Doroti Pirulli

Effects of maturation on RNA transcription and protein expression of four MRP genes in human placenta and in BeWo cells.

The placenta is a multifunctional organ that protects the fetus from toxic compounds and the MRPs contribute to this function. The expression of MRP1, MRP2, MRP3, and MRP5 was compared in human placental tissue and in BeWo cells by real-time RT-PCR analysis; protein expression was assessed by Western blot. MRP1 and MRP3 were the most abundantly expressed genes in placenta but only MRP1 was highly expressed in the BeWo cells. Expression of MRP1 increased 4-fold in the third as compared with first trimester placental samples, and increased 20-fold with polarization of BeWo cells. MRP2, MRP3, and MRP5 were weakly expressed both in placenta and BeWo cells. Protein expression followed mRNA quantification for MRP1 and MRP5 but not for MRP2 and MRP3. These data indicated that MRP1 and MRP5 increase with trophoblast maturation, suggesting a particular role for these proteins in the organ functional development.

Polymorphisms in the MBL2 promoter correlated with risk of HIV-1 vertical transmission and AIDS progression

We investigated the polymorphisms of the promoter region of the MBL2 gene, which codifies for the Mannose-binding protein (MBP). The study population included 90 children with vertically acquired HIV-infection, further divided on the basis of the disease rate, 27 HIV exposed-uninfected children, and 74 healthy control subjects matched for ethnic origin to evaluate the MBP involvement in the risk of HIV-1 infection and to assess the role of the MBP promoter in AIDS progression. A region of 380 bp in the promoter of the MBL2 gene was analysed by PCR and direct sequencing of both DNA strands. We found that the polymorphism at position −550 influences the risk of HIV-infection and AIDS progression. Also a 6 bp deletion at position −328 was correlated with HIV-1 infection. This study indicates that the promoter of the MBL2 gene influences vertical transmission of HIV and the course of perinatal infection.

Single-tube genotyping of MBL-2 polymorphisms using melting temperature analysis

Abstract Recently several authors correlated MBL-2 gene polymorphisms with different pathologies and there is a growing interest for MBL-2 genotyping in a large number of individuals. We have developed a single-tube, rapid, economic, and fully automated melting temperature analysis screening method, based on ABI 7700 Sequence Detection System technology and SYBR Green I chemistry, for the detection of three polymorphisms (exon 1, codons 52, 54, 57) in the MBL-2 gene. We also developed an electronic sheet for the automatic calling of different genotypes, based on the analysis of the first derivative of ABI 7700 raw data.

ALS with variable phenotypes in a six-generation family caused by leu144phe mutation in the SOD1 gene

BACKGROUND Amyotrophic lateral sclerosis (ALS) is a progressive neurological disorder. The mutations of Cu/Zn superoxide dismutase gene (SOD1) are responsible for familial ALS. We investigated a large family of Istro-Rumanian origin characterized by an autosomal dominant ALS occurring in 18 cases (three of which are still alive) throughout six generations. METHODS Clinical data were available for nine patients from the 2nd generation onward, among which one contained the neuropathological details. The mean age at onset of the disease (+/-SD) was 57.3+/-8.9 years (range 49-72), while the duration of the disease spanned over a length of time equal to 4.9+/-1.96 years (range 1.5-7). The analysis of the coding region of SOD1 was done by PCR and direct sequencing. The SOD1 activity was measured by using the red and mononuclear cells belonging to three of the patients. RESULTS The leu144phe mutation of SOD1 was identified in four patients while a normal sequence was found in five healthy related subjects. The molecular defect was responsible for a decrease in SOD1 activity. Most of patients in this family presented clinical manifestations of ALS (in particular, the lower limb onset variant) not as severe as typical ALS caused by other SOD1 mutations. However, one patient suffering from hyperthyroidism for 17 years, showed an early onset and a rapidly progressing ALS coupled with dementia. CONCLUSIONS We described a large family with a relatively not severe phenotype of ALS (due to a leu144phe SOD1 mutation) that was compromised in one patient by a concomitant hyperthyroidism.

Molecular analysis of hyperoxaluria type 1 in Italian patients reveals eight new mutations in the alanine : glyoxylate aminotransferase gene

Abstract Systematic screening using the SSCP technique followed by sequencing of bands with abnormal mobility derived from the AGXT exons of 15 unrelated Italian patients with primary hyperoxaluria type 1 (PH1) allowed us to characterize both the mutant alleles in each individual. Eight new mutations were identified: C155del, C156ins, G244T, C252T, GAG408ins, G468A, G588A and G1098del. This study demonstrates both the effectiveness of the screening strategy chosen to identify all the mutant alleles and the high degree of allelic heterogeneity in PH1.

MBL2 genetic screening in patients with recurrent vaginal infections

Problem  Mannose‐binding lectin (MBL) is an important component of the innate immunity, present at the mucosal level in vagina: a common pathogen’s entry point.

MBL2 and MASP2 gene polymorphisms in patients with hepatocellular carcinoma

Summary.  The pathogenesis of hepatocellular carcinoma (HCC) is not fully understood, but the majority of patients with HCC are associated with hepatitis B virus (HBV) or hepatitis C virus (HCV) infection. Mannan‐binding lectin (MBL) is a collectin that can act directly as opsonine or activate MBL‐associated serine proteases (MASPs) thus initiating the antibody‐independent pathway of the complement system. In our study, we analysed two MBL2 and MASP2 functional polymorphisms (MBL2 allele A/0 and MASP2 D120G) as well as MASP2 polymorphism (Y371D) responsible for an amino acidic change in the protein in 215 HCC patients (HBV‐infected, HCV‐infected, HBV/HCV co‐infected and patients with HCC with no viral infection) and 164 healthy controls to give new insights regarding the role of these two molecules in HCC and viral infection pathogenesis. No significant association was found between MBL2 or MASP2 alleles or genotypes, neither comparing the total patients with HCC and healthy controls nor between the different groups of HCC subjects divided for type of viral infection. Also, dividing the total HCC patients group into low MBL producer (A0 and 00 genotypes) and normal producer (AA genotype) and comparing MASP2 polymorphisms in these two groups, no significant differences were found. Our data do not seem to suggest a role for MBL2 and MASP2 polymorphisms in HCC susceptibility either for HBV–HCV infection‐dependent HCC or for HCC raised as a consequence of exposure to different risk factors.

Detection of MBL-2 gene expression in intestinal biopsies of celiac patients by in situ reverse transcription polymerase chain reaction.

Celiac disease (CD) is an autoimmune enteropathy triggered by ingestion of gluten in genetically susceptible subjects and represents one of the most frequently occurring, treatable, lifelong autoimmune disorders. Undetected or untreated CD may cause late more severe complications (Farrell and Kelly, 2002). So far, several factors have been identified as possible agents responsible for CD. There is a strong evidence that CD is associated with specific HLA haplotypes (HLADQA1* 0501, DQB1*0201 or DQA1*0301, DQB0302) (Sollid and Thorsby, 1993). Recently it has been demonstrated on Italian patients that polymorphisms of the first exon of MBL2 gene, which encodes for Mannose Binding Protein (MBP), could play a pathophysiological role in celiac disease (Boniotto et al., 2002). MBP is a serum protein involved in the natural or innate immune response. MBP acts as an ante-antibody and can enhance opsonisation, or can activate the classical pathway of the complement on bacteria, viruses and fungi (Sastry and Ezekowitz, 1993).

Variant mannose-binding lectin alleles are associated with celiac disease

Abstract. In this study, we investigated the role of mannose-binding lectin (MBL) in celiac disease, by performing genotype analysis for the three point mutations in the first exon of the gene in 117 Italian celiac patients (characterized by flat biopsy and positive for anti-endomysium antibody and human transglutaminase antibodies) and 130 pan-ethnic healthy controls. The frequency of homozygous mutant 0/0 was significantly higher in the 117 Italian celiac patients (0.13) than in the 130 pan-ethnic healthy controls (0.05; P=0.0405). An increased frequency of homozygous 0/0 allele was found among patients with celiac disease compared with controls. These results suggest an involvement of MBL in the pathophysiology of celiac disease.

Extracellular NAD+: a novel autocrine/paracrine signal in osteoblast physiology

Intercellular communication allows co-ordination of cell metabolism and sensitivity to extracellular stimuli. In bone cells, paracrine stimulation and cell-to-cell coupling through gap junctions induce the formation of complex intercellular networks, which favours the intercellular exchange of nutrients and second messengers, ultimately controlling the process of bone remodelling. The importance of local factors in bone remodelling is known since many years. Bone cells secrete and respond to a variety signals, among which include prostaglandins, cytokines, growth factors, and ATP. We here report evidence that extracellular NAD(+) is a novel extracellular signal stimulating osteoblast differentiation. We found that HOBIT human osteoblastic cells, which are known to express ADP-ribosyl cyclase/CD38 activity, respond to micromolar concentrations of extracellular NAD(+) with oscillatory increases of the cytosolic Ca(2+) concentration. The initial Ca(2+) response was followed by a time-dependent inhibition of cell growth, the appearance of an epithelial morphology, and by an increase of alkaline phosphatase and osteocalcin expression. Under resting condition HOBIT cells release NAD(+) in the extracellular medium and the release is significantly potentiated by mechanical stimulation. Taken together these results point to NAD(+) as a novel autocrine/paracrine factor involved in stimulation and maintenance of the osteoblast differentiated phenotype.