Effect of hydrogen peroxide on antioxidant enzymes and metallothionein level in the digestive gland of Mytilus galloprovincialis. cavalett@unipmn.it.

The pro-oxidant effect of H2O2 at a concentration of 20 microM was examined in the digestive gland of Mytilus galloprovincialis, a bivalve mollusc frequently used in biomonitoring programs. The oxidative stress caused by H2O2 has been evaluated in terms of lipid peroxidation and lysosomal system alteration. Complex cellular antioxidant defence mechanisms of the mussel were investigated at the enzymatic and non-enzymatic level in order to explain their relative role in reducing the risk of oxidative injury. Metallothionein, glutathione, superoxide dismutase, catalase and glutathione peroxidase were assayed after 1, 4 and 7 days of exposure to H2O2. The metallothionein content showed an increase by 43% after 4 days of exposure, followed by a decrease back to control values at 7 days. Antioxidant enzyme activities followed a similar pattern with a moderate increase after 1 or 4 days of treatment and a return to control values at 7 days. All data indicate a 'transient' oxidative stress response, after which mussel cells restore the redox balance.

Antioxidant role of metallothioneins: a comparative overview.

Metallothioneins (MTs) are sulfhydryl-rich proteins binding essential and non-essential heavy metals. MTs display in vitro oxyradical scavenging capacity, suggesting that they may specifically neutralize hydroxyl radicals. Yet, this is probably an oversimplified view, as MTs represent a superfamily of widely differentiated metalloproteins. MT antioxidant properties mainly derive from sulfhydryl nucleophilicity, but also from metal complexation. Binding of transition metals displaying Fenton reactivity (Fe,Cu) can reduce oxidative stress, whereas their release exacerbates it. In vertebrates, MT gene promoters contain metal (MRE) and glucocorticoid response elements (GRE), Sp and AP sequences, but also antioxidant response elements (ARE). MT neosynthesis is induced by heavy metals, cytokines, hormones, but also by different oxidants and prooxidants. Accordingly, MT overexpression increases the resistance of tissues and cells to oxidative stress. As for invertebrates, data from the mussel show that MT can actually protect against oxidative stress, but is poorly inducible by oxidants. In yeast, there is a Cu(I)-MT that in contrast to mammalCu-MT exhibits antioxidant activity, possibly due to differences in metal binding domains. Finally, as the relevance of redox processes in cell signaling is becoming more and more evident, a search for MT effects on redox signaling could represent a turning point in the understanding of the functional role of these protein.

Two novel PAH gene mutations detected in Italian phenylketonuric patients.

We report the identification by denaturing gradient gel electrophoresis and sequence analysis of two new phenylalanine hydroxylase (PAH) gene mutations (IVS4nt-2 and N207S) in single chromosomes of two unrelated Italian phenylketonuric (PKU) patients. Interestingly, mutation Y204C, found on the second mutant allele of family F1, has been previously detected in Chinese patients. Haplotype analysis showed that the latter mutation is linked to the same haplotype (H4) in both Chinese and Italian patients, suggesting a common origin. In vivo assessment of mutation severity indicates that N207S is associated with classic PKU. The identification of these two new mutations further extends the remarkable heterogeneity of the PAH locus in the Italian population.

Human type I cytokeratin genes are a compact cluster.

A YAC clone (211F11) containing approximately 0.5 Mb of human DNA was isolated from a human genomic library by PCR-based screening with cytokeratin (KRT) 13-specific primers. The YAC clone was mapped by FISH to the long arm of chromosome 17 (17q12-->q21), a region to which several other type I KRT genes had been mapped previously. We now show by Southern blot hybridization and PFGE analyses that KRT13, 14, 15, and 16 are all contained within YAC clone 211F11. Long-range restriction mapping analysis of clone 211F11 and of two smaller YAC clones that were also isolated with KRT13-specific primers, suggests that KRT13, 14, 15, 16 and their linked type I genes KRT17 and 19, are contained in less than 150 kb of genomic DNA. According to our reconstruction it then appears that at least six type I KRT genes are arranged in a highly compact cluster. The three YACs reported in this study represent a new tool to dissect the molecular structure of the locus of the human type I KRT genes.

RFLP discordance in a PKU family due to a deletion in the PAH gene.

We have previously reported preliminary data on a PKU family showing a discordant segregation of Pvu II (b) alleles at the PAH locus. A combination of several restriction enzymes and probe C2.6 (Intron 2) as well as STR typing were used to dissect the molecular structure of the PAH gene around exon 3. In this family, the results of this analysis and a re-examination of the physical map of the 5'-end of the gene provided strong evidence for the occurrence of a deletion removing exon 3. The "Sicilian" (approximately 2.5 kb) and "Yemenite Jew" (6.7 kb) deletions, the latter one also deleting exon 3, are different in terms of both the 5'-end breakpoint and apparent length. This study, besides adding a new member to the long and increasing list of nearly 200 PAH gene mutations, also proposes to undertake a careful evaluation of RFLP discordances incidentally detected at the PAH locus.

Preliminary studies on the molecular basis of hyperphenylalaninemia in Egypt.

Mutation analysis at the phenylalanine hydroxylase (PAH) locus was undertaken in 56 Egyptian hyperphenylalaninemic patients. Selected screening for 11 known mutations and denaturing Gradient gel electrophoresis (DGGE) analysis of the entire coding sequence and exon/intron boundaries led to the identification of a new mutation (I224T), four previously described mutations, and several polymorphisms. Overall, 18 mutant alleles could thus be characterized. In contrast to the high mutation detection rate typical of the DGGE-based scanning approach, only 6 of 16 mutant alleles tested were identified. Since BH4 deficiency could not be excluded in any of these patients, the latter results may be explained by the occurrence of mutations affecting the genes controlling the synthesis and recycling of tetrahydrobiopterin: the cofactor of PAH. An alternative hypothesis is also discussed.

PAH deficiency in Italy: correlation of genotype with phenotype in the Sicilian population.

The results of the neonatal screening for phenylalanine hydroxylase (PAH) deficiency in Sicily show that its incidence is higher than previously reported for mainland Italians and that non-PKU HPA is in excess of classical and mild PKU. The latter finding suggests that a high number of non-PKU HPA mutations would occur in the Sicilian population compared to populations with an inverted PKU/non-PKU HPA ratio. Previous studies have identified 40 mutations accounting for the majority (98%) of mutant alleles underlying PAH deficiency in Sicily. In order to study the molecular basis of the distribution of PAH deficiency phenotypes in the Sicilian population, we have correlated 31 of those mutations with clinical and metabolic phenotypes in 12 mentally retarded patients, 14 treated patients with classic or mild PKU, and 13 subjects presenting the non-PKU HPA phenotype. The present study proposes a tentative classification for a large number (26) of PAH gene mutations which may represent an additional tool for establishing a differential diagnosis for PAH deficiency in the Sicilian population.

Association between haplotypes, hind III-VNTR alleles and mutations at the PAH locus in Sicily.

In this study we report previously undescribed associations between mutations, haplotypes and a minisatellite polymorphism (Hind III VNTR) of the PAH gene in the Sicilian population. Analysis of the association between mutations and linked polymorphisms between Sicilians and other Mediterranean populations may be a useful tool to study the time-space origin of mutant PAH genes in Southern Europe.

Prenatal diagnosis by minisatellite analysis in Italian families with phenylketonuria.

A polymorphic short tandem repeat (STR) in intron 3 (Goltsov et al., 1993) and a variable number of tandem repeats (Hind III-VNTR) flanked by two constant Hind III sites (Golstov et al., 1992) have been recently identified in the human phenylalanine hydroxylase (PAH) gene. These polymorphisms are easily detected by the polymerase chain reaction (PCR) and gel electrophoresis. We report on the use of these two novel polymorphisms in three Italian families with pregnancies at risk for classical phenylketonuria (PKU). A carrier status for PKU was ascertained in two fetuses; the third family refused prenatal diagnosis, although informativeness was shown to be complete.

Assignment of the human cytokeratin 3 gene (KRT3) to 12q12-->q13 by FISH.

We used fluorescence in situ hybridization to localize the human gene for cytokeratin 3 (KRT3), a member of the type II subfamily of cytokeratins, within the human genome. The results show that KRT3 is located within chromosome region 12q12-->q13. All human type II keratin genes mapped to date have been assigned to chromosome 12, where they are likely to be organized into one homotypic cluster.

Mutational spectrum of phenylalanine hydroxylase deficiency in Sicily: implications for diagnosis of hyperphenylalaninemia in southern Europe.

Hyperphenylalaninemia due to a deficiency of hepatic phenylalanine hydroxylase (PAH) is the most common inborn error of amino acid metabolism. Clinically, the disorder is highly heterogeneous, spanning from nonphenylketonuria hyperphenylalaninemia to classical phenylketonuria. Only little is known about the molecular defects underlying hyperphenylalaninemia in Southern Europe. In this study, we conducted a systematic analysis of 53 patients from the Sicilian population. Each patient included in the study had persistently elevated blood levels of phenylalanine and met the differential criteria for PAH deficiency. Genomic DNA was analysed by scanning all PAH-coding exons for mutations by PCR in combination with denaturing gradient gel electrophoresis (DGGE). 52 patients were completely genotyped. A spectrum of 40 different mutations was established including 17 novel PAH mutations. Our results explain the clinical heterogeneity of hyperphenylalaninemia in Southern Europe, and form the basis for the establishment of phenotype-genotype correlations in Sicily and surrounding countries.

Chromosomal mapping of human cytokeratin 13 gene (KRT13).

In the present study the human cytokeratin 13 gene (KRT13), encoding a polypeptide characteristic of internal stratified epithelia, has been mapped with the help of the polymerase chain reaction and somatic cell hybrids to chromosome 17. In situ hybridization of a KRT13 cDNA probe to metaphase chromosomes allowed the assignment of the KRT13 gene within the q12-q21.2 region of chromosome 17.

Linkage analysis of the fragile X syndrome using a new DNA marker U6.2 defining locus DXS304.

A new RFLP marker U6.2 defining the locus DXS304 was recently mapped to the distal long arm of the X chromosome. In the present study we report the results of genetic linkage analysis of 13 fragile X [fra(X)] families that were informative for the new marker. Analysis of the recombinants for F9-FRAXA, DXS105-FRAXA, DXS98-FRAXA, DXS52-FRAXA, DXS15-FRAXA, and F8C-FRAXA, places DXS304 distal and near to the FRAXA locus. Combined with results from previous studies, our results support the order Xcen.-F9-DXS105-DXS98-FRAXA-DXS304-DXS5 2-DXS15-F8C-Xqter. Close linkage was observed between DXS304 and the disease locus with a peak lod score of 5.12 at theta = 0.04 from the present study and, with a peak lod score of 17.45 at theta = 0.035 when our data are combined with published data from 2 other studies. The present study confirms that U6.2 is useful for prenatal diagnosis and carrier testing in families affected by fra(X) syndrome.