General information | Literature | Expression | Regulation | Mutation | Interaction |
Basic Information |
|
---|---|
Gene ID | 2272 |
Name | FHIT |
Synonymous | AP3Aase|FRA3B;fragile histidine triad;FHIT;fragile histidine triad |
Definition | AP3A hydrolase|bis(5'-adenosyl)-triphosphatase|diadenosine 5',5'''-P1,P3-triphosphate hydrolase|dinucleosidetriphosphatase|tumor suppressor protein |
Position | 3p14.2 |
Gene type | protein-coding |
Title |
Abstract |
FRA3B and other common fragile sites: the weakest links. | In 1979, the first chromosome alteration associated with familial cancer was reported. Five years later, a fragile site was observed in the same chromosome region. The product of the fragile histidine triad (FHIT) gene, which encompasses this fragile site, is partially or entirely lost in most human cancers, indicating that it has a tumour-suppressor function. Inactivation of only one FHIT allele compromises this suppressor function, indicating that a one-hit mechanism of tumorigenesis is operative. Are genes disrupted at other fragile sites? And, are these genes also tumour suppressors?FAU - Huebner, K. |
[Effects of ectogenous FHIT gene on reversing malignant phenotype of human lung adenocarcinoma cells A549]. | OBJECTIVE: To explore the role of fragile histidine triad(FHIT) gene in the proliferation, apoptosis and tumorigenesis of human lung cancer cells. METHODS: FHIT gene packaged with lipofectin was transfected into the cells of a human lung adenocarcinoma cell line (A549), which stably expressed ectogenous FHIT gene. The FHIT mRNA and protein expression of A549-FHIT, A549-vector and A549 cell were detected by reverse transcription-PCR(RT-PCR), Western blot and immunocytochemical methods. The cell cycle pattern and apoptosis were assayed by using flow cytometry. RESULTS: After transfection of FHIT gene, cell growth was obviously inhibited (P<0.01). The apoptosis index of A549-FHIT (8.42%) was significantly higher than that of A549-vector (5.45%) and A549 cells (5.71%)(P<0.01). The clone-formation rate of A549-FHIT cell (21.84%) was significantly lower than that of A549-vector (28.70%) and A549 cells (31.68%, P<0.01). Compared with control cell lines, larger scale of A549-FHIT cells accumulated in G0/G1, presenting that the proportion of the cells in G0/G1 phase was obviously increased from 67.78 % to 82.35 %. Tumorigenicity of the A549 cells in nude mice was greatly inhibited by expression of ectogenous FHIT gene, the weight and volume of A549-FHIT(1.61 g/1.37 cm(3)) were significantly lower than that of A549-vector (2.45 g/1.99cm(3)) and A549 cells (2.77 g/2.27 cm(3))(P<0.05). CONCLUSION: expression of ectogenous FHIT gene can obviously inhibit the proliferation and tumorigenesis of A549 cells, and can induce A549 cells into programmed cell death. The result of this study suggests that FHIT gene may be a tumor suppressor gene in human lung cancer cells. |
Fragile histidine triad gene abnormalities in the pathogenesis of gallbladder carcinoma. | There is limited information about the molecular changes involved in the pathogenesis of gallbladder carcinoma (GBC). Our recent allelotyping analyses have indicated that chromosome 3p loss of heterozygosity (LOH), including the fragile histidine triad (FHIT) candidate tumor-suppressor gene locus at 3p14.2, is frequently detected in this neoplasm. To investigate the role of the FHIT abnormalities in the multistage sequential development of GBC, 33 formalin-fixed paraffin-embedded invasive GBC specimens and 76 accompanying histologically normal (n = 43) and dysplastic (n = 33) epithelia were examined by immunostaining for expression of Fhit protein. Allele loss at the FHIT gene locus (3p14.2) was studied in all GBCs and in a subset of accompanying gallbladder epithelia by polymerase chain reaction-based LOH analysis, using three 3p14.2 microsatellite markers. In addition, histologically normal epithelium from chronic cholecystitis (n = 19) and dysplasia (n = 13) from gallbladder specimens without cancer were examined for immunostaining and LOH. There was a progressive increase in both the frequency of loss of Fhit expression and LOH at FHIT with increasing severity of histopathological changes. FHIT abnormalities were occasionally demonstrated in histologically normal gallbladder epithelium. Dysplastic foci demonstrated frequent reduction or absence of Fhit immunostaining (38 to 55%) and FHIT allelic loss (33 to 46%). In invasive tumors, these abnormalities were even higher, with 79% reduction or absence of Fhit immunostaining and 76% FHIT allele loss. A high correlation (70%) was observed between Fhit immunostaining abnormalities and allele loss in GBC specimens (P < 0.05). Although a high frequency of FHIT locus breakpoints were detected in both invasive and dysplastic gallbladder specimens, no intronic homozygous deletions on FHIT were detected in GBCs. FHIT gene abnormalities are nearly universal in GBC and these changes are detected early in the sequential development of this neoplasm. Our findings indicate that the FHIT gene is one of the chromosome 3p putative tumor suppressor genes involved in the pathogenesis of this highly malignant neoplasm. |
Down-regulation of fragile histidine triad expression in prostate carcinoma. | BACKGROUND: The fragile histidine triad (FHIT) gene is a tumor suppressor gene that belongs to the histidine triad family of nucleoside binding proteins. The gene encompasses the common human chromosomal fragile site, the FRA3B locus at chromosome 3p14.2, and is expressed in most normal adult tissues and tumor cell lines. Numerous studies have indicated that the FHIT gene on chromosome 3p may play an important role in human neoplasia, although very few studies have investigated the FHIT gene in prostate carcinoma. METHODS: Using immunohistochemical analyses, the authors studied the expression of FHIT in prostate tumors from 84 radical prostatectomy specimens to determine whether there were any correlations between FHIT expression and various clinicopathologic characteristics. RESULTS: The percentages of cells stained with antibody to FHIT were significantly lower overall for tumor cells compared with normal cells (P = 0.0001). FHIT immunostaining intensity also was significantly lower for tumor cells compared with normal cells (P = 0.0001). A weak but statistically significant correlation (P = 0.045) was demonstrated with the presence of extraprostatic extension in the patient samples. No other significant correlation was seen between the percentage of cells stained for FHIT or FHIT immunostaining intensity and Gleason grade, tumor stage, tumor size, lymph node metastasis, surgical margins, vascular invasion, perineural invasion, or the presence of high-grade prostatic intraepithelial neoplasia. CONCLUSIONS: The data presented indicate a down-regulation of the FHIT tumor suppressor gene in prostate carcinoma and, thus, propose a potential target for therapeutic intervention. |
Allele loss and promoter hypermethylation of VHL, RAR-beta, RASSF1A, and FHIT tumor suppressor genes on chromosome 3p in esophageal squamous cell carcinoma. | Promoter hypermethylation is an alternative way to inactivate tumor suppressor genes in cancer. Alterations of chromosome 3p are frequently involved in many types of cancer, including esophageal squamous cell carcinoma. Here, we investigated the methylation status and loss of heterozygosity (LOH) of 3p tumor suppressor genes. We examined the promoter methylation status of von Hippel-Lindau disease (VHL), retinoic acid receptor beta (RAR-beta), RAS association domain family 1A (RASSF1A), and fragile histidine triad (FHIT) genes in 22 esophageal squamous cell carcinoma cell lines and 47 primary tumors and corresponding noncancerous tissues by a methylation-specific PCR. In addition, we analyzed 47 paired samples for LOH at eight loci on chromosome 3p. Hypermethylation in VHL, RAR-beta, RASSF1A, and FHIT was detected in 36, 73, 73, and 50% of tumor cell lines, respectively. In primary tumors, hypermethylation in VHL, RAR-beta, RASSF1A, and FHIT was detected in 13, 55, 51, and 45%, respectively. In corresponding noncancerous tissues, hypermethylation in RAR-beta and FHIT was frequently detected in 38 and 30%, respectively, whereas no VHL hypermethylation and only 4% of RASSF1A hypermethylation were detected. Furthermore, in clinical stages I and II, hypermethylation in RAR-beta (67%) and FHIT (78%) was frequently detected, whereas no VHL hypermethylation and 11% of RASSF1A hypermethylation were detected. On the other hand, the correlation between FHIT hypermethylation and LOH at FHIT region was statistically significant (P = 0.008). Our findings suggest that hypermethylation of the RAR-beta and FHIT may play an important role in the early stage of esophageal squamous cell carcinogenesis. In addition, FHIT may be inactivated in accordance with the two-hit inactivation model, involving deletion of one allele and hypermethylation of the other. |
Effect of FHIT gene replacement on growth, cell cycle and apoptosis in pancreatic cancer cells. | The human FHIT gene is altered or lost in many cancers and FHIT has been shown to be a tumor suppressor. However, the mechanism of tumor suppression by the FHIT gene remains unclear. FHIT expression is lost in primary pancreatic cancer and human pancreatic cancer cell lines. To gain insight into the function of FHIT gene, we replaced the FHIT gene in a FHIT-null pancreatic cancer cell line, and established stable fhit-expressing clones. expression of the exogenous fhit was at similar levels as in other cultured cell lines and fhit protein was found predominantly associated with perinuclear area. fhit replacement resulted in reduced cell proliferation in transfected Panc-1 cells. Cell cycle distribution analysis indicated increased accumulation of G(0)/G(1) phase cells in transfected clones indicating a retardation of cell cycle progression. We observed specific up-regulation of cdc2 and cyclin D3 upon fhit replacement. Furthermore, Bcl-2 family members Bad, Bak, and Bcl-xS protein levels were increased in FHIT transfected clones when compared with Panc-1 cells. Multiplex RT-PCR of apoptosis pathway related genes revealed that Bcl-2 is absent and Bcl- xS message increases in FHIT transfected clones. Our data suggested that exogenous expression of FHIT in Panc-1 cells affects genes regulating cell cycle arrest and apoptosis, and these molecular changes may contribute to the tumor suppressor activity of the FHIT gene. |
Ubc9-induced inhibition of diadenosine triphosphate hydrolase activity of the putative tumor suppressor protein Fhit. | Fhit protein is the product of the putative tumor suppressor fragile histidine triad (FHIT) gene. The way by which Fhit exerts its antitumor activity remains largely unknown, although the Fhit-Ap3A complex is believed to be the native signaling form of Fhit. Here, we have shown that Fhit protein interacts with hUbc9, a recombinant human SUMO-1 conjugating enzyme, in an adenosine(5)triphospho(5)nucleoside (Ap3N)-dependent manner. Our experiments showed that the dinucleoside polyphosphate hydrolase activity of Fhit is suppressed by interacting with hUbc9 protein. In the presence of equimolar hUbc9 the Vmax and Km activity of Fhit was decreased by 35%. Analysis of Fhit kinetics in the presence of different fixed concentrations of Ubc9 showed that Ubc9 is an uncompetitive inhibitor. Including SUMO-1 protein in the assay neither affected the Fhit activity nor modified the effect of Ubc9 on Fhit kinetics. Our data suggest that hUbc9-induced inhibition of Fhit may result in an elongation of the Fhit-Ap3A signaling complex lifetime leading to alteration of its antitumor activity. |
Phosphorylation of the human Fhit tumor suppressor on tyrosine 114 in Escherichia coli and unexpected steady state kinetics of the phosphorylated forms. | The human tumor suppressor Fhit is a homodimeric histidine triad (HIT) protein of 147 amino acids which has Ap(3)A hydrolase activity. We have recently discovered that Fhit is phosphorylated in vivo and is phosphorylated in vitro by Src kinase [Pekarsky, Y., Garrison, P. N., Palamarchuk, A., Zanesi, N., Aqeilan, R. I., Huebner, K., Barnes, L. D., and Croce, C. M. (2004) Proc. Natl. Acad. Sci. U.S.A. 101, 3775-3779]. Now we have coexpressed Fhit with the elk tyrosine kinase in Escherichia coli to generate phosphorylated forms of Fhit. Unphosphorylated Fhit, Fhit phosphorylated on one subunit, and Fhit phosphorylated on both subunits were purified to apparent homogeneity by column chromatography on anion-exchange and gel filtration resins. MALDI-TOF and HPLC-ESI tandem mass spectrometry of intact Fhit and proteolytic peptides of Fhit demonstrated that Fhit is phosphorylated on Y(114) on either one or both subunits. Monophosphorylated Fhit exhibited monophasic kinetics with K(m) and k(cat) values approximately 2- and approximately 7-fold lower, respectively, than the corresponding values for unphosphorylated Fhit. Diphosphorylated Fhit exhibited biphasic kinetics. One site had K(m) and k(cat) values approximately 2- and approximately 140-fold lower, respectively, than the corresponding values for unphosphorylated Fhit. The second site had a K(m) approximately 60-fold higher and a k(cat) approximately 6-fold lower than the corresponding values for unphosphorylated Fhit. The unexpected kinetic patterns for the phosphorylated forms suggest the system may be enzymologically novel. The decreases in the values of K(m) and k(cat) for the phosphorylated forms in comparison to those of unphosphorylated Fhit favor the formation and lifetime of the Fhit-Ap(3)A complex, which may enhance the tumor suppressor activity of Fhit. |
Expression and methylation status of the FHIT gene in acute myeloid leukemia and myelodysplastic syndrome. | To clarify the role of fragile histidine triad (FHIT) in hematological malignancies, we examined the methylation status and the expression level of the FHIT gene in myelodysplastic syndrome (MDS) and acute myeloid leukemia (AML) cells in comparison with the methylation of the p15(INK4B) gene. The FHIT methylation was found in 13 of 94 (13.8%) AML and 22 of 40 (55.0%) MDS cases, but not in normal mononuclear cells (MNCs). Both the frequency and density of methylation increased in the advanced-stages MDS and the relapsed AML cases. Although FHIT and p15(INK4B) methylations were not correlated in MDS and AML, increased FHIT methylation at the relapse in AML was associated with p15(INK4B) methylation. The median expression level in AML was significantly higher than in normal MNCs, although the median expression level in those with methylation was significantly lower than in those without methylation. Furthermore, the methylation level at relapse was significantly higher than at diagnosis in AML. These results suggested that FHIT methylation was accumulated through the disease progression of MDS and AML, and the role of the FHIT gene as a tumor suppressor seemed different in AML and MDS. |
The fragile histidine triad gene: a molecular link between cigarette smoking and cervical cancer. | PURPOSE: Smoking is an epidemiologic risk factor for cervical cancer. The fragile histidine triad (FHIT) gene is a tumor suppressor gene that is altered in 80% of tobacco-associated lung cancers. We hypothesized that reduced FHIT protein expression, homozygous deletions (HD) or hemizygous deletions (HemiD) and microsatellite alterations (MA) at the FHIT/FRA3B locus occur more commonly in cervical cancers of smokers than nonsmokers. EXPERIMENTAL DESIGN: Archival tissues of 58 patients with stage IA1 to IB2 squamous cell carcinoma of the cervix were identified. FHIT protein expression was studied with immunohistochemistry. Laser capture microdissection was used to isolate tumor and normal DNA. HD/HemiD of FHIT exons 4 and 5 were analyzed by monoplex real-time PCR. MA at FHIT/FRA3B were studied with multiplex nested PCR with three fluorescently labeled microsatellite markers (D3S1300, D3S1312, and D3S1480). RESULTS: Eighteen of 26 tumors from smokers (69%) and 13 of 32 nonsmokers (41%; P < 0.05) showed loss of FHIT protein expression. Thirty-seven stage IB tumors yielded sufficient DNA for analyses. HD or HemiD of both exons tested occurred in 8 of 17 smokers (47%) and 2 of 20 nonsmokers (10%; P < 0.05). MA at more than two sites were found in 11 of 17 tumors of smokers (65%) and 6 of 20 nonsmokers (30%; P < 0.05). Mean composite genomic FHIT alteration scores were significantly higher for tumors of smokers versus nonsmokers (0.67 versus 0.40; P < 0.02). CONCLUSION: Loss of FHIT expression, HD, HemiD, and MA at the FHIT/FRA3B locus occur significantly more commonly in cervical cancers of smokers. These findings suggest that the tumor suppressor gene FHIT may represent a molecular target in cigarette smoking-associated cervical carcinogenesis. |
Promoter methylation profile in gallbladder cancer. | BACKGROUND: Methylation in the promoter region of genes is an important mechanism of inactivation of tumor suppressor genes. Our objective was to analyze the methylation pattern of some of the genes involved in carcinogenesis of the gallbladder, examining the immunohistochemical expression of proteins, clinical features, and patient survival time. METHODS: Twenty cases of gallbladder cancer were selected from the frozen tumor bank. The DNA extracted was analyzed by means of a methylation-specific polymerase chain reaction test for the CDKN2A (p16), MLH1, APC, FHIT, and CDH1 (E-cadherin) genes. Morphological and clinical data and follow-up information were obtained. RESULTS: All cases were in an advanced stage: histologically moderate or poorly differentiated tumors (95%). Methylation of the promoter area of genes was observed in 5%, 20%, 30%, 40%, and 65% of cases, and an altered immunohistochemical pattern (AIP) in 5%, 35%, 21%, 25%, and 66% for the MLH1, CDKN2A, FHIT, APC, and CDH1 genes, respectively. The Kappa concordance index between methylation of the promoter area and AIP for the MLH1 and CDH1 genes was very high (K > 0.75) and substantial for APC (K > 0.45). No correlation was found between survival time and the methylation of the genes studied. CONCLUSIONS: The high frequency of gene methylation (with the exception of MLH1) and the high agreement between AIP and methylation of the gene promoter area for the MLH1, APC, and CDH1 genes suggest that the inactivation of tumor suppressor genes and of the genes related to the control of cellular proliferation through this mechanism is involved in gallbladder carcinogenesis. |
Biological functions of mammalian Nit1, the counterpart of the invertebrate NitFhit Rosetta stone protein, a possible tumor suppressor. | The "Rosetta Stone" hypothesis proposes that the existence of a fusion protein in some organisms predicts that the separate polypeptides function in the same biochemical pathway in other organisms and may physically interact. In Drosophila melanogaster and Caenorhabditis elegans, NitFhit protein is composed of two domains, a fragile histidine triad homolog and a bacterial and plant nitrilase homolog. We assessed the biological effects of mammalian Nit1 expression in comparison with Fhit and observed that: 1) Nit1 expression was observed in most normal tissues and overlapped partially with Fhit expression; 2) Nit1-deficient mouse kidney cells exhibited accelerated proliferation, resistance to DNA damage stress, and increased cyclin D1 expression; 3) cyclin D1 was up-regulated in Nit1 null mammary gland and skin; 4) Nit1 overexpression induced caspase-dependent apoptosis in vitro; and 5) Nit1 allele deficiency led to increased incidence of N-nitrosomethylbenzylamine-induced murine forestomach tumors. Thus, the biological effects of Nit1 expression are similar to Fhit effects. Adenoviruses carrying recombinant NIT1 and FHIT induced apoptosis in Fhit- and Nit1-deficient cells, respectively, suggesting that Nit1-Fhit interaction is not essential for function of either protein. The results suggest that Nit1 and Fhit share tumor suppressor signaling pathways, while localization of the NIT1 gene at a stable, rather than fragile, chromosome site explains the paucity of gene alterations and in frequent loss of expression of the NIT1 gene in human malignancies. |
Tumor suppressor Fhit protein interacts with protoporphyrin IX in vitro and enhances the response of HeLa cells to photodynamic therapy. | Fhit, the product of tumor suppressor fragile histidine triad (FHIT) gene, exhibits antitumor activity of still largely unknown cellular background. However, it is believed that Fhit-Ap(3)A or Fhit-AMP complex might act as a second class messenger in cellular signal transduction pathway involved in cell proliferation and apoptosis. We demonstrate here for the first time that the photosensitizer, protoporphyrin IX (which is a natural precursor of heme) binds to Fhit protein and its mutants in the active site in vitro. Furthermore, PpIX inhibits the enzymatic activity of Fhit. Simultaneously, PpIX shows lower binding capacity to mutant Fhit-H96N of highly reduced hydrolase activity. In cell-based assay PpIX induced HeLa cell death in Fhit and Fhit-H96N-dependent manner which was measured by means of MTT assay. Moreover, HeLa cells stably expressing Fhit or mutant Fhit-H96N were more susceptible to protoporphyrin IX-mediated photodynamic therapy (2J/cm(2)) than parental cells. |
Induction of apoptosis by tumor suppressor FHIT via death receptor signaling pathway in human lung cancer cells. | FHIT is a novel tumor suppressor gene located at human chromosome 3p14.2. Restoration of wild-type FHIT in 3p14.2-deficient human lung cancer cells inhibits cell growth and induces apoptosis. In this study, we analyzed potential upstream/downstream molecular targets of the FHIT protein and found that FHIT specifically targeted and regulated death receptor (DR) genes in human non-small-cell lung cancer (NSCLC) cells. Exogenous expression of FHIT by a recombinant adenoviral vector (Ad)-mediated gene transfer upregulated expression of DR genes. Treatment with a recombinant TRAIL protein, a DR-specific ligand, in Ad-FHIT-transduced NSCLC cells considerably enhanced FHIT-induced apoptosis, further demonstrating the involvement of DRs in FHIT-induced apoptosis. Moreover, we also found that FHIT targeted downstream of the DR-mediated signaling pathway. FHIT overexpression disrupted mitochondrial membrane integrity and activated multiple pro-apoptotic proteins in NSCLC cell. These results suggest that FHIT induces apoptosis through a sequential activation of DR-mediated pro-apoptotic signaling pathways in human NSCLC cells. |
FHIT oncosuppressor gene expression profile in human anal cancers. | The FHIT gene, a member of the histidine triad gene family, is a tumor suppressor gene exhibiting deletions in the majority of human cancers. Aberrant transcripts of this gene have been found in about 50% of esophageal, stomach and colon carcinomas. Little is known about the molecular mechanisms involved in malignant transformation of the lining cells of the anus. In this study FHIT gene expression was investigated in this particular kind of human cancer. FHIT expression was comparatively analyzed at the mRNA level, by RT-PCR, in squamous anal cancers, normal anal tissue and peripheral blood samples. cDNA analyses showed variability in FHIT transcripts, without apparent effects on the predicted amino acid sequence. These different FHIT mRNAs could represent transcripts from an alternative splicing event. Our data indicate that the FHIT mRNA detected in anal cancers and in normal samples is heterogeneous. Immunohistochemical data suggest that the Fhit protein is expressed only in a fraction of the tumor cells, while it is strongly expressed in the epithelial cells of glands of the normal anal mucosa. The absence or poor expression of the Fhit protein in anal cancers suggests a role for this tumor suppressor gene product, as a risk factor, in the onset of this human cancer, as reported before for other human gastrointestinal tumors. |
Hypermethylation and loss of heterozygosity of tumor suppressor genes on chromosome 3p in cervical cancer. | We examined the promoter methylation status and LOH of the chromosome 3p genes, von Hippel-Lindau disease (VHL), retinoic acid receptor beta (RAR-beta), RAS association domain family 1A (RASSF1A), and fragile histidine triad (FHIT), in 37 samples of cervical squamous cell carcinoma and corresponding noncancerous tissues. We also analyzed the expression of RAR-beta protein by immunohistochemistry. Promoter hypermethylation in RAR-beta and FHIT was detected in 41% and 24% of tumors, respectively, whereas, no hypermethylation was detected in the corresponding noncancerous tissues. LOH in the regions of VHL, RAR-beta, RASSF1A, and FHIT was observed in 3%, 30%, 22%, and 10% of informative cases, respectively. There were no correlations between LOH and promoter hypermethylation for all of these genes. Absent immunostaining of RAR-beta protein correlated with hypermethylation and/or LOH of RAR-beta gene. In addition, it correlated with higher level of SCC antigen and more frequent lymph node metastasis. Although biallelic inactivation by hypermethylation and concomitant LOH was infrequent, the high frequency of promoter hypermethylation and/or LOH of RAR-beta and FHIT suggest that they play a role in cervical carcinogenesis independently. In addition, expression of RAR-beta protein might be used as a prognostic factor in this disease. |
The tumor suppressor Fhit acts as a repressor of beta-catenin transcriptional activity. | The Fra3B locus on chromosome 3p14.2 targeting the fragile histidine triad (Fhit) gene represents one of the most common fragile sites of the human genome and is associated with early preneoplastic and malignant disorders in multiple human tumors. Fhit was classified as a tumor suppressor; however, the molecular mechanisms of its function are not well established. Here, we report that Fhit associates with the lymphoid enhancer-binding factor 1/T cell factor/beta-catenin complex by directly binding to beta-catenin, a major player in the canonical Wnt pathway that is deregulated in numerous forms of human cancer. In binding to the beta-catenin C-terminal domain, Fhit represses transcription of target genes such as cyclin D1, axin2, MMP-14, and survivin. Knockdown of Fhit reversed this effect, whereas this reversal was not detectable when beta-catenin was knocked down simultaneously. The Fhit enzymatic activity as a diadenosine-polyphosphate hydrolase is not required for the down-regulation of beta-catenin-mediated transcription as examined with an enzymatic inactive Fhit-H96N protein. ChIPs revealed recruitment of Fhit/beta-catenin complexes to target gene promoters. In soft agar assays Fhit and beta-catenin are involved in regulation of anchorage-independent growth. These observations assign to the tumor suppressor Fhit an unexpected role in the regulation of beta-catenin-mediated gene transcription. |
Correlation of fragile histidine triad (Fhit) protein structural features with effector interactions and biological functions. | We have previously shown that Fhit tumor suppressor protein interacts with Hsp60 chaperone machinery and ferredoxin reductase (Fdxr) protein. Fhit-effector interactions are associated with a Fhit-dependent increase in Fdxr stability, followed by generation of reactive oxygen species and apoptosis induction under conditions of oxidative stress. To define Fhit structural features that affect interactions, downstream signaling, and biological outcomes, we used cancer cells expressing Fhit mutants with amino acid substitutions that alter enzymatic activity, enzyme substrate binding, or phosphorylation at tyrosine 114. Gastric cancer cell clones stably expressing mutants that do not bind substrate or cannot be phosphorylated showed decreased binding to Hsp60 and Fdxr and reduced mitochondrial localization. expression of Fhit or mutants that bind interactor proteins results in oxidative damage and accumulation of cells in G(2)/M or sub-G(1) fractions after peroxide treatment; noninteracting mutants are defective in these biological effects. Gastric cancer clones expressing noncomplexing Fhit mutants show reduction of Fhit tumor suppressor activity, confirming that substrate binding, interaction with heat shock proteins, mitochondrial localization, and interaction with Fdxr are important for Fhit tumor suppressor function. |
Aberration of the enzymatic activity of Fhit tumor suppressor protein enhances cancer cell death upon photodynamic therapy similarly to that driven by wild-type Fhit. | The tumor suppressor Fhit protein lost in many human pre-malignant tissues, possesses diadenosine triphosphate activity regulated by a photosensitizer, protoporphyrin IX (PpIX) in vitro. Interestingly, when exogenously restored, the protein suppresses the growth of human cervical carcinoma HeLa cells which is further enhanced by PpIX. Additionally, Fhit production enhances the overall response of cells to PpIX-mediated photodynamic reaction. In the present study, we have estimated, for the first time, the biological activity of two Fhit mutated forms exhibiting aberrant Ap(3)A hydrolase activity in vitro which emphasizes the recent findings that hydrolysis of Ap(3)A is not necessary for Fhit tumor suppression function. Using several biophysical methods we revealed the dynamic nature of mutant Fhit-PpIX complexes in vitro which support our previous hypothesis that Fhit-Ap(3)A-PpIX might be a signaling molecule driving apoptosis in cancer cells. Moreover, according to our findings, substitution at histidine94 in Fhit active site induces the vulnerability of HeLa cells to PpIX-PDT in a similar manner to that caused by wild-type Fhit protein. These results support the view that inhibition of Fhit hydrolase activity might be a crucial element in a Fhit-driven cancer cells death. |
Nit1 and Fhit tumor suppressor activities are additive. | The fragile histidine triad gene (human FHIT, mouse Fhit) has been shown to act as a tumor suppressor gene. Nit1 and Fhit form a fusion protein, encoded by the NitFhit gene in flies and worms, suggesting that mammalian Nit1 and Fhit proteins, which are encoded by genes on different chromosomes in mammals, may function in the same signal pathway(s). A previous study showed that Nit1 deficiency in knockout mice confers a cancer prone phenotype, as does Fhit deficiency. We have now assessed the tumor susceptibility of Fhit(-/-)Nit1(-/-) mice and observed that double knockout mice develop more spontaneous and carcinogen-induced tumors than Fhit(-/-) mice, suggesting that the extent of tumor susceptibility due to Nit1 and Fhit deficiency is additive, and that Nit1 and Fhit affect distinct signal pathways in mammals. Nit1, like Fhit, is present in cytoplasm and mitochondria but not nuclei. Because Fhit deficiency affects responses to replicative and oxidative stress, we sought evidence for Nit1 function in response to such stresses in tissues and cultured cells: when treated with hydroxyurea, the normal kidney-derived double-deficient cells appear not to activate the pChk2 pathway and when treated with H(2)O(2), show little evidence of DNA damage, compared with wild type and Fhit(-/-) cells. The relevance of Nit1 deficiency to human cancers was examined in human esophageal cancer tissues, and loss of Nit1 expression was observed in 48% of esophageal adenocarcinomas. |
Helicobacter pylori infection and family history of gastric cancer decrease expression of FHIT tumor suppressor gene in gastric mucosa of dyspeptic patients. | BACKGROUND: The expression of a fragile histidine triad (FHIT) protein is lost in stomach tumors. The study aimed at determining whether FHIT expression is affected by Helicobacter pylori infection, strain virulence (vacA and cagA genes) and histopathological changes in the gastric mucosa of patients with functional dyspepsia having first-degree relatives with gastric cancer. MATERIALS AND METHODS: Eighty-eight never-smoking patients with functional dyspepsia were selected for the study, and 48 of them had first-degree relatives with gastric cancer. Bacterial DNA amplification was used to identify H. pylori colonization. The level of FHIT gene expression was determined by qRT-PCR (mRNA) and Western blot (FHIT protein) analyses. RESULTS: For patients having first-degree relatives with gastric cancer FHIT expression was lower (mRNA by ca. 40-45% and protein by 30%) compared with the control patients (p < .05). H. pylori infection decreased the FHIT mRNA level by 10-35% and the protein level by 10-20%. Bacterial strain vacA(+)cagA(+) lowered FHIT mRNA by ca. 30-35% in the antrum samples of both groups and in corpus samples of patients with first-degree relatives with gastric cancer (p < .05). The FHIT mRNA level was twice as high in control H. pylori-negative patients with intestinal metaplasia, compared with those with non-atrophic gastritis. CONCLUSIONS: The decreased FHIT gene expression associated with hereditary factors and with H. pylori infection, especially with vacA(+)cagA(+)-positive strains, may be related to gastric carcinoma development. |
Aberrant methylation of tumor suppressor genes in patients with refractory anemia with ring sideroblasts. | This study evaluates the incidence and prognostic impact of aberrant methylation of 25 tumor suppressor genes in 40 patients with RARS, a MDS subtype, by methylation-specific multiplex ligation-dependent probe amplification (MS-MLPA) assay. Methylation of at least one gene was detected in 18 patients (45%). The genes methylated were CDKN2B (20%), RASSF1 (18%), RARB (10%), CDH13 (7.5%) and FHIT (5%). Patients with at least one methylated gene had a significantly shorter OS than patients without methylated genes. Aberrant methylation is a frequent event in patients with RARS as in patients with high-risk MDS appears to confer a worse prognosis. |
Effect of zinc supplementation on N-nitrosomethylbenzylamine-induced forestomach tumor development and progression in tumor suppressor-deficient mouse strains. | Zinc deficiency is associated with high incidences of esophageal and other cancers in humans and leads to a highly proliferative hyperplastic condition in the upper gastrointestinal tract in laboratory rodents. Zn replenishment reduces the incidence of lingual, esophageal and forestomach tumors in Zn-deficient rats and mice. While previous animal studies focused on Zn deficiency, we have investigated the effect of Zn supplementation on carcinogenesis in Zn-sufficient mice of wild-type and tumor suppressor-deficient mouse strains. All mice received N-nitrosomethylbenzylamine and half the mice of each strain then received Zn supplementation. At killing, mice without Zn supplementation had developed more tumors than Zn-supplemented mice: wild-type C57BL/6 mice developed an average of 7.0 versus 5.0 tumors for Zn supplemented (P < 0.05); Zn-supplemented Fhit-/- mice averaged 5.7 versus 8.0 for control mice (P < 0.01); Zn-supplemented Fhit-/-Nit1-/- mice averaged 5.4 versus 9.2 for control mice (P < 0.01) and Zn-supplemented Fhit-/-Rassf1a-/- (the murine gene) mice averaged 5.9 versus 9.1 for control mice (P < 0.01). Zn supplementation reduced tumor burdens by 28% (wild-type) to 42% (Fhit-/-Nit1-/-). Histological analysis of forestomach tissues also showed significant decreases in severity of preneoplastic and neoplastic lesions in Zn-supplemented cohorts of each mouse strain. Thus, Zn supplementation significantly reduced tumor burdens in mice with multiple tumor suppressor deficiencies. When Zn supplementation was begun at 7 weeks after the final carcinogen dose, the reduction in tumor burden was the same as observed when supplementation began immediately after carcinogen dosing, suggesting that Zn supplementation may affect tumor progression rather than tumor initiation. |
Tumor suppressor genes FHIT and WWOX are deleted in primary effusion lymphoma (PEL) cell lines. | Primary effusion lymphoma (PEL) is a diffuse-large B-cell lymphoma with poor prognosis. One hundred percent of PELs carry the genome of Kaposi sarcoma-associated herpesvirus and a majority are coinfected with Epstein-Barr virus (EBV). We profiled genomic aberrations in PEL cells using the Affymetrix 6.0 SNP array. This identified for the first time individual genes that are altered in PEL cells. Eleven of 13 samples (85%) were deleted for the fragile site tumor suppressors WWOX and FHIT. Alterations were also observed in the DERL1, ETV1, RASA4, TPK1, TRIM56, and VPS41 genes, which are yet to be characterized for their roles in cancer. Coinfection with EBV was associated with significantly fewer gross genomic aberrations, and PEL could be segregated into EBV-positive and EBV-negative clusters on the basis of host chromosome alterations. This suggests a model in which both host genetic aberrations and the 2 viruses contribute to the PEL phenotype. |
Potential gastrointestinal tumor suppressor locus at the 3p14.2 FRA3B site identified by homozygous deletions in tumor cell lines. | A number of DNA fragments, identified by representational difference analysis, which were homozygously deleted in various cancer cell lines were previously mapped to human chromosomal arms. One of these, BE758-6, which was homozygously deleted in a number of colon carcinoma cell lines, had been mapped to chromosome region 3p. We have further localized the probe to 3p14.2, approximately 350kbp telomeric to the 3p14.2 break of the t(3;8) hereditary renal cell carcinoma chromosome translocation, within or near the 3p14.2 FRA3B, the most common human fragile site. We determined the sizes of the homozygous deletions in a number of cancer cell lines after isolation of a yeast artificial chromosome contig and development of STS markers which fall between D3S1234 and D2S1481, which flank the deletions. Homozygous deletions were observed and sized not only in the cell lines originally reported but also in a number of nasopharyngeal carcinoma cell lines and a gastric carcinoma cell line. About 50% of uncultured stomach and colon carcinomas were then shown to lose heterozygosity for alleles in the same region, with a common region of loss between the D3S1234 and D3S1481 markers. Thus, it is likely that the homozygous deletion observed in these cancer cell lines harbors an important tumor suppressor gene for several tumor types. |
MAD analysis of FHIT, a putative human tumor suppressor from the HIT protein family. | BACKGROUND: The fragile histidine triad (FHIT) protein is a member of the large and ubiquitous histidine triad (HIT) family of proteins. It is expressed from a gene located at a fragile site on human chromosome 3, which is commonly disrupted in association with certain cancers. On the basis of the genetic evidence, it has been postulated that the FHIT protein may function as a tumor suppressor, implying a role for the FHIT protein in carcinogenesis. The FHIT protein has dinucleoside polyphosphate hydrolase activity in vitro, thus suggesting that its role in vivo may involve the hydrolysis of a phosphoanhydride bond. The structural analysis of FHIT will identify critical residues involved in substrate binding and catalysis, and will provide insights into the in vivo function of HIT proteins. RESULTS: The three-dimensional crystal structures of free and nucleoside complexed FHIT have been determined from multiwavelength anomalous diffraction (MAD) data, and they represent some of the first successful structures to be measured with undulator radiation at the Advanced Photon Source. The structures of FHIT reveal that this protein exists as an intimate homodimer, which is based on a core structure observed previously in another human HIT homolog, protein kinase C interacting protein (PKCI), but has distinctive elaborations at both the N and C termini. Conserved residues within the HIT family, which are involved in the interactions of the proteins with nucleoside and phosphate groups, appear to be relevant for the catalytic activity of this protein. CONCLUSIONS: The structure of FHIT, a divergent HIT protein family member, in complex with a nucleotide analog suggests a metal-independent catalytic mechanism for the HIT family of proteins. A structural comparison of FHIT with PKCI and galactose-1-phosphate uridylyltransferase (GaIT) reveals additional implications for the structural and functional evolution of the ubiquitous HIT family of proteins. |