Maria D'Armiento

Multiple clinical forms of dehydrated hereditary stomatocytosis arise from mutations in PIEZO1

Autosomal dominant dehydrated hereditary stomatocytosis (DHSt) usually presents as a compensated hemolytic anemia with macrocytosis and abnormally shaped red blood cells (RBCs). DHSt is part of a pleiotropic syndrome that may also exhibit pseudohyperkalemia and perinatal edema. We identified PIEZO1 as the disease gene for pleiotropic DHSt in a large kindred by exome sequencing analysis within the previously mapped 16q23-q24 interval. In 26 affected individuals among 7 multigenerational DHSt families with the pleiotropic syndrome, 11 heterozygous PIEZO1 missense mutations cosegregated with disease. PIEZO1 is expressed in the plasma membranes of RBCs and its messenger RNA, and protein levels increase during in vitro erythroid differentiation of CD34(+) cells. PIEZO1 is also expressed in liver and bone marrow during human and mouse development. We suggest for the first time a correlation between a PIEZO1 mutation and perinatal edema. DHSt patient red cells with the R2456H mutation exhibit increased ion-channel activity. Functional studies of PIEZO1 mutant R2488Q expressed in Xenopus oocytes demonstrated changes in ion-channel activity consistent with the altered cation content of DHSt patient red cells. Our findings provide direct evidence that R2456H and R2488Q mutations in PIEZO1 alter mechanosensitive channel regulation, leading to increased cation transport in erythroid cells.

Altered expression of mitochondrial and extracellular matrix genes in the heart of human fetuses with chromosome 21 trisomy

BackgroundThe Down syndrome phenotype has been attributed to overexpression of chromosome 21 (Hsa21) genes. However, the expression profile of Hsa21 genes in trisomic human subjects as well as their effects on genes located on different chromosomes are largely unknown. Using oligonucleotide microarrays we compared the gene expression profiles of hearts of human fetuses with and without Hsa21 trisomy.ResultsApproximately half of the 15,000 genes examined (87 of the 168 genes on Hsa21) were expressed in the heart at 18–22 weeks of gestation. Hsa21 gene expression was globally upregulated 1.5 fold in trisomic samples. However, not all genes were equally dysregulated and 25 genes were not upregulated at all. Genes located on other chromosomes were also significantly dysregulated. Functional class scoring and gene set enrichment analyses of 473 genes, differentially expressed between trisomic and non-trisomic hearts, revealed downregulation of genes encoding mitochondrial enzymes and upregulation of genes encoding extracellular matrix proteins. There were no significant differences between trisomic fetuses with and without heart defects.ConclusionWe conclude that dosage-dependent upregulation of Hsa21 genes causes dysregulation of the genes responsible for mitochondrial function and for the extracellular matrix organization in the fetal heart of trisomic subjects. These alterations might be harbingers of the heart defects associated with Hsa21 trisomy, which could be based on elusive mechanisms involving genetic variability, environmental factors and/or stochastic events.

HOX gene network is involved in the transcriptional regulation of in vivo human adipogenesis

Adipogenesis is regulated by the sequential activation of a series of transcription factors: the C/EBP proteins of type β and δ trigger the process while PPARγ and C/EBPα induce the differentiation from pre‐adipocyte to adipocyte, followed by adipo‐specific gene expression. A number of observations suggest the involvement of genes controlling embryonal development in adipogenesis. In human thyroid follicular carcinoma, it has been recently identified an oncogenetic fusion protein resulting from the interaction between the isoform PPARγ1 of PPARγ and the homeoprotein encoded by the PAX‐8 gene. Recent observations have pointed out that gene expression associated with adipocyte differentiation in vivo and in vitro, although partially overlapping, is actually different. HOX genes make up a network of transcription factors (homeoproteins) controlling embryonal development as well as crucial functions of adult eukaryotic cells. The molecular organization of this network of 39 genes appears to be unique in the genome and probably acts regulating phenotypic cell identity. In the present study we have analyzed the expression of the complete HOX gene network, in vivo, in different deposits of human white adipose tissue and in embryonal brown adipose tissues. Most of the genes in the HOX network are active in white as well as brown adipose tissue. Furthermore HOX genes display a deposit‐specific expression in white adipose tissue. Moreover, expression of the paralogous group 4 genes (HOX A4, HOX B4, HOX C4, and HOX D4), together with that of isolated genes in the network, appears to discriminate between white and brown adipose tissue. This data allows us to postulate the involvement of the HOX network in transcriptional regulation of human adipogenesis and to hypothesize on the molecular mechanisms that could be implicated.

A recombinant MnSOD is radioprotective for normal cells and radiosensitizing for tumor cells

Organisms exposed to ionizing radiation are mainly damaged by free radicals, which are generated by the radiolysis of water contained in the cells. Recently a significant reduction of tissue injury from irradiation damage was demonstrated by using MnSOD-plasmid/liposome treatments in the protection of murine lung. In this study we show that a new active recombinant human MnSOD (rMnSOD), easily administered in vivo, not only exerts the same radioprotective effect on normal cells and organisms as any MnSOD, but it is also radiosensitizing for tumor cells. In addition, we show how healthy animals, exposed to lethal doses of ionizing radiation and daily injections with rMnSOD, were protected from radiodamage and were still alive 30 days after the irradiation, while animals treated with only PBS solution, in the absence of rMnSOD, died after 7-8 days from the radiotreatments. The molecular analysis of all irradiated tissues revealed that the antiapoptotic AVEN gene appeared activated only in the animals treated in the presence of rMnSOD. The data suggest that rMnSOD deserves to be considered as a pharmaceutical tool for making radiotherapy more selective on cancer cells and to prevent and/or cure the accidental damage derived from exposure to ionizing radiation.

Clinical phenotype of lathosterolosis

Lathosterolosis (LS) is a defect of cholesterol biosynthesis due to the deficiency of the enzyme sterol‐C5‐desaturase. Only two patients have been described to date, both presenting with multiple malformations, mental retardation, and liver involvement. In addition in one of them pathological examination revealed mucolipidosis‐like inclusions on optic microscopy analysis, and peculiar lysosomal lamellar bodies on electron microscopy analysis. This study is focused on a better characterization of the clinical phenotype of LS. We describe a further case in a fetus, sibling of the first patient reported, presenting with neural tube defect, craniofacial and limb anomalies, and prenatal liver involvement. The fetal phenotype suggests the possible occurrence of significant intrafamilial variability in LS, and expands the phenotypic spectrum of the disease. Histological examination of autopsy samples from the fetus and skin fibroblasts from the living sibling suggested that the mucolipidosis‐like picture previously reported is not a constant feature of LS, being possibly associated with the most severe biochemical defects, but confirmed the ultrastructural finding of lamellar inclusions. The LS phenotype appears to be characterized by the distinctive association of a recognizable pattern of congenital anomalies, involving axial and appendicular skeleton, liver, central nervous and urogenital systems, and lysosomal storage. This condition partially overlaps with other defects of sterol metabolism, suggesting intriguing pathogenic links among these conditions.

Expression of biomarkers modulating prostate cancer progression: implications in the treatment of the disease

Objectives: To determine whether COX-2, bcl-2 and neoangiogenesis are related to human prostate cancer relapse after definitive surgical treatment and progression toward androgen independence and to evaluate the association between the patterns of these tumoral biomarkers and other standard clinico-pathological parameters (such as Gleason score, PSA, TNM stage).Materials and Methods: We retrospectively analyzed the records on 126 prostate cancer samples from patients treated at our University Hospital from 1995 to 2002. The 72 patients with clinically localized disease (group 1) had undergone radical prostatectomy. Another 54 patients (group 2) had metastatic androgen-independent disease. Archived material relating to the subjects was then immunostained for bcl-2, COX-2 and CD-31, using an anti-bcl-2 monoclonal primary antibody, an anti-COX-2 polyclonal rabbit antibody and an anti-CD-31 monoclonal mouse antibody to evaluate neoangiogenesis (MVD, microvessel density).Results: We found that bcl-2, COX-2 and MVD expression increased from group 1 to group 2. The intergroup difference was significant only for high MVD (P<0.05). On the other hand, high MVD, high bcl-2 and high COX-2 expression was correlated with a higher PSA level (P<0.01), whereas only a high MVD was also related with Gleason score (P<0.05). We used univariate analysis to evaluate the prognostic impact of biologic and clinico-pathologic parameters on the disease-free-survival of 72 patients treated by radical prostatectomy. A total of 30 patients (41.6%) experienced biochemical relapse; bcl-2, COX-2 and MVD significantly correlated with disease relapse in these patients. In fact, we observed disease relapse in 24/45 (53%) with high bcl-2 expression, in 15/21 (71%) with a high MVD count and finally, in 30/58 (52%) with high COX-2 expression. Finally, PSA value and Gleason score were the only two biologic markers significantly associated to disease relapse in a multivariate analysis.Conclusions: Our results strongly support a role for bcl-2, COX-2 and angiogenesis in the development and progression of prostate cancer. Of course, we are aware of the small sample size considered in our study. Further investigations would better clarify the prognostic and therapeutic implications of these findings.

Aberrant right subclavian artery: incidence and correlation with other markers of Down syndrome in second-trimester fetuses

To assess the incidence of aberrant right subclavian artery (ARSA) and other strong markers of Down syndrome and their correlation in a large population of second‐trimester Down syndrome fetuses assessed in a tertiary referral center.

Accuracy of neurosonography and MRI in clinical management of fetuses referred with central nervous system abnormalities.

To assess the accuracy of expert neurosonography (two‐ and three‐dimensional NSG) in the characterization of major fetal central nervous system (CNS) anomalies seen at a tertiary referral center and to report the differential clinical usefulness of magnetic resonance imaging (MRI) used as a second‐line diagnostic procedure in the same cohort.

MDR1-P-glycoprotein behaves as an oncofetal protein that promotes cell survival in gastric cancer cells

P-glycoprotein (P-gp), traditionally linked to cancer poor prognosis and multidrug resistance, is undetectable in normal gastric mucosa and overexpressed in gastric cancer (GC). We propose that P-gp may be involved in Helicobacter pylori (Hp)-related gastric carcinogenesis by inhibiting apoptosis. Aim of the study was to evaluate the expression of P-gp in fetal stomach and in Hp-related gastric carcinogenesis, the epigenetic control of the multi-drug resistance-1 (MDR1) gene, the localization and interaction between P-gp and Bcl-xL and the effect of the selective silencing of P-gp on cell survival. P-gp and Bcl-xl expression was evaluated by immunohistochemistry on 28 spontaneously abortive human fetuses, 66 Hp-negative subjects, 138 Hp-positive chronic gastritis (CG) of whom 28 with intestinal metaplasia (IM) and 45 intestinal type GCs. P-gp/Bcl-xL colocalization was investigated by confocal immunofluorescence microscopy and protein–protein interaction by co-immunoprecipitation, in basal conditions and after stress-induced apoptosis, in GC cell lines AGS and MKN-28 and hepatocellular carcinoma cell line Hep-G2. The role of P-gp in controlling apoptosis was evaluated by knocking down its expression with a specific small interfering RNAs in stressed AGS and MKN-28 cell lines. P-gp is expressed in the gastric mucosa of all human fetuses while, it is undetectable in adult normal mucosa and re-expressed in 30/110 Hp-positive non-IM-CG, 28/28 IM-CG and 40/45 GCs. P-gp expression directly correlates with that of Bcl-xL and with the promoter hypomethylation of the MDR1 gene. In GC cell lines, P-gp is localized on the plasma membrane and mitochondria where it colocalizes with Bcl-xL. Co-immunoprecipitation confirms the physical interaction between P-gp and Bcl-xL in AGS, MKN-28 and Hep-G2, at both basal level and after stress-induced apoptosis. The selective silencing of P-gp sensitizes GC cells to stress-induced apoptosis. P-gp behaves as an oncofetal protein that, by cross-talking with Bcl-xL, acts as an anti-apoptotic agent in Hp-related gastric carcinogenesis.

Predictive Factors of Complete Response to Neoadjuvant Chemoradiotherapy in Patients with Rectal Cancer

Purpose: Pathological complete response (pCR) after neoadjuvant chemoradiotherapy is a favorable prognosticator in rectal cancer patients. We investigated whether the biological features of the primary tumor affect pCR. Materials and Methods:Forty-six patients treated with capecitabine-oxaliplatin and pelvic conformal radiotherapy were considered. Forty-three patients underwent surgery, and the pathologic response was scored according to the tumor regression grade (TRG) scale. Epidermal growth factor receptor (EGFR), vascular endothelial growth factor, poly(adenosine diphosphate-ribose) polymerase-1, X-ray cross-complimenting, thymidylate synthase (TS) and Ki67 expression were evaluated by immunohistochemistry on rectal biopsies obtained before chemoradiotherapy, and scored as the percentage of positive cells. Cutoffs were selected based on ROC analysis. The correlation between the biological factors and the TRG coded as TRG1 (pCR) versus TRG ≧2 (no pCR) was assessed by the χ2 test and logistic regression analysis. Results: Low EGFR (p = 0.007), high TS (p = 0.002), and high Ki67 (p = 0.05) were strongly associated with pCR. Upon univariate analysis, TRG significantly affected disease-free survival (p = 0.03). Conclusions: pCR was significantly associated with high TS, high Ki67 and low EGFR expression. Patients with pCR have a significantly lower incidence of relapse.