Human Fhit (fragile histidine triad) protein, encoded by the FHIT putative tumor suppressor gene, is a typical dinucleoside 5',5"'-P1,P3-triphosphate (Ap3A) hydrolase (EC 3.6.1.29) on the basis of its enzymatic properties we report here. Ap3A is the preferred substrate among ApnA (n = 3-6), and AMP is always one of the reaction products. Mn2+ and Mg2+ are equally stimulatory, while Zn2+ is inhibitory with Ap3A as the substrate. Values of the K(m) for Ap3A and Ap4A are 1.3 and 4.6 microM, respectively. Values of the specificity constant, kcat/K(m), for Ap3A and Ap4A are 2.0 x 10(6) and 6.7 x 10(3) s-1 M-1, respectively, for a glutathione S-transferase (GST)-Fhit fusion protein. Site-directed mutagenesis of FHIT demonstrated that all four conserved histidines are required for full activity, and the central histidine of the triad is absolutely essential for Ap3A hydrolase activity. This putative tumor suppressor is the first evidence for a connection between dinucleotide oligophosphate metabolism and tumorigenesis. Also, Fhit is the first HIT protein in which the histidine residues have been demonstrated by mutagenesis to be critical for function.
The candidate tumor suppressor gene, FHIT, encompasses the common human chromosomal fragile site at 3p14.2, the hereditary renal cancer translocation breakpoint, and cancer cell homozygous deletions. Fhit hydrolyzes dinucleotide 5,5ٟ-P 1 ,P 3 -triphosphate in vitro and mutation of a central histidine abolishes hydrolase activity. To study Fhit function, wild-type and mutant FHIT genes were transfected into cancer cell lines that lacked endogenous Fhit. No consistent effect of exogenous Fhit on growth in culture was observed, but Fhit and hydrolase ''dead'' Fhit mutant proteins suppressed tumorigenicity in nude mice, indicating that 5,5ٟ-P 1 ,P 3 -triphosphate hydrolysis is not required for tumor suppression.The structure and expression of the FHIT gene encompassing the FRA3B common fragile site frequently are altered in primary or cultured esophageal, head and neck, lung, gastric, breast, and cervical carcinomas (1-8). Structural alterations tend to be because of deletion within both FHIT alleles, resulting in loss of exons and concomitant absence of full-length FHIT transcript and protein (ref. 6; for review, ref. 9). It has been argued that the FHIT gene may be altered in cancer cells simply because it encompasses the fragile region and is likely to be very susceptible to breakage (7). We agree that the locus is highly susceptible to carcinogen damage, explaining why deletion is much more frequent than point mutation in the gene, but we argue that loss of Fhit function provides a selective advantage for the tumor cell; otherwise, frequent expansion of the deleted FHIT clones in tumors and tumor-derived cell lines would be difficult to explain.Fhit-related proteins have been found in mammals and yeasts (1, 10, 11) and constitute a branch of the histidine triad (HIT) superfamily (12). The Fhit branch includes the Schizosaccharomyces pombe diadenosine tetraphosphate hydrolase [dinucleoside 5Ј,5ٞ-P 1 ,P 4 -tetraphosphate (Ap 4 A) hydrolase] (10) to which Fhit is similar. Barnes et al. (13) have shown that Fhit behaves in vitro as a typical dinucleoside 5Ј,5ٞ-P 1 ,P 3 -triphosphate (Ap 3 A) hydrolase (EC 3.6.1.29); site-directed mutagenesis of FHIT demonstrated that the conserved histidines are required for full activity, and the central histidine of the triad is essential for Ap 3 A hydrolase activity.To investigate mechanisms for a selective growth advantage of Fhit negative tumors, we have prepared vectors for expression of Fhit in cancer-derived cells and have examined the phenotypes of the Fhit-expressing clones relative to the Fhit negative parental cells. To determine if the in vitro enzymatic activity was associated with a role in tumor suppression, the hydrolase ''dead'' mutant gene, FHITH96N, with the central histidine codon of the HIT changed to an asparagine codon, also was expressed in Fhit negative cancer cells. MATERIALS AND METHODSCells. The MKN74 cell line (kindly provided by Eiichi Tahara, University of Hiroshima, Japan), was derived from a gastric carcinoma (14) and forms tumors rapidly ...
The histidine triad superfamily of nucleotide hydrolases and nucleotide transferases consists of a branch of proteins related to Hint and Aprataxin, a branch of Fhitrelated hydrolases, and a branch of galactose-1-phosphate uridylyltransferase (GalT)-related transferases. Although substrates of Fhit and GalT are known and consequences of mutations in Aprataxin, Fhit, and GalT are known, good substrates had not been reported for any member of the Hint branch, and mutational consequences were unknown for Hint orthologs, which are the most ancient and widespread proteins in the Hint branch and in the histidine triad superfamily. Here we show that rabbit and yeast Hint hydrolyze the natural product adenosine-5-monophosphoramidate (AMPNH 2 ) in an active-site-dependent manner at second order rates exceeding 1,000,000 M ؊1 s ؊1 . Yeast strains constructed with specific loss of the Hnt1 active site fail to grow on galactose at elevated temperatures. Loss of Hnt1 enzyme activity also leads to hypersensitivity to mutations in Ccl1, Tfb3, and Kin28, which constitute the TFIIK kinase subcomplex of general transcription factor TFIIH and to mutations in Cak1, which phosphorylates Kin28. The target of Hnt1 regulation in this pathway was shown to be downstream of Cak1 and not to affect stability of Kin28 monomers. Functional complementation of all Hnt1 phenotypes was provided by rabbit Hint, which is only 22% identical to yeast Hnt1 but has very similar adenosine monophosphoramidase activity. Histidine triad (HIT)1 proteins are a superfamily of nucleotide-binding proteins named for a near C-terminal HXHXHXX motif (X is a hydrophobic amino acid) positioned at the ␣-phosphate of nucleotide substrates (1). The first branch of the superfamily is named for rabbit Hint, which had been purified as an abundant protein from cardiac cytosol by adenosine affinity chromatography (2) and shown to have homologs in all forms of life (1). Recently, Aprataxin, a gene located at 9p13 that is inactivated in ataxia with oculomotor apraxia, the second most common of the autosomal recessive ataxias, was identified as a member of the Hint branch of the HIT superfamily (3, 4). Human Fhit (5), which functions as a tumor suppressor protein in human (6 -9) and murine (10, 11) epithelial tissues, is the prototypical member of the second branch of the HIT superfamily. Fhit homologs have been found in fungi (12) and animals (13-16) and exhibit diadenosine polyphosphate hydrolase activity. A third branch of the HIT superfamily contains more distantly related nucleotide transferases including galactose-1-phosphate uridylyltransferase, which is the enzyme deficient in galactosemics (1), budding yeast diadenosine tetraphosphate phosphorylases ApaI and Apa2 (17), and adenylylsulfate:phosphate adenylyltransferase (18). Ironically, although Hint is the most ancient and widespread of the HIT proteins, reasonable Hint substrates remained unidentified, and the consequences of mutations in Hint or Hint orthologs were unknown (19).Recently, human Hint was identified as...
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