Your search keyword '"Piccinni, Barbara"' showing total 5 results

1. The peptide transporter 1a of the zebrafish Danio rerio, an emerging model in nutrigenomics and nutrition research: molecular characterization, functional properties, and expression analysis.

Author

Vacca, Francesca, Barca, Amilcare, Gomes, Ana S., Mazzei, Aurora, Piccinni, Barbara, Cinquetti, Raffaella, Del Vecchio, Gianmarco, Romano, Alessandro, Rønnestad, Ivar, Bossi, Elena, and Verri, Tiziano

Abstract

Background: Peptide transporter 1 (PepT1, alias Slc15a1) mediates the uptake of dietary di/tripeptides in all vertebrates. However, in teleost fish, more than one PepT1-type transporter might function, due to specific whole genome duplication event(s) that occurred during their evolution leading to a more complex paralogue gene repertoire than in higher vertebrates (tetrapods). Results: Here, we describe a novel di/tripeptide transporter in the zebrafish (Danio rerio), i.e., the zebrafish peptide transporter 1a (PepT1a; also known as Solute carrier family 15 member a1, Slc15a1a), which is a paralogue (78% similarity, 62% identity at the amino acid level) of the previously described zebrafish peptide transporter 1b (PepT1b, alias PepT1; also known as Solute carrier family 15 member 1b, Slc15a1b). Also, we report a basic analysis of the pept1a (slc15a1a) mRNA expression levels in zebrafish adult tissues/organs and embryonic/early larval developmental stages. As assessed by expression in Xenopus laevis oocytes and two-electrode voltage clamp measurements, zebrafish PepT1a, as PepT1b, is electrogenic, Na+-independent, and pH-dependent and functions as a low-affinity system, with K0.5 values for Gly-Gln at − 60 mV of 6.92 mmol/L at pH 7.6 and 0.24 mmol/L at pH 6.5 and at − 120 mV of 3.61 mmol/L at pH 7.6 and 0.45 mmol/L at pH 6.5. Zebrafish pept1a mRNA is highly expressed in the intestine and ovary of the adult fish, while its expression in early development undergoes a complex trend over time, with pept1a mRNA being detected 1 and 2 days post-fertilization (dpf), possibly due to its occurrence in the RNA maternal pool, decreasing at 3 dpf (~ 0.5-fold) and increasing above the 1–2 dpf levels at 4 to 7 dpf, with a peak (~ 7-fold) at 6 dpf. Conclusions: We show that the zebrafish PepT1a-type transporter is functional and co-expressed with pept1b (slc15a1b) in the adult fish intestine. Its expression is also confirmed during the early phases of development when the yolk syncytial layer is present and yolk protein resorption processes are active. While completing the missing information on PepT1-type transporters function in the zebrafish, these results open to future investigations on the similar/differential role(s) of PepT1a/PepT1b in zebrafish and teleost fish physiology. [ABSTRACT FROM AUTHOR]

Published

2019

2. Dissecting KMT2D missense mutations in Kabuki syndrome patients.

Author

Cocciadiferro, Dario, Augello, Bartolomeo, Nittis, Pasquelena De, Zhang, Jiyuan, Mandriani, Barbara, Malerba, Natascia, Squeo, Gabriella M, Romano, Alessandro, Piccinni, Barbara, and Verri, Tiziano

Published

2018

3. Di- and tripeptide transport in vertebrates: the contribution of teleost fish models.

Author

Verri, Tiziano, Barca, Amilcare, Pisani, Paola, Piccinni, Barbara, Storelli, Carlo, and Romano, Alessandro

Subjects

TRIPEPTIDES, CHORDATA, VERTEBRATES, OLIGOPEPTIDES, FISH anatomy

Abstract

Solute Carrier 15 (SLC15) family, alias H-coupled oligopeptide cotransporter family, is a group of membrane transporters known for their role in the cellular uptake of di- and tripeptides (di/tripeptides) and peptide-like molecules. Of its members, SLC15A1 (PEPT1) chiefly mediates intestinal absorption of luminal di/tripeptides from dietary protein digestion, while SLC15A2 (PEPT2) mainly allows renal tubular reabsorption of di/tripeptides from ultrafiltration, SLC15A3 (PHT2) and SLC15A4 (PHT1) possibly interact with di/tripeptides and histidine in certain immune cells, and SLC15A5 has unknown function. Our understanding of this family in vertebrates has steadily increased, also due to the surge of genomic-to-functional information from 'non-conventional' animal models, livestock, poultry, and aquaculture fish species. Here, we review the literature on the SLC15 transporters in teleost fish with emphasis on SLC15A1 (PEPT1), one of the solute carriers better studied amongst teleost fish because of its relevance in animal nutrition. We report on the operativity of the transporter, the molecular diversity, and multiplicity of structural-functional solutions of the teleost fish orthologs with respect to higher vertebrates, its relevance at the intersection of the alimentary and osmoregulative functions of the gut, its response under various physiological states and dietary solicitations, and its possible involvement in examples of total body plasticity, such as growth and compensatory growth. By a comparative approach, we also review the few studies in teleost fish on SLC15A2 (PEPT2), SLC15A4 (PHT1), and SLC15A3 (PHT2). By representing the contribution of teleost fish to the knowledge of the physiology of di/tripeptide transport and transporters, we aim to fill the gap between higher and lower vertebrates. [ABSTRACT FROM AUTHOR]

Published

2017

4. Sheep (Ovis aries) T cell receptor alpha (TRA) and delta (TRD) genes and genomic organization of the TRA/TRD locus.

Author

Piccinni, Barbara, Massari, Serafina, Caputi Jambrenghi, Anna, Giannico, Francesco, Lefranc, Marie-Paule, Ciccarese, Salvatrice, and Antonacci, Rachele

Subjects

T cell receptors, SHEEP, LYMPHOCYTES, GENOMES, GENETICS

Abstract

Background: In mammals, T cells develop along two discrete pathways characterized by expression of either the aβ or the ?δ T cell receptors. Human and mouse display a low peripheral blood ?δ T cell percentage ("?δ low species") while sheep, bovine and pig accounts for a high proportion of ?δ T lymphocytes ("?δ high species"). While the T cell receptor alpha (TRA) and delta (TRD) genes and the genomic organization of the TRA/TRD locus has been determined in human and mouse, this information is still poorly known in artiodactyl species, such as sheep. Results: The analysis of the current Ovis aries whole genome assembly, Oar_v3.1, revealed that, as in the other mammalian species, the sheep TRD locus is nested within the TRA locus. In the most 5' part the TRA/TRD locus contains TRAV genes which are intermingled with TRDV genes, then TRD genes which include seven TRDD, four TRDJ genes, one TRDC and a single TRDV gene with an inverted transcriptional orientation, and finally in the most 3' part, the TRA locus is completed by 61 TRAJ genes and one TRAC gene. Comparative sequence and analysis and annotation led to the identification of 66 TRAV genes assigned to 34 TRAV subgroups and 25 TRDV genes belonging to the TRDV1 subgroup, while one gene was found for each TRDV2, TRDV3 and TRDV4 subgroups. Multiple duplication events within several TRAV subgroups have generated the sheep TRAV germline repertoire, which is substantially larger than the human one. A significant proportion of these TRAV gene duplications seems to have occurred simultaneously with the amplification of the TRDV1 subgroup genes. This dynamic of expansion has also generated novel multigene subgroups, which are species-specific. Ovis aries TRA and TRD genes identified in this study were assigned IMGT definitive or temporary names and were approved by the IMGT/WHO-IUIS nomenclature committee. The completeness of the genome assembly in the 3' part of the locus has allowed us to interpret rearranged CDR3 of cDNA from both TRA and TRD chain repertoires. The involvement of one up to four TRDD genes into a single transcript makes the potential sheep TRD chain much larger than any known TR chain repertoire. Conclusions: The sheep genome, as the bovine genome, contains a large and diverse repertoire of TRA and TRD genes when compared to the "?δ T cell low" species genomes. The composition and length of the rearranged CDR3 in TRD V-delta domains influence the three-dimensional configuration of the antigen-combining site thus suggesting that in ruminants, ?δ T cells play a more important and specific role in immune recognition. [ABSTRACT FROM AUTHOR]

Published

2015

5. Correction to: The peptide transporter 1a of the zebrafish Danio rerio, an emerging model in nutrigenomics and nutrition research: molecular characterization, functional properties, and expression analysis.

Author

Vacca, Francesca, Barca, Amilcare, Gomes, Ana S., Mazzei, Aurora, Piccinni, Barbara, Cinquetti, Raffaella, Del Vecchio, Gianmarco, Romano, Alessandro, Rønnestad, Ivar, Bossi, Elena, and Verri, Tiziano

Abstract

Following publication of the original article [1], the authors flagged that the 'Availability of data and materials' declaration is incomplete. [ABSTRACT FROM AUTHOR]

Published

2020