prednisone (n = 44). On day 29, etoposide clearance was higher (47.4 versus 29.2 mL/min/m2, P <.0001) than at week 54. The day 29 etoposide or catechol area under the curve (AUC) was correlated with neutropenia (P =.027 and P =.0008, respectively). The relationship between genotype and etoposide disposition differed by race and by prednisone use. The MDR1 exon 26 CC genotype predicted higher day 29 etoposide clearance (P =.002) for all patients, and the CYP3A5 AA and GSTP1 AA genotypes predicted lower clearance in blacks (P =.02 and.03, respectively). The UGT1A1 6/6, VDR intron 8 GG, and VDR Fok 1 CC genotypes predicted higher week 54 clearance in blacks (P =.039,.036, and.052, respectively). The UGT1A1 6/6 genotype predicted lower catechol AUC. Prednisone strongly induces etoposide clearance, genetic polymorphisms may predict the constitutive and induced clearance of etoposide, and the relationship between genotype and phenotype differs by race.
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PMID:Effects of prednisone and genetic polymorphisms on etoposide disposition in children with acute lymphoblastic leukemia. 1296 65

BMS-184476 is a 7-methylthiomethyl ether derivative of paclitaxel that displays potency superior to paclitaxel against tumor cells in culture and human tumor xenografts. It also inhibits the growth of paclitaxel-resistant human tumor cell lines with multidrug resistance mediated by either P-glycoprotein or mutated tubulin. Given the known synergy between taxanes and cisplatin in vitro and their clinical activity in combination, we performed a Phase I trial of BMS-184476 as a 1-h i.v. infusion followed by cisplatin every 21 days. Twenty-seven patients with a variety of solid tumors and good performance status received 116 cycles of therapy at BMS-184476 doses of 40-60 mg/m(2) together with cisplatin at 75 mg/m(2). The early observation of hypersensitivity reactions required prophylactic premedication in all patients. At the planned highest dose of BMS-184476 (60 mg/m(2)) and cisplatin (75 mg/m(2)), we observed dose-limiting toxicity in the form of neutropenia and diarrhea. Also at this level, five patients experienced grade 3 or worse nausea and vomiting. Aggressive prophylactic treatment eliminated the gastrointestinal toxicity. Mild to moderate peripheral neuropathy was infrequent, as was alopecia. Patient benefits included three partial responses in patients with mesothelioma, esophageal cancer, and head and neck cancer, and two additional minor responses. Plasma pharmacokinetic data are available for 23 patients treated at 40-60 mg/m(2). The mean maximum plasma concentrations and areas under the curves increased in a dose-related manner. The pharmacokinetics of BMS-184476 appeared independent of dose. The mean (+/- SE) values for clearance, volume of distribution at steady state, and the apparent terminal half-lives of the three dose groups during cycle 1 were 243 +/- 5 ml/min/m(2), 423 +/- 58 l/m(2), and 32.2 +/- 4.5 h, respectively. BMS-184476 60 at mg/m(2) with cisplatin at 75 mg/m(2) with appropriate supportive therapy is the dose recommended for further evaluation.
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PMID:Phase I and pharmacokinetic trial of the novel taxane BMS-184476 administered as a 1-hour intravenous infusion in combination with cisplatin every 21 days. 1461 2


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