Your search keyword '"Antonacci, Rachele"' showing total 25 results

1. A Comprehensive Analysis of the Genomic and Expressed Repertoire of the T-Cell Receptor Beta Chain in Equus caballus.

Author

Antonacci, Rachele, Giannico, Francesco, Moschetti, Roberta, Pala, Angela, Jambrenghi, Anna Caputi, and Massari, Serafina

Subjects

MAJOR histocompatibility complex, HORSES, IMMUNOGENETICS, GENOMICS, DNA probes, T cell receptors

Abstract

Simple Summary: In the mammalian immune system, αβ T lymphocytes are a fundamental set of T cells capable of recognizing an extraordinary range of antigens, presented in the context of the major histocompatibility complex molecules. The function of αβ T cells is linked to the T-cell receptor, a heterodimeric cell surface protein composed of an α and β chain uniquely expressed on T cells. Unlike conventional proteins encoded by a single gene, α and β chains are encoded by a large set of noncontiguous TRA and TRB genes that are randomly assembled during a stochastic process known as V(D)J recombination, generating a large and diverse repertoire. The extent of diversification depends on the number of genes and their genomic organization at the TRA and TRB loci, which varies from species to species. In this paper, we describe the genomic organization and gene content of the horse TRB locus, based on the recently released horse genome. Compared to other mammalian species, the horse TRB locus was found to be the largest locus studied to date. A clonotype analysis of a transcriptomic dataset was also performed to assess the characteristics of the V(D)J somatic rearrangement. Overall, our data provide useful information for further functional studies in healthy and sick horses of different breeds. In this paper, we report a comprehensive and consistent annotation of the locus encoding the β-chain of the equine T-cell receptor (TRB), as inferred from recent genome assembly using bioinformatics tools. The horse TRB locus spans approximately 1 Mb, making it the largest locus among the mammalian species studied to date, with a significantly higher number of genes related to extensive duplicative events. In the region, 136 TRBV (belonging to 29 subgroups), 2 TRBD, 13 TRBJ, and 2 TRBC genes, were identified. The general genomic organization resembles that of other mammals, with a V cluster of 135 TRBV genes located upstream of two in-tandem aligned TRBD-J-C clusters and an inverted TRBV gene at the 3′ end of the last TRBC gene. However, the horse b-chain repertoire would be affected by a high number of non-functional TRBV genes. Thus, we queried a transcriptomic dataset derived from splenic tissue of a healthy adult horse, using each TRBJ gene as a probe to analyze clonotypes encompassing the V(D)J junction. This analysis provided insights into the usage of the TRBV, TRBD, and TRBJ genes and the variability of the non-germline-encoded CDR3. Our results clearly demonstrated that the horse β-chain constitutes a complex level of variability, broadly like that described in other mammalian species. [ABSTRACT FROM AUTHOR]

Published

2024

2. Genomic and comparative analysis of the T cell receptor gamma locus in two Equus species.

Author

Massari, Serafina, Giannico, Francesco, Paolillo, Nunzia Valentina, Pala, Angela, Jambrenghi, Anna Caputi, and Antonacci, Rachele

Subjects

DONKEYS, T cell receptors, GENOMICS, EQUUS, HORSES, SPECIES

Abstract

The genus Equus is the only extant genus of the Equidae family, which belongs to Perissodactyla, an order of mammals characterized by an odd number of toes (odd-toes ungulates). Taking advantage of the latest release of the genome assembly, we studied, for the first time in two organisms belonging to the Equus genus, the horse (Equus caballus) and the donkey (Equus asinus), the T cell receptor gamma (TRG) locus encoding the gamma chain of the gd Tcell receptor. Forty-five Variable (TRGV) genes belonging to the seven IMGT-NC validated mammalian TRGV subgroups, 25 Joining (TRGJ) and 17 Constant (TRGC) genes organized in 17 V-J-(J)-C cassettes, in tandem on about 1100 Kb, characterize the horse TRG locus, making the horse TRG locus the one with the greatest extension and with a significantly higher number of genes than the orthologous loci of the other mammalian species. A clonotype analysis of an RNA-seq transcriptomic dataset derived from spleen of an adult healthy horse, using the complete set of the horse TRGJ germline gene sequences as a probe, revealed that, in addition to the most prominent V-J rearrangements within each cassette, there is a relevant proportion of trans-cassette V-J recombination, whereby the same TRGV genes can recombine with different TRGJ genes spliced to the corresponding TRGC genes. This recombinant event strongly contributes to the diversity of the g chain repertoire. In the donkey TRG locus, 34 TRGV, 21 TRGJ and 14 TRGC genes distributed in 14 V-J-(J)-C cassettes were found in a region of approximately 860 kb. Although the donkey's TRG is smaller than that of the horse, in Equus genus, this is still the second largest locus so far found in any mammalian species. Finally, the comparative analysis highlighted differences in size and gene content between the horse and donkey TRG loci, despite belonging to the same genus, indicating a good level of diversification within Equus. These data is in agreement with the evolutionary idea of the existence of a Equus recent common ancestor in rapid evolution, for which a mutation rate between horses and donkeys is more comparable to that between species belonging to different genera rather than to species of the same genus. [ABSTRACT FROM AUTHOR]

Published

2023

3. 3D structures inferred from cDNA clones identify the CD1D-Restricted γδ T cell receptor in dromedaries.

Author

Linguiti, Giovanna, Tragni, Vincenzo, Pierri, Ciro Leonardo, Massari, Serafina, Lefranc, Marie-Paule, Antonacci, Rachele, and Ciccarese, Salvatrice

Subjects

T cell receptors, CAMELS, MOLECULAR cloning, COMPLEMENTARY DNA, PROTEIN-protein interactions

Abstract

The Camelidae species occupy an important immunological niche within the humoral as well as cell mediated immune response. Although recent studies have highlighted that the somatic hypermutation (SHM) shapes the T cell receptor gamma (TRG) and delta (TRD) repertoire in Camelus dromedarius, it is still unclear how γδ T cells use the TRG/TRD receptors and their respective variable V-GAMMA and V-DELTA domains to recognize antigen in an antibodylike fashion. Here we report about 3D structural analyses of the human and dromedary γδ T cell receptor. First, we have estimated the interaction energies at the interface within the human crystallized paired TRG/TRD chains and quantified interaction energies within the same human TRG/TRD chains in complex with the CD1D, an RPI-MH1-LIKE antigen presenting glycoprotein. Then, we used the human TRG/TRD-CD1D complex as template for the 3D structure of the dromedary TRG/TRD-CD1D complex and for guiding the 3D human/dromedary comparative analysis. The choice of mutated TRG alternatively combined with mutated TRD cDNA clones originating from the spleen of one single dromedary was crucial to quantify the strength of the interactions at the protein-protein interface between the paired C. dromedarius TRG and TRD V-domains and between the C. dromedarius TRG/TRD V-domains and CD1D G-domains. Interacting amino acids located in the V-domain Complementarity Determining Regions (CDR) and Framework Regions (FR) according to the IMGT unique numbering for V-domains were identified. The resulting 3D dromedary TRG V-GAMMA combined with TRD VDELTA protein complexes allowed to deduce the most stable gamma/delta chains pairings and to propose a candidate CD1D-restricted γδ T cell receptor complex. [ABSTRACT FROM AUTHOR]

Published

2022

4. Comparative Analysis of the TRB Locus in the Camelus Genus.

Author

Antonacci, Rachele, Bellini, Mariagrazia, Linguiti, Giovanna, Ciccarese, Salvatrice, and Massari, Serafina

Subjects

COMPARATIVE genomics, CAMELS, T cell receptors, FUNCTIONAL groups, T cells, COMPARATIVE studies

Abstract

T cells can be separated into two major subsets based on the heterodimer that forms their T cell receptors. αβ T cells have receptors consisting of α and β chains, while γδ T cells are composed of γ and δ chains. αβ T cells play an essential role within the adaptive immune responses against pathogens. The recent genomic characterization of the Camelus dromedarius T cell receptor β (TRB) locus has allowed us to infer the structure of this locus from the draft genome sequences of its wild and domestic Bactrian congeners, Camelus ferus and Camelus bactrianus. The general structural organization of the wild and domestic Bactrian TRB locus is similar to that of the dromedary, with a pool of TRBV genes positioned at the 5′ end of D-J-C clusters, followed by a single TRBV gene located at the 3′ end with an inverted transcriptional orientation. Despite the fragmented nature of the assemblies, comparative genomics reveals the existence of a perfect co-linearity between the three Old World camel TRB genomic sequences, which enables the transfer of information from one sequence to another and the filling of gaps in the genomic sequences. A virtual camelid TRB locus is hypothesized with the presence of 33 TRBV genes distributed in 26 subgroups. Likewise, in the artiodactyl species, three in-tandem D-J-C clusters, each composed of one TRBD gene, six or seven TRBJ genes, and one TRBC gene, are placed at the 3′ end of the locus. As reported in the ruminant species, a group of four functional TRY genes at the 5′ end and only one gene at the 3′ end, complete the camelid TRB locus. Although the gene content is similar, differences are observed in the TRBV functional repertoire, and genes that are functional in one species are pseudogenes in the other species. Hence, variations in the functional repertoire between dromedary, wild and domestic Bactrian camels, rather than differences in the gene content, may represent the molecular basis explaining the disparity in the TRB repertoire between the Camelus species. Finally, our data contribute to the knowledge about the evolutionary history of Old World camelids. [ABSTRACT FROM AUTHOR]

Published

2019

5. Cytochrome b marker reveals an independent lineage of Stenella coeruleoalba in the Gulf of Taranto.

Author

Ciccarese, Salvatrice, Carlucci, Roberto, Ciani, Elena, Corcella, Eleonora, Cosentino, Annalisa, Fanizza, Carmelo, Linguiti, Giovanna, and Antonacci, Rachele

Subjects

CYTOCHROME b, MICROSATELLITE repeats, POPULATION transfers, MARINE biology, ECOLOGICAL regions, BAYS

Abstract

Heterogeneity in geomorphological and hydrographical conditions throughout the Mediterranean Sea could be the driving factors behind the significant differences between putative sub-populations, although the existence of a large panmictic population of striped dolphin Stenella coeruleoalba (Meyen 1833) in this marine region could not be excluded. However, understanding the ecological implications of such genetic differentiation is difficult, as inferences about gene flow are usually made on evolutionary time scales and not along the ecological time frame over which most management and conservation practices are applied. In fact, as stated by the IUCN Red List, in the case of species assessed as vulnerable, the degree of genetic exchange between populations within a biogeographic region and its ecological implications represent a fascinating challenge that should be very deeply explored. This is even more significant in the Gulf of Taranto (Northern Ionian Sea, Central-eastern Mediterranean Sea), where the geomorphological and hydrographic characteristics support the hypothesis of a separated striped dolphin population genetically diverging from its original Mediterranean counterpart. To assess this hypothesis, a genetic analysis was carried out on DNA fragments of the mitochondrial cyt b gene to explore the evolutionary origin of S. coeruleoalba in the investigated area and its genetic diversity in comparison with available sequences from other Mediterranean and Atlantic populations. Results were discussed indicating ecological implications and suggesting conservation objectives. Moreover, a delphinid systematic was also suggested. [ABSTRACT FROM AUTHOR]

Published

2019

6. Overview of the Germline and Expressed Repertoires of the TRB Genes in Sus scrofa.

Author

Massari, Serafina, Bellini, Mariagrazia, Ciccarese, Salvatrice, and Antonacci, Rachele

Abstract

The α/β T cell receptor (TR) is a complex heterodimer that recognizes antigenic peptides and binds to major histocompatibility complex (MH) molecules. Both α and β chains are encoded by different genes localized on two distinct chromosomal loci: TRA and TRB. The present study employed the recent release of the swine genome assembly to define the genomic organization of the TRB locus. According to the sequencing data, the pig TRB locus spans approximately 400 kb of genomic DNA and consists of 38 TRBV genes belonging to 24 subgroups located upstream of three in tandem TRBD-J-C clusters, which are followed by a TRBV gene in an inverted transcriptional orientation. Comparative analysis confirms that the general organization of the TRB locus is similar among mammalian species, but the number of germline TRBV genes varies greatly even between species belonging to the same order, determining the diversity and specificity of the immune response. However, sequence analysis of the TRB locus also suggests the presence of blocks of conserved homology in the genomic region across mammals. Furthermore, by analysing a public cDNA collection, we identified the usage pattern of the TRBV, TRBD, and TRBJ genes in the adult pig TRB repertoire, and we noted that the expressed TRBV repertoire seems to be broader and more diverse than the germline repertoire, in line with the presence of a high level of TRBV gene polymorphisms. Because the nucleotide differences seems to be principally concentrated in the CDR2 region, it is reasonable to presume that most T cell β-chain diversity can be related to polymorphisms in pig MH molecules. Domestic pigs represent a valuable animal model as they are even more anatomically, genetically and physiologically similar to humans than are mice. Therefore, present knowledge on the genomic organization of the pig TRB locus allows the collection of increased information on the basic aspects of the porcine immune system and contributes to filling the gaps left by rodent models. [ABSTRACT FROM AUTHOR]

Published

2018

7. Drosophilidae monitoring in Apulia (Italy) reveals Drosophila suzukii as one of the four most abundant species.

Author

ANTONACCI, Rachele, TRITTO, Patrizia, CAPPUCCI, Ugo, FANTI, Laura, PIACENTINI, Lucia, and BERLOCO, Maria

Subjects

DROSOPHILA suzukii, DROSOPHILIDAE, SPECIES, SPECIES distribution, POPULATION dynamics, PEST control

Abstract

The knowledge of the endemic drosophilid assemblage is a useful reference to study population dynamics when new species are introduced in a geographical area. The introduction of invasive species can change the structure of the drosophilid community; hence, the distribution data for endemic species are also essential to support efficient pest management. We provide the first description of the natural drosophilid populations (Diptera Drosophilidae) recorded in Apulia, in Southern Italy. The flies, which were collected in a field survey throughout a year, were classified by morphological and molecular analyses by sequencing the barcode fragment of the COI mtDNA gene. The identified species show a distribution of frequencies that varies throughout the year, reflecting a seasonal life cycle peculiar to each species. Among the recorded drosophilids, the potential pest species Drosophila suzukii represents one of the four most abundant species. [ABSTRACT FROM AUTHOR]

Published

2017

8. Genomic and expression analyses of Tursiops truncatus T cell receptor gamma (TRG) and alpha/delta (TRA/TRD) loci reveal a similar basic public γδ repertoire in dolphin and human.

Author

Linguiti, Giovanna, Antonacci, Rachele, Tasco, Gianluca, Grande, Francesco, Casadio, Rita, Massari, Serafina, Castelli, Vito, Consiglio, Arianna, Lefranc, Marie-Paule, and Ciccarese, Salvatrice

Subjects

BOTTLENOSE dolphin, ANIMAL genome mapping, GENE expression, T cell receptors, ANTIGEN receptors

Abstract

Background: The bottlenose dolphin (Tursiops truncatus) is a mammal that belongs to the Cetartiodactyla and have lived in marine ecosystems for nearly 60 millions years. Despite its popularity, our knowledge about its adaptive immunity and evolution is very limited. Furthermore, nothing is known about the genomics and evolution of dolphin antigen receptor immunity. Results: Here we report a evolutionary and expression study of Tursiops truncatus T cell receptor gamma (TRG) and alpha/delta (TRA/TRD) genes. We have identified in silico the TRG and TRA/TRD genes and analyzed the relevant mature transcripts in blood and in skin from four subjects. The dolphin TRG locus is the smallest and simplest of all mammalian loci as yet studied. It shows a genomic organization comprising two variable (V1 and V2), three joining (J1, J2 and J3) and a single constant (C), genes. Despite the fragmented nature of the genome assemblies, we deduced the TRA/TRD locus organization, with the recent TRDV1 subgroup genes duplications, as it is expected in artiodactyls. Expression analysis from blood of a subject allowed us to assign unambiguously eight TRAV genes to those annotated in the genomic sequence and to twelve new genes, belonging to five different subgroups. All transcripts were productive and no relevant biases towards TRAV-J rearrangements are observed. Blood and skin from four unrelated subjects expression data provide evidence for an unusual ratio of productive/unproductive transcripts which arise from the TRG V-J gene rearrangement and for a "public" gamma delta TR repertoire. The productive cDNA sequences, shared both in the same and in different individuals, include biases of the TRGV1 and TRGJ2 genes. The high frequency of TRGV1-J2/TRDV1- D1-J4 productive rearrangements in dolphins may represent an interesting oligo-clonal population comparable to that found in human with the TRGV9- JP/TRDV2-D-J T cells and in primates. Conclusions: Although the features of the TRG and TRA/TRD loci organization reflect those of the so far examined artiodactyls, genomic results highlight in dolphin an unusually simple TRG locus. The cDNA analysis reveal productive TRA/TRD transcripts and unusual ratios of productive/unproductive TRG transcripts. Comparing multiple different individuals, evidence is found for a "public" gamma delta TCR repertoire thus suggesting that in dolphins as in human the gamma delta TCR repertoire is accompanied by selection for public gamma chain. [ABSTRACT FROM AUTHOR]

Published

2016

9. 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

10. Genomic characteristics of the T cell receptor (TRB) locus in the rabbit ( Oryctolagus cuniculus) revealed by comparative and phylogenetic analyses.

Author

Antonacci, Rachele, Giannico, Francesco, Ciccarese, Salvatrice, and Massari, Serafina

Subjects

T cell receptors, EUROPEAN rabbit, TRYPSINOGEN, LABORATORY rabbits, COMPARATIVE genomics

Abstract

The present study identifies the genomic structure and the gene content of the T cell receptor beta (TRB) locus in the Oryctolagus cuniculus whole genome assembly. The rabbit locus spans less than 600 Kb and the general genomic organization is highly conserved with respect to other mammalian species. A pool of 74 TRB variable (TRBV) genes distributed in 24 subgroups are located upstream of two in tandem-aligned D-J-C gene clusters, each composed of one TRBD, six TRBJ genes, and one TRBC gene, followed by a single TRBV gene with an inverted transcriptional orientation. All TRB genes (functional, ORF, pseudogenes) of this paper have been approved by the IMGT/WHO-IUIS nomenclature committee. Additionally, five potentially functional protease serine (PRSS) trypsinogen or trypsinogen-like genes were identified: two in tandem PRSS-like genes, followed by two PRSS genes with unique traits, lie downstream of the TRBV1 gene and one PRSS gene is located about 400 Kb away downstream of the TRBV genes. Comparative and phylogenetic analyses revealed that multiple duplication events within a few subgroups have generated the germline repertoire of the rabbit TRBV genes, which is substantially larger than those described in humans, mice, and dogs, suggesting that a strong evolutionary pressure has selected the development of a species-specific TRBV repertoire. Hence, the genomic organization of the TRB locus in the genomes appears to be the result of a balance between the maintenance of a core-number of genes essential for the immunological performances and the requirement of newly arisen genes. [ABSTRACT FROM AUTHOR]

Published

2014

11. Generation of diversity by somatic mutation in the C amelus dromedarius T-cell receptor gamma variable domains.

Author

Vaccarelli, Giovanna, Antonacci, Rachele, Tasco, Gianluca, Yang, Fengtang, Giordano, Luca, El Ashmaoui, Hassan M., Hassanane, Mohamed S., Massari, Serafina, Casadio, Rita, and Ciccarese, Salvatrice

Abstract

In jawed vertebrates the V-( D)- J rearrangement is the main mechanism generating limitless variations of antigen-specific receptors, immunoglobulins ( IGs), and T-cell receptors ( TCRs) from few genes. Once the initial diversity is established in primary lymphoid organs, further diversification occurs in IGs by somatic hypermutation, a mechanism from which rearranged TCR genes were thought to be excluded. Here, we report the locus organization and expression of the T-cell receptor gamma ( TCRG) genes in the Arabian camel ( C amelus dromedarius). Expression data provide evidence that dromedary utilizes only two TCRG V- J genomic arrangements and, as expected, CDR3 contributes the major variability in the V domain. The data also suggest that diversity might be generated by mutation in the productively rearranged TCRGV genes. As for IG genes, the mutational target is biased toward G and C bases and ( A/ G/ T) G( C/ T)( A/ T) motif (or DGYW). The replacement and synonymous substitutions ( R/ S) ratios in TCRGV regions are higher for CDR than for framework region, thus suggesting selection toward amino acid changes in CDR. Using the counterpart human TCR γδ receptor as a template, structural models computed adopting a comparative procedure show that nonconservative mutations contribute to diversity in CDR2 and at the γδ V domain interface. [ABSTRACT FROM AUTHOR]

Published

2012

12. Structural and comparative analysis of the T cell receptor gamma (TRG) locus in Oryctolagus cuniculus.

Author

Massari, Serafina, Ciccarese, Salvatrice, and Antonacci, Rachele

Subjects

T cell receptors, LOCUS (Genetics), ORYCTOLAGUS, GENOMES, GENE libraries, COMPARATIVE genomics

Abstract

In mammals, T cells develop along two discrete pathways characterized by expression of either the αβ or the γδT cell receptors. Human, mouse, and dog display a low peripheral blood γδ T cell percentage, while sheep accounts for a high proportion of γδ T lymphocytes. In all these species, the genomic organization of the T cell receptor gamma (TRG) locus is well known. To gain further insight into the evolutionary significance of the γδ T cell lineage, the present study has defined the genomic organization of the TRG locus in rabbit ( Oryctolagus cuniculus), another mammalian γδ high species, as deduced from the genome assembly. The rabbit TRG locus spans about 70 kb and consists of ten TRGV, two TRGJ genes, and one TRGC gene located 5′ to 3′ in the locus. When we compared the rabbit sequence with the human, mouse, sheep, and dog counterparts, a higher identity with human as well as sheep with respect to mouse and dog was evident, providing that in the different mammalian species, the TRG locus appears to have evolved independently without any correlation with the γδ condition. The complete sequence of the rabbit TRG locus described here provides also a resource for supporting functional studies especially in the context of the γδ T cell function. [ABSTRACT FROM AUTHOR]

Published

2012

13. Extensive analysis of D-J-C arrangements allows the identification of different mechanisms enhancing the diversity in sheep T cell receptor β-chain repertoire.

Author

Tommaso, Silvia Di, Antonacci, Rachele, Ciccarese, Salvatrice, and Massari, Serafina

Subjects

LOCUS (Genetics), MAMMALS, GENOMICS, GENETICS, GENOMES, ANIMAL genetics, GENETIC transcription

Abstract

Background: In most species of mammals, the TRB locus has the common feature of a library of TRBV genes positioned at the 5′- end of two in tandem aligned D-J-C gene clusters, each composed of a single TRBD gene, 6-7 TRBJ genes and one TRBC gene. An enhancer located at the 3'end of the last TRBC and a well-defined promoter situated at the 5'end of the TRBD gene and/or a undefined promoter situated at the 5'end of the TRBD2 are sufficient to generate the full recombinase accessibility at the locus. In ruminant species, the 3'end of the TRB locus is characterized by the presence of three D-J-C clusters, each constituted by a single TRBD, 5-7 TRBJ and one TRBC genes with the center cluster showing a structure combined with the clusters upstream and downstream, suggesting that a unequal crossover occurred in the duplication. An enhancer downstream the last TRBC, and a promoter at the 5′-end of each TRBD gene are also present. Results: In this paper we focused our attention on the analysis of a large number of sheep TR β- chain transcripts derived from four different lymphoid tissues of three diverse sheep breed animals to certify the use and frequency of the three gene clusters in the β-chain repertoire. As the sheep TRB locus genomic organization is known, the exact interpretation of the V-D-J rearrangements was fully determined. Our results clearly demonstrate that sheep β-chain constitutes a level of variability that is substantially larger than that described in other mammalian species. This is due not only to the increase of the number of D and J genes available to the somatic recombination, but also to the presence of the trans-rearrangement process. Moreover, the functional complexity of β-chain repertoire is resolved by other mechanisms such as alternative cis- and trans-splicing and recombinational diversification that seems to affect the variety of the constant region. Conclusion: All together our data demonstrate that a disparate set of molecular mechanisms operate to perform a diversified repertoire in the sheep β-chain and this could confer some special biological properties to the corresponding α β T cells in the ruminant lineage. [ABSTRACT FROM AUTHOR]

Published

2010

14. The Organization of the Pig T-Cell Receptor γ (TRG) Locus Provides Insights into the Evolutionary Patterns of the TRG Genes across Cetartiodactyla.

Author

Linguiti, Giovanna, Giannico, Francesco, D'Addabbo, Pietro, Pala, Angela, Caputi Jambrenghi, Anna, Ciccarese, Salvatrice, Massari, Serafina, and Antonacci, Rachele

Subjects

LOCUS (Genetics), T cells, GENES, SWINE, WILD boar

Abstract

The domestic pig (Sus scrofa) is a species representative of the Suina, one of the four suborders within Cetartiodactyla. In this paper, we reported our analysis of the pig TRG locus in comparison with the loci of species representative of the Ruminantia, Tylopoda, and Cetacea suborders. The pig TRG genomic structure reiterates the peculiarity of the organization of Cetartiodactyla loci in TRGC "cassettes", each containing the basic V-J-J-C unit. Eighteen genes arranged in four TRGC cassettes, form the pig TRG locus. All the functional TRG genes were expressed, and the TRGV genes preferentially rearrange with the TRGJ genes within their own cassette, which correlates the diversity of the γ-chain repertoire with the number of cassettes. Among them, the TRGC5, located at the 5′ end of the locus, is the only cassette that retains a marked homology with the corresponding TRGC cassettes of all the analyzed species. The preservation of the TRGC5 cassette for such a long evolutionary time presumes a highly specialized function of its genes, which could be essential for the survival of species. Therefore, the maintenance of this cassette in pigs confirms that it is the most evolutionarily ancient within Cetartiodactyla, and it has undergone a process of duplication to give rise to the other TRGC cassettes in the different artiodactyl species in a lineage-specific manner. [ABSTRACT FROM AUTHOR]

Published

2022

15. Genomic organization and recombinational unit duplication-driven evolution of ovine and bovine T cell receptor gamma loci.

Author

Vaccarelli, Giovanna, Miccoli, Maria C., Antonacci, Rachele, Pesole, Graziano, and Ciccarese, Salvatrice

Subjects

LOCUS (Genetics), T cell receptors, SHEEP, CATTLE genome mapping, BIOLOGICAL evolution

Abstract

Background: In humans and mice ("γσ low species") less than 5% of the peripheral blood T lymphocytes are gamma/delta T cells, whereas in chicken and artiodactyls ("("γσ high species") gamma/delta T cells represent about half of the T cells in peripheral blood. In cattle and sheep (Bovidae) two paralogous T cell receptor gamma loci (TRG1 and TRG2) have been found. TRG1 is located on 4q3.1, within a region of homology with the human TRG locus on chromosome 7, while TRG2 localizes on 4q2.2 and appears to be unique to ruminants. The purpose of this study was the sequencing of the genomic regions encompassing both loci in a "("γσ high" organism and the analysis of their evolutionary history. Results: We obtained the contiguous genomic sequences of the complete sheep TRG1 and TRG2 loci gene repertoire and we performed cattle/sheep sequence analysis comparison using data available through public databases. Dot plot similarity matrix comparing the two sheep loci with each other has shown that variable (V), joining (J) and constant (C) genes have evolved through a series of duplication events involving either entire cassettes, each containing the basic V-J-J-C recombinational unit, or single V genes. The phylogenetic behaviour of the eight enhancer-like elements found in the sheep, compared with the single copy present in the human TRG locus, and evidence from concordant insertions of repetitive elements in all analyzed TRGJ blocks allowed us to infer an evolutionary scenario which highlights the genetic "flexibility" of this region and the duplication-driven evolution of gene cassettes. The strong similarity of the human and Bovidae intergenic J-J-C regions, which display an enhancer-like element at their 3' ends, further supports their key role in duplications. Conclusion: We propose that only duplications of entire J-J-C regions that possessed an enhancer-like element at their 3' end, and acquired at least one V segment at their 5' end, were selected and fixed as functional recombinational units. [ABSTRACT FROM AUTHOR]

Published

2008

16. Genomic organization of sheep TRDJ segments and their expression in the δ-chain repertoire in thymus.

Author

Massari, Serafina, Antonacci, Rachele, Lanave, Cecilia, and Ciccarese, Salvatrice

Subjects

GENOMICS, DNA, RNA, SHEEP, POLYMERASE chain reaction, GENES, THYMUS, CHROMOSOMES

Abstract

cDNA sequences obtained from polymerase chain reaction products of reverse-transcribed RNA from sheep thymus showed the presence of a large number of members of the TRDV1 gene family. Some are TRDV1 genes also found in peripheral blood lymphocytes, while four genes had not been described so far. The cDNA sequences also showed extensive junctional diversity and a preferential usage of the three TRDJ elements. We characterized the genomic organization of the sheep TRDJ locus and detected a correlation between the nonrandom usage of TRDJ elements during development and their chromosomal order. [ABSTRACT FROM AUTHOR]

Published

2000

17. Cloning and comparative mapping of recently evolved human chromosome 22-specific alpha satellite DNA.

Author

Rocchi, Mariano, Archidiacono, Nicoletta, Antonacci, Rachele, Finelli, Palma, D'Aiuto, Leonardo, Carbone, Roberta, Lindsay, Elizabeth, and Baldini, Antonio

Published

1994

18. Characterization of chimpanzee-hamster hybrids by chromosome painting.

Author

Archidiacono, Nicoletta, Marzella, Rosalia, Finelli, Palma, Antonacci, Rachele, Jones, Carol, and Rocchi, Mariano

Published

1994

19. Duplication of a Gene-Rich Cluster between 16p11.1 and Xq28: A Novel Pericentromeric-Directed Mechanism for Paralogous Genome Evolution.

Author

Eichler, Evan E., Lu, Fei, Shen, Ying, Antonacci, Rachele, Jurecic, Vesna, Doggett, Norman A., Moyzis, Robert K., Baldini, Antonio, Gibbs, Richard A., and Nelson, David L.

Published

1996

20. The T Cell Receptor (TRB) Locus in Tursiops truncatus : From Sequence to Structure of the Alpha/Beta Heterodimer in the Human/Dolphin Comparison.

Author

Linguiti, Giovanna, Kossida, Sofia, Pierri, Ciro Leonardo, Jabado-Michaloud, Joumana, Folch, Geraldine, Massari, Serafina, Lefranc, Marie-Paule, Ciccarese, Salvatrice, and Antonacci, Rachele

Subjects

T cell receptors, BOTTLENOSE dolphin, COLONIZATION (Ecology), MAJOR histocompatibility complex, FETAL hemoglobin, THYROID hormone regulation

Abstract

The bottlenose dolphin (Tursiops truncatus) belongs to the Cetartiodactyla and, similarly to other cetaceans, represents the most successful mammalian colonization of the aquatic environment. Here we report a genomic, evolutionary, and expression study of T. truncatus T cell receptor beta (TRB) genes. Although the organization of the dolphin TRB locus is similar to that of the other artiodactyl species, with three in tandem D-J-C clusters located at its 3′ end, its uniqueness is given by the reduction of the total length due essentially to the absence of duplications and to the deletions that have drastically reduced the number of the germline TRBV genes. We have analyzed the relevant mature transcripts from two subjects. The simultaneous availability of rearranged T cell receptor α (TRA) and TRB cDNA from the peripheral blood of one of the two specimens, and the human/dolphin amino acids multi-sequence alignments, allowed us to calculate the most likely interactions at the protein interface between the alpha/beta heterodimer in complex with major histocompatibility class I (MH1) protein. Interacting amino acids located in the complementarity-determining region according to IMGT numbering (CDR-IMGT) of the dolphin variable V-alpha and beta domains were identified. According to comparative modelization, the atom pair contact sites analysis between the human MH1 grove (G) domains and the T cell receptor (TR) V domains confirms conservation of the structure of the dolphin TR/pMH. [ABSTRACT FROM AUTHOR]

Published

2021

21. The Genomic Organisation of the TRA/TRD Locus Validates the Peculiar Characteristics of Dromedary δ-Chain Expression.

Author

Massari, Serafina, Linguiti, Giovanna, Giannico, Francesco, D'Addabbo, Pietro, Ciccarese, Salvatrice, and Antonacci, Rachele

Subjects

CAMELS, T cell receptors, SHEEP breeds, T cells, SOMATIC mutation

Abstract

The role of γδ T cells in vertebrate immunity is still an unsolved puzzle. Species such as humans and mice display a low percentage of these T lymphocytes (i.e., "γδ low species") with a restricted diversity of γδ T cell receptors (TR). Conversely, artiodactyl species (i.e., "γδ high species") account for a high proportion of γδ T cells with large γ and δ chain repertoires. The genomic organisation of the TR γ (TRG) and δ (TRD) loci has been determined in sheep and cattle, noting that a wide number of germline genes that encode for γ and δ chains characterise their genomes. Taking advantage of the current improved version of the genome assembly, we have investigated the genomic structure and gene content of the dromedary TRD locus, which, as in the other mammalian species, is nested within the TR α (TRA) genes. The most remarkable finding was the identification of a very limited number of variable germline genes (TRDV) compared to sheep and cattle, which supports our previous expression analyses for which the somatic hypermutation mechanism is able to enlarge and diversify the primary repertoire of dromedary δ chains. Furthermore, the comparison between genomic and expressed sequences reveals that D genes, up to four incorporated in a transcript, greatly contribute to the increased diversity of the dromedary δ chain antigen binding-site. [ABSTRACT FROM AUTHOR]

Published

2021

22. Paracellular and Transcellular Leukocytes Diapedesis Are Divergent but Interconnected Evolutionary Events.

Author

Mickael, Michel-Edwar, Kubick, Norwin, Klimovich, Pavel, Flournoy, Patrick Henckell, Bieńkowska, Irmina, Sacharczuk, Mariusz, and Antonacci, Rachele

Subjects

LEUCOCYTES, GENES, FORCED migration, IMMUNE system, ARTIFICIAL intelligence, BLOOD-brain barrier

Abstract

Infiltration of the endothelial layer of the blood-brain barrier by leukocytes plays a critical role in health and disease. When passing through the endothelial layer during the diapedesis process lymphocytes can either follow a paracellular route or a transcellular one. There is a debate whether these two processes constitute one mechanism, or they form two evolutionary distinct migration pathways. We used artificial intelligence, phylogenetic analysis, HH search, ancestor sequence reconstruction to investigate further this intriguing question. We found that the two systems share several ancient components, such as RhoA protein that plays a critical role in controlling actin movement in both mechanisms. However, some of the key components differ between these two transmigration processes. CAV1 genes emerged during Trichoplax adhaerens, and it was only reported in transcellular process. Paracellular process is dependent on PECAM1. PECAM1 emerged from FASL5 during Zebrafish divergence. Lastly, both systems employ late divergent genes such as ICAM1 and VECAM1. Taken together, our results suggest that these two systems constitute two different mechanical sensing mechanisms of immune cell infiltrations of the brain, yet these two systems are connected. We postulate that the mechanical properties of the cellular polarity is the main driving force determining the migration pathway. Our analysis indicates that both systems coevolved with immune cells, evolving to a higher level of complexity in association with the evolution of the immune system. [ABSTRACT FROM AUTHOR]

Published

2021

23. Epigenetic Evolution of ACE2 and IL-6 Genes: Non-Canonical Interferon-Stimulated Genes Correlate to COVID-19 Susceptibility in Vertebrates.

Author

Sang, Eric R., Tian, Yun, Miller, Laura C., Sang, Yongming, Antonacci, Rachele, Massari, Sara, and Ciccarese, Salvatrice

Subjects

INTERLEUKIN receptors, EPIGENOMICS, COVID-19, ANGIOTENSIN converting enzyme, SARS-CoV-2, EPIGENETICS, INTERLEUKIN-6

Abstract

The current novel coronavirus disease (COVID-19) has spread globally within a matter of months. The virus establishes a success in balancing its deadliness and contagiousness, and causes substantial differences in susceptibility and disease progression in people of different ages, genders and pre-existing comorbidities. These host factors are subjected to epigenetic regulation; therefore, relevant analyses on some key genes underlying COVID-19 pathogenesis were performed to longitudinally decipher their epigenetic correlation to COVID-19 susceptibility. The genes of host angiotensin-converting enzyme 2 (ACE2, as the major virus receptor) and interleukin (IL)-6 (a key immuno-pathological factor triggering cytokine storm) were shown to evince active epigenetic evolution via histone modification and cis/trans-factors interaction across different vertebrate species. Extensive analyses revealed that ACE2 ad IL-6 genes are among a subset of non-canonical interferon-stimulated genes (non-ISGs), which have been designated for their unconventional responses to interferons (IFNs) and inflammatory stimuli through an epigenetic cascade. Furthermore, significantly higher positive histone modification markers and position weight matrix (PWM) scores of key cis-elements corresponding to inflammatory and IFN signaling, were discovered in both ACE2 and IL6 gene promoters across representative COVID-19-susceptible species compared to unsusceptible ones. The findings characterize ACE2 and IL-6 genes as non-ISGs that respond differently to inflammatory and IFN signaling from the canonical ISGs. The epigenetic properties ACE2 and IL-6 genes may serve as biomarkers to longitudinally predict COVID-19 susceptibility in vertebrates and partially explain COVID-19 inequality in people of different subgroups. [ABSTRACT FROM AUTHOR]

Published

2021

24. The expansion of the TRB and TRG genes in domestic goats (Capra hircus) is characteristic of the ruminant species.

Author

Giannico, Francesco, Massari, Serafina, Caputi Jambrenghi, Anna, Soriano, Adriano, Pala, Angela, Linguiti, Giovanna, Ciccarese, Salvatrice, and Antonacci, Rachele

Subjects

RUMINANTS, GOATS, MILK yield, GENES, PESTE des petits ruminants

Abstract

Background: Goats (Capra hircus), one of the first domesticated species, are economically important for milk and meat production, and their broad geographical distribution reflects their successful adaptation to diverse environmental conditions. Despite the relevance of this species, the genetic research on the goat traits is limited compared to other domestic species. Thanks to the latest goat reference genomic sequence (ARS1), which is considered to be one of the most continuous assemblies in livestock, we deduced the genomic structure of the T cell receptor beta (TRB) and gamma (TRG) loci in this ruminant species. Results: Our analyses revealed that although the organization of the goat TRB locus is broadly similar to that of the other artiodactyl species, with three in-tandem D-J-C clusters located at the 3′ end, a complex and extensive series of duplications have occurred in the V genes at the 5′ end, leading to a marked expansion in the number of the TRBV genes. This phenomenon appears to be a feature of the ruminant lineage since similar gene expansions have also occurred in sheep and cattle. Likewise, the general organization of the goat TRG genes is typical of ruminant species studied so far, with two paralogous TRG loci, TRG1 and TRG2, located in two distinct and distant positions on the same chromosome as result of a split in the ancestral locus. Each TRG locus consists of reiterated V-J-J-C cassettes, with the goat TRG2 containing an additional cassette relative to the corresponding sheep and cattle loci. Conclusions: Taken together, these findings demonstrate that strong evolutionary pressures in the ruminant lineage have selected for the development of enlarged sets of TRB and TRG genes that contribute to a diverse T cell receptor repertoire. However, differences observed among the goat, sheep and cattle TRB and TRG genes indicate that distinct evolutionary histories, with independent expansions and/or contractions, have also affected each ruminant species. [ABSTRACT FROM AUTHOR]

Published

2020

25. Evolution of the T-Cell Receptor (TR) Loci in the Adaptive Immune Response: The Tale of the TRG Locus in Mammals.

Author

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

Subjects

IMMUNE response, T cells, CELLULAR immunity, T cell receptors, B cells, MAMMALS

Abstract

T lymphocytes are the principal actors of vertebrates' cell-mediated immunity. Like B cells, they can recognize an unlimited number of foreign molecules through their antigen-specific heterodimer receptors (TRs), which consist of αβ or γδ chains. The diversity of the TRs is mainly due to the unique organization of the genes encoding the α, β, γ, and δ chains. For each chain, multi-gene families are arranged in a TR locus, and their expression is guaranteed by the somatic recombination process. A great plasticity of the gene organization within the TR loci exists among species. Marked structural differences affect the TR γ (TRG) locus. The recent sequencing of multiple whole genome provides an opportunity to examine the TR gene repertoire in a systematic and consistent fashion. In this review, we report the most recent findings on the genomic organization of TRG loci in mammalian species in order to show differences and similarities. The comparison revealed remarkable diversification of both the genomic organization and gene repertoire across species, but also unexpected evolutionary conservation, which highlights the important role of the T cells in the immune response. [ABSTRACT FROM AUTHOR]

Published

2020