Reduced glomerular filtration rate and prior cardiovascular event entail similar risk for coronary atherosclerotic burden.

OBJECTIVE: Prior cardiovascular event and kidney dysfunction are both strong risk factors for coronary artery disease. The aim of this study is to assess coronary atherosclerotic burden in a large population of patients undergoing coronary angiography, according to prior cardiovascular event or chronic kidney disease. PATIENTS AND METHODS: We evaluated 700 consecutive patients who underwent coronary angiography (CA). Serum creatinine to estimate glomerular filtration rate (eGFR) was measured. Clinically significant coronary artery disease (CAD) was defined by the presence of a coronary lesion resulting in a luminal stenosis >50%. For the purpose of the study, the whole population was divided into 4 subgroups according to the presence/absence of eGFR <60 ml/min/1.73 m2 or prior cardiovascular event: eGFR≥60/no event (Group A), eGFR≥60/yes event (Group B), eGFR<60/no event (Group C), eGFR<60/yes event (Group D). PATIENTS: As expected, patients in group D had the worst clinical and biochemical profile. These patients also presented the highest values of urinary albumin creatinine ratio (ACR, p<0.001) and the lowest values of eGFR (p<0.01). One-hundred-ninety-six patients had three-vessel disease. Patients who had undergone PCI procedure showed a lower eGFR as compared to patients who had not (p=0.009). Considering group A as reference, the risk of having three-vessel disease was increased in group B (OR= 2.09; 95% CI 1.37-3.19), in group C, (OR= 1.80; 95% CI 1.04-3.14), and finally in group D (OR= 3.35; 95% CI 2.01-5.58). The risk carried by group C was not significantly different from that carried by Group B: OR= 0.86; 95% CI 0.5-1.5. CONCLUSIONS: In our study, low eGFR seems to have the same excess risk of prior CV event.

Dietary intake and major food sources of polyphenols in people with type 2 diabetes: The TOSCA.IT Study.

PURPOSE: Proper evaluation of polyphenols intake at the population level is a necessary step in order to establish possible associations with health outcomes. Available data are limited, and so far no study has been performed in people with diabetes. The aim of this work was to document the intake of polyphenols and their major food sources in a cohort of people with type 2 diabetes and in socio-demographic subgroups. METHODS: We studied 2573 men and women aged 50-75 years. Among others, anthropometry was measured by standard protocol and dietary habits were investigated by food frequency questionnaire (EPIC). The intake of polyphenols was evaluated using US Department of Agriculture and Phenol-Explorer databases. RESULTS: The mean total polyphenol intake was 683.3 ± 5.8 mg/day. Non-alcoholic beverages represented the main food source of dietary polyphenols and provided 35.5% of total polyphenol intake, followed by fruits (23.0%), alcoholic beverages (14.0%), vegetables (12.4%), cereal products and tubers (4.6%), legumes (3.7%) and oils (2.1%); chocolate, cakes and nuts are negligible sources of polyphenols in this cohort. The two most important polyphenol classes contributing to the total intake were flavonoids (47.5%) and phenolic acids (47.4%). Polyphenol intake increased with age and education level and decreased with BMI; furthermore, in the northern regions of Italy, the polyphenol intake was slightly, but significantly higher than in the central or southern regions. CONCLUSIONS: The study documents for the first time the intake of polyphenols and their main food sources in people with diabetes using validated and complete databases of the polyphenol content of food. Compared with published data, collected in people without diabetes, these results suggest a lower intake and a different pattern of intake in people with diabetes.

Surface and Mechanical Characterization of Dental Yttria-Stabilized Tetragonal Zirconia Polycrystals (3Y-TZP) After Different Aging Processes.

Yttria-stabilized tetragonal zirconia polycrystals (3Y-TZP) is a ceramic material used in indirect dental restorations. However, phase transformation at body temperature may compromise the material's mechanical properties, affecting the clinical performance of the restoration. The effect of mastication on 3Y-TZP aging has not been investigated. 3Y-TZP specimens (IPS E-max ZirCAD and Z5) were aged in three different modes (n=13): no aging (control), hydrothermal aging (HA), or chewing simulation (CS). Mechanical properties and surface topography were analyzed. Analysis of variance showed that neither aging protocol (p=0.692) nor material (p=0.283) or the interaction between them (p=0.216) had a significant effect on flexural strength, values ranged from 928.8 MPa (IPSHA) to 1,080.6 MPa (Z5HA). Nanoindentation analysis showed that material, aging protocol, and the interaction between them had a significant effect (p<0.001) on surface hardness and reduced Young's modulus. The compositional analysis revealed similar yttrium content for all the experimental conditions (aging: p=0.997; material: p=0.248; interaction material×aging: p=0.720). Atomic force microscopy showed an effect of aging protocols on phase transformation, with samples submitted to CS exhibiting features compatible with maximized phase transformation, such as increased volume of the material microstructure at the surface leading to an increase in surface roughness.

p53 localization at centrosomes during mitosis and postmitotic checkpoint are ATM-dependent and require serine 15 phosphorylation.

We recently demonstrated that the p53 oncosuppressor associates to centrosomes in mitosis and this association is disrupted by treatments with microtubule-depolymerizing agents. Here, we show that ATM, an upstream activator of p53 after DNA damage, is essential for p53 centrosomal localization and is required for the activation of the postmitotic checkpoint after spindle disruption. In mitosis, p53 failed to associate with centrosomes in two ATM-deficient, ataxiatelangiectasia-derived cell lines. Wild-type ATM gene transfer reestablished the centrosomal localization of p53 in these cells. Furthermore, wild-type p53 protein, but not the p53-S15A mutant, not phosphorylatable by ATM, localized at centrosomes when expressed in p53-null K562 cells. Finally, Ser15 phosphorylation of endogenous p53 was detected at centrosomes upon treatment with phosphatase inhibitors, suggesting that a p53 dephosphorylation step at centrosome contributes to sustain the cell cycle program in cells with normal mitotic spindles. When dissociated from centrosomes by treatments with spindle inhibitors, p53 remained phosphorylated at Ser15. AT cells, which are unable to phosphorylate p53, did not undergo postmitotic proliferation arrest after nocodazole block and release. These data demonstrate that ATM is required for p53 localization at centrosome and support the existence of a surveillance mechanism for inhibiting DNA reduplication downstream of the spindle assembly checkpoint

E2F transcription factors are differentially expressed in murine gametes and early embryos.

We have examined the murine genes encoding transcription factors E2F1, -3, -5 and -6 in gametes and early embryos. All genes are expressed as maternal transcripts and all are efficiently transcribed after the blastocyst stage. Between those two stages, each E2F mRNA is transcribed with a distinctive and unique pattern. E2F proteins are also differentially expressed and compartmentalized in pre-implantation embryos.

Cloning of PC3B, a novel member of the PC3/BTG/TOB family of growth inhibitory genes, highly expressed in the olfactory epithelium.

We identified in the EST database murine and human sequences similar, but not identical, to the members of the PC3/BTG/TOB family of cell cycle inhibitors. A conserved domain (aa 50-68) of the PC3 protein, the prototype member of the family, was used as a query. That domain has been shown by us to be necessary for the antiproliferative activity of PC3. A murine EST clone and a highly homologous human EST clone, containing the entire ORF, were chosen for sequencing. Comparison to databases and a phylogenetic tree analysis indicated that these EST clones are the mouse and human homologues of a gene that represents a novel member of the PC3/BTG/TOB family. This gene, named PC3B, is endowed with marked antiproliferative activity, being able to induce G(1) arrest, and is highly expressed in testis, in oocyte, and in preimplantation embryos. Analysis of its expression during murine development indicated a specific localization in the olfactory epithelium at midgestation, suggesting that PC3B might be involved in the differentiation of this neuronal structure. Human PC3B mapped to chromosome 11q23, as indicated by radiation hybrid analysis.

Cytosine methylation transforms an E2F site in the retinoblastoma gene promoter into a binding site for the general repressor methylcytosine-binding protein 2 (MeCP2).

The CpG-rich promoter of the retinoblastoma tumor suppressor gene (Rb-1) is normally unmethylated. However, aberrant methylation of CpG dinucleotides within the Rb-1 promoter has been depicted in certain tumors, which determines transcriptional inactivity of the gene and absence of the pRb retinoblastoma protein. Here we have concentrated on an E2F-binding site in the Rb-1 promoter. We show that the E2F site is required for cell-cycle regulated Rb-1 transcription in non-transformed cells. The function of the E2F site is associated with its ability to interact with several activating factors of the E2F family. In contrast, in vitro methylation of two tandemly arranged CpGs in the E2F recognition site prevents binding by E2F factors, and determines instead the recruitment of the general repressor methylcytosine-binding protein 2 (MeCP2). These results suggest that the interaction of MeCP2 with the methylated version of the E2F site may represent a step towards Rb-1 promoter inactivity in tumor cells.

Two E2F sites control growth-regulated and cell cycle-regulated transcription of the Htf9-a/RanBP1 gene through functionally distinct mechanisms.

The gene encoding Ran-binding protein 1 (RanBP1) is transcribed in a cell cycle-dependent manner. The RanBP1 promoter contains two binding sites for E2F factors, named E2F-c, located proximal to the transcription start, and E2F-b, falling in a more distal promoter region. We have now induced site-directed mutagenesis in both sites. We have found that the distal E2F-b site, together with a neighboring Sp1 element, actively controls up-regulation of transcription in S phase. The proximal E2F-c site plays no apparent role in cycling cells yet is required for transcriptional repression upon growth arrest. Protein binding studies suggest that each E2F site mediates specific interactions with individual E2F family members. In addition, transient expression assays with mutagenized promoter constructs indicate that the functional role of each site is also dependent on its position relative to other regulatory elements in the promoter context. Thus, the two E2F sites play opposite genetic functions and control RanBP1 transcription through distinct molecular mechanisms.

Deregulated expression of the RanBP1 gene alters cell cycle progression in murine fibroblasts.

RanBP1 is a molecular partner of the Ran GTPase, which is implicated in the control of several processes, including DNA replication, mitotic entry and exit, cell cycle progression, nuclear structure, protein import and RNA export. While most genes encoding Ran-interacting partners are constitutively active, transcription of the RanBP1 mRNA is repressed in non proliferating cells, is activated at the G1/S transition in cycling cells and peaks during S phase. We report here that forced expression of the RanBP1 gene disrupts the orderly execution of the cell division cycle at several stages, causing inhibition of DNA replication, defective mitotic exit and failure of chromatin decondensation during the telophase-to-interphase transition in cells that achieve nuclear duplication and chromosome segregation. These results suggest that deregulated RanBP1 activity interferes with the Ran GTPase cycle and prevents the functioning of the Ran signalling system during the cell cycle.

Molecular cloning of the breakpoints of the hereditary persistence of fetal hemoglobin type-6 (HPFH-6) deletion and sequence analysis of the novel juxtaposed region from the 3' end of the beta-globin gene cluster.

Naturally occurring deletion mutations within the human beta-globin cluster lead to specific, phenotypically discrete syndromes (i.e., delta beta-thalassemias and hereditary persistence of fetal hemoglobin, HPFH), characterized by increased production of fetal hemoglobin in adult life. We have previously characterized an enhancer element, which is juxtaposed to the fetal G gamma-gene, by means of a deletion first described in a Thai family. To obtain further insights into the mechanisms involved in this deletion, we have now characterized several of its novel features. Following amplification by the polymerase chain reaction and sequencing of the 1.5-kb bridging fragment, we have shown that the 5' breakpoint of the deletion occurs 1260 bp 3' of the fetal G gamma-globin gene, whereas the 3' breakpoint lies 521 bp upstream of the EcoRI site of the enhancer element and 2845 bp upstream of the 3' breakpoint of the Chinese (A gamma delta beta) zero-thalassemia deletion. The total length of the deletion is 101 kb, which resembles that of HPFH-1 and HPFH-2 deletions and a set of two gamma delta beta-thalassemia deletions. Our data further support the hypothesis that these sets of large deletions with almost identical lengths are generated via the loss of a complete chromatin loop. To elucidate further the mechanisms leading to the deletion, we have sequenced the novel 0.5-kb region residing immediately 3' to the breakpoint and shown that it contains putative binding sites for several transcription factors, such as HNF-1, AP-1, and TFIID. Sequence comparison of the deletion breakpoints reveals no junctional homology, indicating an end-to-end joining of blunted ends; a pair of 7-nt complementary repeats adjacent to a set of a direct CCCT repeat flanks the breakpoints. This limited homology constitutes a frequent characteristic of a non-homologous recombination mechanism. All these features of the HPFH-6 deletion suggest that this mutation has resulted from a non-homologous recombination event.

Recurrent simple tandem repeat mutations during human Y-chromosome radiation in Caucasian subpopulations.

The haplotypes at four polymorphic loci of the Y chromosome were determined in 245 Caucasian males from 12 subpopulations. The data show that haplotype radiation occurred among Caucasians. Haplotype radiation was accompanied by recurrent mutations at STR loci that caused partial randomization of haplotype structure. The present distribution of alleles at short tandem repeats (STRs) can be explained by a mutation pattern similar to those described for autosomal STRs. The degree of variation among groups of subpopulations was assayed by using the Analysis of Molecular Variance. The results confirm a faster divergence of the Y chromosome as compared to the rest of the genome.

Eastern European (delta beta) zero-thalassemia: molecular characterization of a novel 9.1-kb deletion resulting in high levels of fetal hemoglobin in the adult.

A novel deletion in the human beta-globin gene cluster associated with increased levels of fetal hemoglobin (HbF) in adult life was molecularly characterized in a member of a family of Eastern European descent. The phenotype of the deletion, documented in five members of the family, shows mild hypochromia and microcytosis (mean corpuscular Hb, 24 to 25.9 pg; mean corpuscular volume, 74 to 78.5 fL) but high production of HbF (13% to 24%) with heterocellular distribution (36% to 86% F cells). Extensive restriction enzyme mapping of the beta-globin cluster and sequencing of the region encompassing the breakpoints showed that the deletion starts 1,612 bp upstream of the cap site of the delta-globin gene, and terminates within the first intron of the beta-globin gene, deleting 9.1 kb of DNA. This length is definitely shorter than the average 12.0 kb of the previously characterized (delta beta) zero-thalassemias. The 5' breakpoint of the new deletion is close to that of the Yugoslavian delta beta-thalassemia deletion, whereas the 3' breakpoint is very close to those of the Turkish and the Greek beta zero-thalassemia deletions. The breakpoints of the deletion occur within a direct repeat containing a tetranucleotide exhibiting homology to a donor-splice site, and is symmetrically flanked by a set of 13- and 14-bp homologous complementary sequences, respectively. It is likely that the deletion may be the result of an "illegitimate" or "nonhomologous" recombination event to which these two short sequences may have contributed. It is of interest that the novel deletion (9.1 kb) is comparable to the Italian HPFH-5 deletion (12.9 kb), regarding both the size and the position of the breakpoints. However, the HPFH-5 deletion includes sequences flanking the breakpoints that are preserved in the new deletion. Considering the resulting two discrete phenotypes (ie, delta beta-thalassemia v HPFH), it can be hypothesized that the deleted sequences in the Italian HPFH-5 mutation may harbor regulatory elements that exert a negative control on the gamma-globin gene expression.

Epidemiological and linkage studies on Huntington's disease in Italy.

The results of an epidemiological survey on Huntington's disease in the Lazio Region, Central Italy, and of linkage studies in a subset of families are reported. From a total of 99 ascertained families and 491 patients, a prevalence of 25.6 X 10(-6) was obtained, with distributions of age at onset and age at death similar to those described in the literature. No relationship with the sex of the transmitting parent was observed. Analysis of 10 chromosome 4 restriction fragment length polymorphisms in 11 families showed consistent linkage between the genetic loci D4S10, D4S43 and D4S95, and the disease. A recombination rate of 0.08 for D4S10 markers was obtained in this sample. Allelic frequencies of DNA markers in the general population are also reported.