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: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the present study, we analysed human choriocarcinoma cell lines for abnormalities in the tumour-suppressor gene p53 by Southern blotting, Northern blotting, non-radioisotopic single-stranded conformational polymorphism (SSCP) and complementary DNA sequencing. In all cell lines (Bewo, GCH-1, GCH-2, SCH, JAR, JEG-3, NUC-1 and HCCM-5), no p53 gene abnormality was detected by using Southern blotting. p53 mRNA of the expected size was detected in all cell lines tested by Northern blotting. SSCP analysis revealed abnormalities of p53 cDNA in the SCH cell line. Sequencing analysis of the entire coding region of the p53 gene revealed that both alleles were expressed in the JEG-3 cell line, and one of the alleles contained a point mutation (G to T) in codon 167 (Gln to His). In the NUC-1 cell line both alleles were point mutated. One allele had a point mutation (A to T) that resulted in a codon 17 change (Glu to Asp), and another had a point mutation (A to T) that caused a codon 24 change (Lys to Asn). In the SCH cell line, AGG was inserted between codon 249 and 250; this insertion resulted in an abnormal structure of the p53 protein. In three out of eight human choriocarcinoma cell lines, a p53 gene abnormality was detected. Therefore our data demonstrate that p53 gene abnormalities are associated with choriocarcinoma cell lines.
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PMID:Analysis of the p53 gene in human choriocarcinoma cell lines. 781 56

SCH 66336 is a potent farnesyl transferase inhibitor (FTI) in clinical development. It efficiently prevents the membrane association of H-ras, but not K- or N-ras. Yet, in soft agar, it reverts the anchorage-independent growth of human tumor cell lines (hTCLs) harboring H-ras, K-ras, and N-ras mutations, implying that blocking farnesylation of proteins besides ras may be responsible for this effect. Experiments show that SCH 66336 altered the cell cycle distribution of sensitive human tumor cells in two distinct ways. Most sensitive hTCLs accumulated in the G(2)-->M phase after the FTI treatment, but those with an activated H-ras accumulated in G(1) phase, suggesting that the biological effects induced by FTIs in cells with an activated H-ras are distinct from other sensitive cells. A careful genotypic comparison of the hTCLs revealed that those cells with wild-type p53 are especially sensitive to the FTIs. In these cells p53 and its downstream target gene p21(Cip1) are induced after treatment with SCH 66336 for 24 h. These data suggest that cell cycle effects, either G(1) or G(2)-->M accumulation, and p53 status are important for mediating the effects of FTIs on tumor cells.
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PMID:The farnesyl transferase inhibitor SCH 66336 induces a G(2) --> M or G(1) pause in sensitive human tumor cell lines. 1112 Jun 1

Adenoviral vectors are being actively investigated for their potential utility in gene therapy. SCH 58500, a replication-deficient adenoviral vector, carries the normal p53 tumor suppressor gene, which is frequently mutated or absent in several human cancers. To assess the potential toxicity associated with adenoviral use, Yorkshire pigs were dosed by intravenous, intrahepatic, or local routes (subcutaneous and intradermal) to support a variety of potential clinical indications. Porcine cells were shown to support replication of wild-type human adenovirus. The nonlethal and asymptomatic dose in pigs following dosing via the intrahepatic route was greater than 3 x 10(8) plaque-forming units (pfu)/kg (2.2 x 10(11) particles/kg), but less than 2.1 x 10(9) pfu/kg (1.5 x 10(12) particles/kg). By the intravenous route it was 1 x 10(8) pfu/kg, and by the ip route it was greater than or equal to 3 x 10(8) pfu/kg. In a multicycle intraperitoneal study in pigs, the high dose of 3 x 10(8) pfu/kg caused an increased antibody and/or an inflammatory response. By the intravenous route, plaque-forming units were present in most pigs at 5 min postdose, but only in a few at 10 min postdose. No expression was found in gonadal tissue approximately 3 weeks after a single intravenous injection of 3 x 10(8) pfu/kg. At high intrahepatic doses (about 1.5 x 10(12) particles/kg), acute cardiovascular and hemodynamic effects were found, which in subsequent studies were also present at high doses by intravenous administration. Based on these findings, careful evaluation of hemodynamic parameters in patients receiving systemic doses of SCH 58500 is warranted.
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PMID:Porcine toxicology studies of SCH 58500, an adenoviral vector for the p53 gene. 1181 30

SCH 58500 is a replication-defective recombinant adenoviral vector containing the cloned human wild-type (normal) tumor suppressor gene p53. SCH 58500 is in trials to evaluate potential clinical utility. A series of toxicology studies in rats and mice were conducted via multiple routes of exposure to support these programs. The nonlethal and asymptomatic dose in rats following a 14-day observation period was equal to 7.5 x 10(7) plaque-forming units (pfu)/kg (5.6 x 10(10) particles/kg) by intravenous or intraperitoneal route and was similar by the ip route, following 4 weeks of dosing. The high dose of 1.5 x 10(9) pfu/kg (1.1 x 10(12) particles/kg) was lethal by the i.v. route and inflammatory to the peritoneal cavity by the ip route. SCH 58500 was rapidly cleared from the systemic circulation in rats (serum t(1/2) of 7 to 9 min) following iv administration. Administration by other routes resulted in no (sc) or delayed (ip) serum levels. Since most rats in the i.v. rat study died within 24 h postdose, another study to evaluate potential mechanisms of toxicity in rats was designed in which rats were killed at intervals following a single i.v. dosing. A single high i.v. dose of SCH 58500 (1.1 x 10(12) pfu/kg) was associated with lethargy, soft feces, a ruffled-hair coat, and death within 1 h postdose. Potential mechanisms of toxicity appeared to include a mild coagulopathy and/or vasculopathy, resulting in consumption of platelets and clotting factors, leakage or loss of intravascular fluid, hemoconcentration, electrolyte and/or fluid shifts, a moderate stress and/or inflammatory response, and a mild, direct or indirect toxic effect on liver and/or kidney tissue. These findings suggest a multifocal cause for acute lethality following i.v. dosing in rats.
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PMID:Rodent nonclinical safety evaluation studies of SCH 58500, an adenoviral vector for the p53 gene. 1181 31

Induction of apoptosis is an attractive strategy in cancer therapy but it clinical practice is not yet sufficient in choriocarcinoma. The quinolinone derivative, vesnarinone, is a novel inotropic agent used for treating congestive heart failure and may also have a potential anticancer activity. It induces apoptosis and differentiation in some tumor cell lines. We examined the antitumor effect of vesnarinone in eight cell lines established from human choriocarcinoma and hydatidiform mole using MTT assay and also analyzed the nuclear fragmentation of tumor cells by DNA electrophoresis assay. Vesnarinone inhibited the proliferation of choriocarcinoma cell lines in a dose-dependent manner and induced DNA fragmentation in cells. However, the BM cell line prepared by subcultivation from hydatidiform mole showed no growth suppression or DNA fragmentation in response to vesnarinone. On the other hand, PCR-SSCP analysis and direct DNA sequencing have shown that a human choriocarcinoma cell line, SCH, has a mutant p53 gene at codon 249. When SCH cells were treated with vesnarinone cellular proliferation was significantly inhibited. Vesnarinone suppressed the proliferation of all choriocarcinoma cell lines and induced apoptosis, regardless of the existence of p53 mutation. In addition, it has been found by RT-PCR that expression of c-Myc mRNA is upregulated by treating choriocarcinoma cells with vesnarinone. The finding suggests that vesnarinone might induce expression of c-Myc gene in choriocarcinoma cells, the product of which may be associated with the inhibition of cell growth and induce apoptosis. These results suggest that vesnarinone is a useful reagent for the treatment of choriocarcinoma.
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PMID:Induction of apoptosis in human choriocarcinoma cell lines by treatment with 3,4-dihydro-6-[4-(3,4-dimethoxybenzoyl)-1-piperazinyl]-2(1H)-quinolinone (vesnarinone). 1237 38

A cohort study was designed to evaluate the efficiency of gene transfer and whether biological activity from the expressed therapeutic gene resulted after administration of a recombinant adenovirus containing the human wild-type p53 (p53(wt)) gene (rAd-p53 SCH 58500). The cohort study was conducted in five trial subjects with recurrent ovarian cancer. Each trial subject received multiple cycles of rAd-p53 SCH 58500, each cycle comprised of doses of 7.5 x 10(13) particles on each of five consecutive days. Subjects were treated with rAd-p53 SCH 58500 alone during Cycle 1 and in combination with gemcitabine during the subsequent cycles. Both tumor biopsies and peritoneal aspirates were collected and evaluated for gene transfer and evidence of the biological activities of the expressed p53(wt) gene. Using quantitative PCR and RT-PCR, and in situ PCR, gene transfer and expression were documented in tumor biopsies (four of five patients) collected from Cycle 1. Furthermore, upregulation of p21/WAF1, bax and mdm-2, and downregulation of survivin were observed in these same tumor biopsy samples, suggesting that intraperitoneal administration of rAd-p53 SCH 58500 leads to detectable p53 biological activity in target tumor tissue. In addition, gene transfer and its expression were observed in cells obtained from peritoneal aspirates. These fluids were mainly comprised of polymorphonuclear neutrophils, indicating that successful gene transfer can be achieved by multiple cycle intraperitoneal administration of recombinant adenovirus.
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PMID:Assessment of p53 gene transfer and biological activities in a clinical study of adenovirus-p53 gene therapy for recurrent ovarian cancer. 1263 44

The major focus of intrahepatic arterial (IHA) administration of adenoviruses (Ad) has been on safety. Currently, there is little published data on the biological responses to Ad when administered via this route. As part of a Phase I study, we evaluated biological responses to a replication-defective adenovirus encoding the p53 transgene (SCH 58500) when administered by hepatic arterial infusion to patients with primarily colorectal cancer metastatic to the liver. In analyzing biological responses to the Ad vector, we found that both total and neutralizing Ad antibodies increased weeks after SCH 58500 infusion. The fold increase in antibody titers was not dependent on SCH 58500 dosage. The proinflammatory cytokine interleukin-6 (IL-6) transiently peaked within 6 h of dosing. The cytokine sTNF-R2 showed elevation by 24 h post-treatment, and fold increases were directly related to SCH 58500 doses. Cytokines TNF-alpha, IL-1beta, and sTNF-R1 showed no increased levels over 24 h. Predose antibody levels did not appear to predict transduction, nor did serum Ad neutralizing factor (SNF). Delivery of SCH 58500 to tumor tissue occurred, though we found distribution more predominantly in liver tissues, as opposed to tumors. RT-PCR showed significantly higher expression levels (P<0.0001, ANOVA) for adenovirus type 2 and 5 receptor (CAR) in liver tissues, suggesting a correlation with transduction. Evidence of tumor-specific apoptotic activity was provided by laser scanning cytometry, which determined a coincidence of elevated nuclear p53 protein expression with apoptosis in patient tissue. IHA administration of a replication defective adenovirus is a feasible mode of delivery, allowing for exogenous transfer of the p53 gene into target tissues, with evidence of functional p53. Limited and transient inflammatory responses to the drug occurred, but pre-existing immunity to Ad did not preclude SCH 58500 delivery.
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PMID:Biological activities of a recombinant adenovirus p53 (SCH 58500) administered by hepatic arterial infusion in a Phase 1 colorectal cancer trial. 1608 81

[Methoxy-11c]PD-153035; Afamelanotide, Agalsidase beta, Alemtuzumab, Alkaline phosphatase, Amlodipine, Anecortave acetate, Apixaban, Aripiprazole, Atomoxetine hydrochloride; Bevacizumab, Bortezomib, Bosentan, Botulinum toxin type B, Brimonidine tartrate/timolol maleate, Brivudine; Canakinumab, Cetuximab, Chlorotoxin, Cinaciguat; Dapagliflozin, Decitabine, Duloxetine hydrochloride; Elagolix sodium, Eplerenone, Eritoran tetrasodium, Escitalopram oxalate, Etoricoxib, Ezetimibe; Fospropofol disodium; G-207, Gabapentin enacarbil, Gefitinib, Golimumab; Human plasmin; Inotuzumab ozogamicin, Insulin glargine, Insulin glulisine, Istaroxime, Ixabepilone; KLH; Levodopa/carbidopa/entacapone; Miglustat, Mitumprotimut-T, MP-470; Oblimersen sodium, Olmesartan medoxomil; P53-SLP, PAN-811, Patupilone, Pazopanib hydrochloride, PC-515, Peginterferon alfa-2a, Pegylated arginine deiminase 20000, Pemetrexed disodium, Plitidepsin, Pregabalin; Rasagiline mesilate, Rotigotine; SCH-697243, Sirolimus-eluting stent, Sumatriptan succinate/naproxen sodium, Sunitinib malate; Tadalafil, Tapentadol hydrochloride, TMC-207; V-211, Valganciclovir hydrochloride; Zolpidem tartrate.
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PMID:Gateways to clinical trials. 1996 3

Gene therapy has promised to be a highly effective antitumor treatment by introducing a tumor suppressor gene or the abrogation of an oncogene. Among the potential therapeutic transgenes, the tumor suppressor gene p53 serves as an attractive target. Restoration of wild-type p53 function in tumors can be achieved by introduction of an intact complementary deoxyribonucleic acid copy of the p53 gene using a suitable viral vector, in most cases an adenoviral vector (Adp53). Preclinical in vitro and in vivo studies have shown that Adp53 triggers a dramatic tumor regression response in various cancers. These viruses are engineered to lack certain early proteins and are thus replication defective, including Gendicine, SCH-58500, and Advexin. Several types of tumor-specific p53-expressing conditionally replicating adenovirus vectors (known as replication-competent CRAdp53 vectors) have been developed, such as ONYX 015, AdDelta24-p53, SG600-p53, OBP-702, and H101. Various clinical trials have been conducted to investigate the safety and efficiency of these adenoviral vectors. In this review we will talk about the biological mechanisms, clinical utility, and therapeutic potentials of the replication-deficient Adp53-based and replication-competent CRAdp53-based gene therapy.
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PMID:Clinical utility of recombinant adenoviral human p53 gene therapy: current perspectives. 2536 61

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