Your search keyword '"Alari, Valentina"' showing total 2 results

1. CARATTERIZZAZIONE MOLECOLARE E FUNZIONALE DEL GENE CHRFAM7A, FORMA DUPLICATA DELLA SUBUNIT� ALPHA7 DEL RECETTORE NICOTINICO

Author

ALARI, VALENTINA

Abstract

The ?7 nicotinic acetylcholine receptor (?7 nAChR) has a key role in the innate immune system?s inflammatory response, as part of ?cholinergic anti-inflammatory pathway?: a process by which acetylcholine from the vagus nerve reduces the release of the pro-inflammatory cytokine TNF?, thus allowing for a controlled response to infection. The CHRNA7 gene, in humans, is partially duplicated from exon 5-10 and forms an hybrid with four exons (D-A) of a novel gene, FAM7A. This new gene, CHRFAM7A, which is located in the opposite orientation, at 1.6 Mb, from CHRNA7, is not present on every chromosome 15 and a polymorphic variant, in linkage disequilibrium with a 2bp deletion in exon 6, in the same orientation to the CHRNA7 gene, has been described in a cohort of patients with bipolar disorders and schizophrenia. THP-1 monocytic-like cell line expresses only CHRFAM7A, which was down-regulated on treatment with LPS, by a direct transcriptional mechanism reliant on NF-kB. This effect has been confirmed in primary monocytes and macrophages cell cultures, where CHRFAM7A is expressed 200-1000 times more than CHRNA7. Here, the conventional ?7 subunit was up-regulated by LPS treatment, thus suggesting the involvement of CHRFAM7A in the regulation of cell surface ?7 receptors? level (a mechanism unique to humans) and the ability of immune cells to respond to acetylcholine, released from the vagus nerve, during infection. This hypothesis seems to be supported by recent works showing that the duplicated form may have a dominant negative effect on the activity of ?7 nAChR. Infact, co-expression of CHRFAM7A with ?7 results in a significant reduction of the Ach-evoked currents, suggesting the presence of heteromeric non functional receptors at the plasma membrane. The promoter region that regulates the expression of CHRFAM7A is still unknown. To try to identify and characterize this region, 5'-RACE experiments were carried out to map the CHRFAM7A mRNA 5?UTR. RNA was extracted from three different cell lines: THP-1 cells, primary human macrophages and SHSY5Y neuroblastoma cell line. Multiple transcription start sites were identified, depending on the cell line used, suggesting the existence of alternative promoters. A series of constructs that recapitulate the mapping of the CHRFAM7A regulatory region, according to the transcription start sites identified, was also generated. They were cloned into a reporter vector and their functionality was tested by transient transfection both in THP-1 and SHSY5Y cell models. Through these experiments, an intronic region (-702/-208 bp from ATG codon, in exon B) and an Alu sequence (-1155/-821 bp) were identified as negative regulators of reporter gene transcription. Future experiments will allow us to identify other regulatory sites, important for proper CHRFAM7A gene expression in different tissues. Furthermore, two variants exist for CHRFAM7A gene, due to alternative splicing, that gives rise to two protein products of predicted 36 and 47 KDa, whose function is currently unknown. The N-terminally portion of each variant would lack the majority of the ligand binding domain, but the protein product retains the transmembrane region that forms the ion channel. To clarify the function of CHRFAM7A gene and to study the cellular localization of these two isoforms, CHRFAM7A (both variants) and CHRNA7 tagged proteins were generated, by cloning their cDNAs into pcDNA3.1/myc-His and pcDNA3.1/V5-His vectors. The ?7 specific chaperon, RIC3, was also cloned into pcDNA3.0 vector and co-transfected with the tagged proteins, in order to increase their folding and expression. The constructs were transfected into Hela cells and characterized by immunofluorescence and western blotting experiments. The use of nicotine as therapy for chronic inflammatory diseases has often been characterised by excessive side effects due to a lack of specificity for just one receptor type. For this reason, the study of the regulation of ?7 and its duplicated isoform subunits in response to pro-inflammatory stimuli, is important to understand their role in the ?cholinergic anti-inflammatory pathway?, in order to discover selective nicotinic receptor agonists and to develop novel anti-inflammatory treatments.

Published

2013

2. Modeling RTT Syndrome by iPSC-Derived Neurons from Male and Female Patients with Heterogeneously Severe Hot-Spot MECP2 Variants

Author

Sara Perego, Valentina Alari, Gianluca Pietra, Andrea Lamperti, Alessandro Vimercati, Nicole Camporeale, Maria Garzo, Francesca Cogliati, Donatella Milani, Aglaia Vignoli, Angela Peron, Lidia Larizza, Tommaso Pizzorusso, Silvia Russo, Perego, Sara, Alari, Valentina, Pietra, Gianluca, Lamperti, Andrea, Vimercati, Alessandro, Camporeale, Nicole, Garzo, Maria, Cogliati, Francesca, Milani, Donatella, Vignoli, Aglaia, Peron, Angela, Larizza, Lidia, Pizzorusso, Tommaso, and Russo, Silvia

Subjects

Male, Neurons, early morphological neuronal biomarker, Organic Chemistry, Induced Pluripotent Stem Cells, iPSC-neuron, General Medicine, genotype-phenotype correlation, Settore BIO/09 - Fisiologia, mature neuron e-recordings, Catalysis, Computer Science Applications, Inorganic Chemistry, X inactivation mosaicism, Rett syndrome, Phenotype, hot-spot MECP2 pathogenic variant, Rett Syndrome, hot-spot MECP2 pathogenic variants, iPSC-neurons, early morphological neuronal biomarkers, Humans, Female, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

Rett syndrome caused by MECP2 variants is characterized by a heterogenous clinical spectrum accounted for in 60% of cases by hot-spot variants. Focusing on the most frequent variants, we generated in vitro iPSC-neurons from the blood of RTT girls with p.Arg133Cys and p.Arg255*, associated to mild and severe phenotype, respectively, and of an RTT male harboring the close to p.Arg255*, p.Gly252Argfs*7 variant. Truncated MeCP2 proteins were revealed by Western blot and immunofluorescence analysis. We compared the mutant versus control neurons at 42 days for morphological parameters and at 120 days for electrophysiology recordings, including girls’ isogenic clones. A precocious reduced morphological complexity was evident in neurons with truncating variants, while in p.Arg133Cys neurons any significant differences were observed in comparison with the isogenic wild-type clones. Reduced nuclear size and branch number show up as the most robust biomarkers. Patch clamp recordings on mature neurons allowed the assessment of cell biophysical properties, V-gated currents, and spiking pattern in the mutant and control cells. Immature spiking, altered cell capacitance, and membrane resistance of RTT neurons, were particularly pronounced in the Arg255* and Gly252Argfs*7 mutants. The overall results indicate that the specific markers of in vitro cellular phenotype mirror the clinical severity and may be amenable to drug testing for translational purposes.

Published

2022