Your search keyword '"Papadogiannis V"' showing total 11 results

1. Linkage mapping, comparative genome analysis, and QTL detection for growth in a non-model teleost, the meagre Argyrosomus regius, using ddRAD sequencing

Author

Nousias, O., Oikonomou, S., Manousaki, T., Papadogiannis, V., Angelova, N., Tsaparis, D., Tsakogiannis, A., Duncan, N., Estevez, A., Tzokas, K., Pavlidis, M., Chatziplis, D., and Tsigenopoulos, C. S.

Published

2022

2. The genetics of cranial sensory ganglia development and evolution

Author

Papadogiannis, V and Shimeld, S

Abstract

Vertebrates perceive the world through sensory neurons of their cranial nerves that connect primary sensory receptors to the brain. The bodies of these neurons are organized in cranial sensory ganglia (CSG) in the head. CSG are considered a vertebrate novelty and they develop from neurogenic placodes and neural crest. The genetic network underlying their early development has been relatively well studied and placodal cell homologs have been suggested in other chordates. However, knowledge has been lacking on the evolution of different ganglia and their neurons. Undertaking a comparative approach, cyclostomes and tunicates are used here to look into the molecular identity and evolution of CSG sensory cells. First, conserved pan-vertebrate markers of the ganglia are identified by exploring the expression and specificity of candidate genes in lamprey embryos. Two of these marker gene families are the starting ground for a comparative investigation of sensory cell types between vertebrates and other chordates. Conserved expression and regulation of the estrogen related receptor (ERR) between lamprey and gnathostomes is presented. It is revealed that a single ERR homolog acquired a role in the development of the vestibuloacoustic ganglion in early vertebrates. Invertebrate sensory expression highlights ERR as an ancient sensory cell marker in bilaterian animals, suggesting a mode of evolution at cell type level. The Hmx homeobox gene family is then identified to ubiquitously mark all CSG and possess conserved genomic architecture across vertebrates. A unique enhancer pair is reported, derived by tandem duplication, connected to ancestral regulation of expression in the central and peripheral nervous systems. Hmx expression and function in Ciona embryos, combined with vertebrate data, provide evidence of homology between CSG and tunicate sensory neurons. Finally, a review is carried out, discussing how placodal and CSG components gradually evolved and assembled under new genomic organization and control in vertebrates.

Published

2020

3. The hydrobioid freshwater gastropods (Caenogastropoda, Truncatelloidea) of Greece: New records, taxonomic reassessments using DNA sequence data and an update of the IUCN red list categories

Author

Radea, C. Parmakelis, A. Papadogiannis, V. Charou, D. Triantis, K.A.

Abstract

Hydrobioid freshwater gastropods were collected from mainland and insular Greece. Several threatened taxa, such as Graecoanatolica vegorriticola, Pseudamnicola negropontina, Pseudamnicola pieperi, Pseudobithynia eubooensis and Pseudoislamia balcanica, were recorded from new localities. Trichonia trichonica, which has been considered extinct from its type locality for the last twenty eight years, was re-discovered, whereas the presence of Daphniola exigua, G. vegorriticola, Marstoniopsis graeca, P. pieperi and Pseudobithynia trichonis in their type localities was verified. The taxonomic status of P. negropontina and the newly discovered populations of G. vegorriticola was elucidated using COI sequence data. The new data recorded during this survey indicate that the IUCN status of some Greek endemic hydrobioids needs to be updated. © Canella Radea et al.

Published

2013

4. Comprehensive characterization of the neurogenic and neuroprotective action of a novel TrkB agonist using mouse and human stem cell models of Alzheimer's disease.

Author

Charou D, Rogdakis T, Latorrata A, Valcarcel M, Papadogiannis V, Athanasiou C, Tsengenes A, Papadopoulou MA, Lypitkas D, Lavigne MD, Katsila T, Wade RC, Cader MZ, Calogeropoulou T, Gravanis A, and Charalampopoulos I

Subjects

Animals, Humans, Mice, Brain-Derived Neurotrophic Factor metabolism, Brain-Derived Neurotrophic Factor genetics, Cell Differentiation drug effects, Cell Proliferation drug effects, Amyloid beta-Peptides metabolism, Hippocampus drug effects, Hippocampus metabolism, Alzheimer Disease drug therapy, Alzheimer Disease metabolism, Alzheimer Disease pathology, Neurogenesis drug effects, Receptor, trkB metabolism, Receptor, trkB agonists, Receptor, trkB genetics, Neural Stem Cells drug effects, Neural Stem Cells metabolism, Neural Stem Cells cytology, Neuroprotective Agents pharmacology

Abstract

Background: Neural stem cell (NSC) proliferation and differentiation in the mammalian brain decreases to minimal levels postnatally. Nevertheless, neurogenic niches persist in the adult cortex and hippocampus in rodents, primates and humans, with adult NSC differentiation sharing key regulatory mechanisms with development. Adult neurogenesis impairments have been linked to Alzheimer's disease (AD) pathology. Addressing these impairments by using neurotrophic factors is a promising new avenue for therapeutic intervention based on neurogenesis. However, this possibility has been hindered by technical difficulties of using in-vivo models to conduct screens, including working with scarce NSCs in the adult brain and differences between human and mouse models or ethical limitations., Methods: Here, we use a combination of mouse and human stem cell models for comprehensive in-vitro characterization of a novel neurogenic compound, focusing on the brain-derived neurotrophic factor (BDNF) pathway. The ability of ENT-A011, a steroidal dehydroepiandrosterone derivative, to activate the tyrosine receptor kinase B (TrkB) receptor was tested through western blotting in NIH-3T3 cells and its neurogenic and neuroprotective action were assessed through proliferation, cell death and Amyloid-β (Aβ) toxicity assays in mouse primary adult hippocampal NSCs, mouse embryonic cortical NSCs and neural progenitor cells (NPCs) differentiated from three human induced pluripotent stem cell lines from healthy and AD donors. RNA-seq profiling was used to assess if the compound acts through the same gene network as BDNF in human NPCs., Results: ENT-A011 was able to increase proliferation of mouse primary adult hippocampal NSCs and embryonic cortical NSCs, in the absence of EGF/FGF, while reducing Aβ-induced cell death, acting selectively through TrkB activation. The compound was able to increase astrocytic gene markers involved in NSC maintenance, protect hippocampal neurons from Αβ toxicity and prevent synapse loss after Aβ treatment. ENT-A011 successfully induces proliferation and prevents cell death after Aβ toxicity in human NPCs, acting through a core gene network shared with BDNF as shown through RNA-seq., Conclusions: Our work characterizes a novel BDNF mimetic with preferable pharmacological properties and neurogenic and neuroprotective actions in Alzheimer's disease via stem cell-based screening, demonstrating the promise of stem cell systems for short-listing competitive candidates for further testing., (© 2024. The Author(s).)

Published

2024

5. Extensive Loss and Gain of Conserved Noncoding Elements During Early Teleost Evolution.

Author

Iliopoulou E, Papadogiannis V, Tsigenopoulos CS, and Manousaki T

Subjects

Animals, Genome, Synteny, Fishes genetics, Evolution, Molecular, Conserved Sequence, Phylogeny

Abstract

Conserved noncoding elements in vertebrates are enriched around transcription factor loci associated with development. However, loss and rapid divergence of conserved noncoding elements has been reported in teleost fish, albeit taking only few genomes into consideration. Taking advantage of the recent increase in high-quality teleost genomes, we focus on studying the evolution of teleost conserved noncoding elements, carrying out targeted genomic alignments and comparisons within the teleost phylogeny to detect conserved noncoding elements and reconstruct the ancestral teleost conserved noncoding elements repertoire. This teleost-centric approach confirms previous observations of extensive vertebrate conserved noncoding elements loss early in teleost evolution, but also reveals massive conserved noncoding elements gain in the teleost stem-group over 300 million years ago. Using synteny-based association to link conserved noncoding elements to their putatively regulated target genes, we show the most teleost gained conserved noncoding elements are found in the vicinity of orthologous loci involved in transcriptional regulation and embryonic development that are also associated with conserved noncoding elements in other vertebrates. Moreover, teleost and vertebrate conserved noncoding elements share a highly similar motif and transcription factor binding site vocabulary. We suggest that early teleost conserved noncoding element gains reflect a restructuring of the ancestral conserved noncoding element repertoire through both extreme divergence and de novo emergence. Finally, we support newly identified pan-teleost conserved noncoding elements have potential for accurate resolution of teleost phylogenetic placements in par with coding sequences, unlike ancestral only elements shared with spotted gar. This work provides new insight into conserved noncoding element evolution with great value for follow-up work on phylogenomics, comparative genomics, and the study of gene regulation evolution in teleosts., (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published

2024

6. Evolution of the expression and regulation of the nuclear hormone receptor ERR gene family in the chordate lineage.

Author

Papadogiannis V, Hockman D, Mercurio S, Ramsay C, Hintze M, Patthey C, Streit A, and Shimeld SM

Subjects

Chick Embryo, Animals, Evolution, Molecular, Vertebrates, Conserved Sequence, Lampreys genetics, Lampreys metabolism, Receptors, Cytoplasmic and Nuclear genetics, Gene Expression Regulation, Developmental genetics, Phylogeny, Chordata genetics

Abstract

The Estrogen Related Receptor (ERR) nuclear hormone receptor genes have a wide diversity of roles in vertebrate development. In embryos, ERR genes are expressed in several tissues, including the central and peripheral nervous systems. Here we seek to establish the evolutionary history of chordate ERR genes, their expression and their regulation. We examine ERR expression in mollusc, amphioxus and sea squirt embryos, finding the single ERR orthologue is expressed in the nervous system in all three, with muscle expression also found in the two chordates. We show that most jawed vertebrates and lampreys have four ERR paralogues, and that vertebrate ERR genes were ancestrally linked to Estrogen Receptor genes. One of the lamprey paralogues shares conserved expression domains with jawed vertebrate ERRγ in the embryonic vestibuloacoustic ganglion, eye, brain and spinal cord. Hypothesising that conserved expression derives from conserved regulation, we identify a suite of pan-vertebrate conserved non-coding sequences in ERR introns. We use transgenesis in lamprey and chicken embryos to show that these sequences are regulatory and drive reporter gene expression in the nervous system. Our data suggest an ancient association between ERR and the nervous system, including expression in cells associated with photosensation and mechanosensation. This includes the origin in the vertebrate common ancestor of a suite of regulatory elements in the 3' introns that drove nervous system expression and have been conserved from this point onwards., (Copyright © 2023. Published by Elsevier Inc.)

Published

2023

7. Chromosome genome assembly for the meagre, Argyrosomus regius , reveals species adaptations and sciaenid sex-related locus evolution.

Author

Papadogiannis V, Manousaki T, Nousias O, Tsakogiannis A, Kristoffersen JB, Mylonas CC, Batargias C, Chatziplis D, and Tsigenopoulos CS

Abstract

The meagre, Argyrosomus regius , has recently become a species of increasing economic interest for the Mediterranean aquaculture and there is ongoing work to boost production efficiency through selective breeding. Access to the complete genomic sequence will provide an essential resource for studying quantitative trait-associated loci and exploring the genetic diversity of different wild populations and aquaculture stocks in more detail. Here, we present the first complete genome for A. regius , produced through a combination of long and short read technologies and an efficient in-house developed pipeline for assembly and polishing. Scaffolding using previous linkage map data allowed us to reconstruct a chromosome level assembly with high completeness, complemented with gene annotation and repeat masking. The 696 Mb long assembly has an N50 = 27.87 Mb and an L50 = 12, with 92.85% of its length placed in 24 chromosomes. We use this new resource to study the evolution of the meagre genome and other Sciaenids, via a comparative analysis of 25 high-quality teleost genomes. Combining a rigorous investigation of gene duplications with base-wise conservation analysis, we identify candidate loci related to immune, fat metabolism and growth adaptations in the meagre. Following phylogenomic reconstruction, we show highly conserved synteny within Sciaenidae. In contrast, we report rapidly evolving syntenic rearrangements and gene copy changes in the sex-related dmrt1 neighbourhood in meagre and other members of the family. These novel genomic datasets and findings will add important new tools for aquaculture studies and greatly facilitate husbandry and breeding work in the species., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Papadogiannis, Manousaki, Nousias, Tsakogiannis, Kristoffersen, Mylonas, Batargias, Chatziplis and Tsigenopoulos.)

Published

2023

8. Hmx gene conservation identifies the origin of vertebrate cranial ganglia.

Author

Papadogiannis V, Pennati A, Parker HJ, Rothbächer U, Patthey C, Bronner ME, and Shimeld SM

Subjects

Animals, Biological Evolution, Neural Crest, Ciona, Ciona intestinalis genetics, Ganglia, Vertebrates genetics

Abstract

The evolutionary origin of vertebrates included innovations in sensory processing associated with the acquisition of a predatory lifestyle 1 . Vertebrates perceive external stimuli through sensory systems serviced by cranial sensory ganglia, whose neurons arise predominantly from cranial placodes; however, the understanding of the evolutionary origin of placodes and cranial sensory ganglia is hampered by the anatomical differences between living lineages and the difficulty in assigning homology between cell types and structures. Here we show that the homeobox transcription factor Hmx is a constitutive component of vertebrate sensory ganglion development and that in the tunicate Ciona intestinalis, Hmx is necessary and sufficient to drive the differentiation programme of bipolar tail neurons, cells previously thought to be homologues of neural crest 2,3 . Using Ciona and lamprey transgenesis, we demonstrate that a unique, tandemly duplicated enhancer pair regulated Hmx expression in the stem-vertebrate lineage. We also show notably robust vertebrate Hmx enhancer function in Ciona, demonstrating that deep conservation of the upstream regulatory network spans the evolutionary origin of vertebrates. These experiments demonstrate regulatory and functional conservation between Ciona and vertebrate Hmx, and point to bipolar tail neurons as homologues of cranial sensory ganglia., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

9. Genome Analysis of Lagocephalus sceleratus : Unraveling the Genomic Landscape of a Successful Invader.

Author

Danis T, Papadogiannis V, Tsakogiannis A, Kristoffersen JB, Golani D, Tsaparis D, Sterioti A, Kasapidis P, Kotoulas G, Magoulas A, Tsigenopoulos CS, and Manousaki T

Abstract

The Tetraodontidae family encompasses several species which attract scientific interest in terms of their ecology and evolution. The silver-cheeked toadfish ( Lagocephalus sceleratus ) is a well-known "invasive sprinter" that has invaded and spread, in less than a decade, throughout the Eastern and part of the Western Mediterranean Sea from the Red Sea through the Suez Canal. In this study, we built and analysed the first near-chromosome level genome assembly of L. sceleratus and explored its evolutionary landscape. Through a phylogenomic analysis, we positioned L. sceleratus closer to T. nigroviridis, compared to other members of the family, while gene family evolution analysis revealed that genes associated with the immune response have experienced rapid expansion, providing a genetic basis for studying how L. sceleratus is able to achieve highly successful colonisation. Moreover, we found that voltage-gated sodium channel (NaV 1.4) mutations previously connected to tetrodotoxin resistance in other pufferfishes are not found in L. sceleratus , highlighting the complex evolution of this trait. The high-quality genome assembly built here is expected to set the ground for future studies on the species biology., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Danis, Papadogiannis, Tsakogiannis, Kristoffersen, Golani, Tsaparis, Sterioti, Kasapidis, Kotoulas, Magoulas, Tsigenopoulos and Manousaki.)

Published

2021

10. 0s and 1s in marine molecular research: a regional HPC perspective.

Author

Zafeiropoulos H, Gioti A, Ninidakis S, Potirakis A, Paragkamian S, Angelova N, Antoniou A, Danis T, Kaitetzidou E, Kasapidis P, Kristoffersen JB, Papadogiannis V, Pavloudi C, Ha QV, Lagnel J, Pattakos N, Perantinos G, Sidirokastritis D, Vavilis P, Kotoulas G, Manousaki T, Sarropoulou E, Tsigenopoulos CS, Arvanitidis C, Magoulas A, and Pafilis E

Subjects

Aquaculture methods, Biotechnology methods, Software, Computing Methodologies, Marine Biology methods

Abstract

High-performance computing (HPC) systems have become indispensable for modern marine research, providing support to an increasing number and diversity of users. Pairing with the impetus offered by high-throughput methods to key areas such as non-model organism studies, their operation continuously evolves to meet the corresponding computational challenges. Here, we present a Tier 2 (regional) HPC facility, operating for over a decade at the Institute of Marine Biology, Biotechnology, and Aquaculture of the Hellenic Centre for Marine Research in Greece. Strategic choices made in design and upgrades aimed to strike a balance between depth (the need for a few high-memory nodes) and breadth (a number of slimmer nodes), as dictated by the idiosyncrasy of the supported research. Qualitative computational requirement analysis of the latter revealed the diversity of marine fields, methods, and approaches adopted to translate data into knowledge. In addition, hardware and software architectures, usage statistics, policy, and user management aspects of the facility are presented. Drawing upon the last decade's experience from the different levels of operation of the Institute of Marine Biology, Biotechnology, and Aquaculture HPC facility, a number of lessons are presented; these have contributed to the facility's future directions in light of emerging distribution technologies (e.g., containers) and Research Infrastructure evolution. In combination with detailed knowledge of the facility usage and its upcoming upgrade, future collaborations in marine research and beyond are envisioned., (© The Author(s) 2021. Published by Oxford University Press GigaScience.)

Published

2021

11. The hydrobioid freshwater gastropods (Caenogastropoda, Truncatelloidea) of Greece: new records, taxonomic re-assessments using DNA sequence data and an update of the IUCN Red List Categories.

Author

Radea C, Parmakelis A, Papadogiannis V, Charou D, and Triantis KA

Abstract

Hydrobioid freshwater gastropods were collected from mainland and insular Greece. Several threatened taxa, such as Graecoanatolica vegorriticola, Pseudamnicola negropontina, Pseudamnicola pieperi, Pseudobithynia eubooensis and Pseudoislamia balcanica, were recorded from new localities. Trichonia trichonica, which has been considered extinct from its type locality for the last twenty eight years, was re-discovered, whereas the presence of Daphniola exigua, G. vegorriticola, Marstoniopsis graeca, P. pieperi and Pseudobithynia trichonis in their type localities was verified. The taxonomic status of P. negropontina and the newly discovered populations of G. vegorriticola was elucidated using COI sequence data. The new data recorded during this survey indicate that the IUCN status of some Greek endemic hydrobioids needs to be updated.

Published

2013