We have synthesized a histone deacetylase inhibitor, NVP-LAQ824, a cinnamic hydroxamic acid, that inhibited in vitro enzymatic activities and transcriptionally activated the p21 promoter in reporter gene assays. NVP-LAQ824 selectively inhibited growth of cancer cell lines at submicromolar levels after 48 -72 h of exposure, whereas higher concentrations and longer exposure times were required to retard the growth of normal dermal human fibroblasts. Flow cytometry studies revealed that both tumor and normal cells arrested in the G 2 -M phase of the cell cycle after compound treatment. However, an increased sub-G 1 population at 48 h (reminiscent of apoptotic cells) was observed only in the cancer cell line. Annexin V staining data supported our hypothesis that NVP-LAQ824 induced apoptosis in tumor and transformed cells but not in normal cells. Western blotting experiments showed an increased histone H3 and H4 acetylation level in NVP-LAQ824-treated cancer cells, suggesting that the likely in vivo target of NVP-LAQ824 was histone deacetylase(s). Finally, NVP-LAQ824 exhibited antitumor effects in a xenograft animal model. Together, our data indicated that the activity of NVP-LAQ824 was consistent with its intended mechanism of action. This novel histone deacetylase inhibitor is currently in clinical trials as an anticancer agent.
Analyses were performed on livers and hepatocellular carcinomas from male Fischer 344 rats fed a choline-devoid diet, to assess whether they carried alterations of the p53 tumor suppressor gene. The analyses consisted of immunoperoxidase staining of tissue sections with monoclonal antibodies to p53, Western blotting and cDNA sequencing. Immunostaining revealed the presence of mutant p53 proteins in 22/27 tumors analyzed and immunoblotting in 18/20. Immunochemical evidence was obtained that occurrence of the mutations precedes tumor development. cDNA sequencing was performed on 11 hepatocellular carcinomas that expressed mutant p53 gene proteins. Seven were found to contain point mutations within the 120-290 codon region of the gene, and one a microdeletion in the same region. No mutational hot spot was observed. It is concluded that mutations within the p53 gene, along with a c-myc gene amplification previously detected in these tumors, most likely contribute to the neoplastic transformation of liver cells in this nutritional model of hepatocarcinogenesis. The results are discussed also in view of recent literature on the presence of p53 mutations in human hepatocellular carcinomas.
Several types of human and animal tumors have been shown to carry mutations in the p53 gene. While the translation product of the wild type gene has tumor suppressor properties, mutant alleles of the gene produce proteins that can cooperate with other oncogene products in transforming cells. In this paper, evidence is presented indicating that a p53 gene mutation(s) occurs in foci of enzyme-altered hepatocytes induced by diethylnitrosamine in male Fisher-344 rats. The evidence was obtained by means of immunohistochemical and immunoblotting techniques, using antibodies directed against mutant forms of the p53 protein.
Immunohistochemical, immunoblotting, and DNA-sequencing analyses were performed on hepatocellular carcinomas induced in rats chronically fed BR931, a peroxisome proliferator, to determine whether the tumors carried mutations or other alterations of the p53 gene. None were detected. Inactivation of this tumor suppressor gene does not appear, therefore, to be involved in the carcinogenicity of BR931, a nongenotoxic chemical hepatocarcinogen.
Summary Male F-344 rats were fed for 15 weeks a methyl-deficient L-amino acid defined diet containing 0.05% DL-ethionine. Nodules protruding from the surface of the liver were dissected free of surrounding tissue, and polyadenylated RNA isolated from the nodules was reverse transcribed. The region of the p53 gene comprising codons 120-290 was amplified by the polymerase chain reaction, and cDNAs were sequenced. Mutations were detected in nodules obtained from 7 of 12 rats. In all seven cases, the same two point mutations were present. The first was at the first base of codon 246 and consisted of a C-*T transition (C:G--T:A, Arg-*Cys), while the second was at the second base of codon 247 and consisted of a G-*T transversion (G:C->T:A, Arg->Leu). It is concluded that the hepatocarcinogen ethionine induces specific hot-spot p53 gene mutations; this is in contrast to the mutations at various sites previously observed to occur in rats fed a hepatocarcinogenic methyl-deficient diet alone. The results also provide the first evidence that ethionine is mutagenic in the rat.
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