Your search keyword '"Ciona intestinalis type A"' showing total 10 results

1. Germ-Cell Formation in Solitary Ascidians: Coexistence of Preformation and Epigenesis

Author

Shirae-Kurabayashi, Maki, Nakamura, Akira, Asami, Takahiro, Series Editor, Kajihara, Hiroshi, Series Editor, Kobayashi, Kazuya, Series Editor, Koizumi, Osamu, Series Editor, Motokawa, Masaharu, Series Editor, Naruse, Kiyoshi, Series Editor, Satoh, Akiko, Series Editor, Takamune, Kazufumi, Series Editor, Takeuchi, Hideaki, Series Editor, Yoshikuni, Michiyasu, Series Editor, Kitano, Takeshi, editor, Iwao, Yasuhiro, editor, and Kondo, Mariko, editor

Published

2018

2. Reflections on the Use of an Invertebrate Chordate Model System for Studies of Gut Microbial Immune Interactions

Author

Assunta Liberti, Ojas Natarajan, Celine Grace F. Atkinson, Paolo Sordino, and Larry J. Dishaw

Subjects

Ciona robusta, Ciona intestinalis type A, invertebrate model, mucosal immunity, innate immunity, gut-microbial interactions, Immunologic diseases. Allergy, RC581-607

Abstract

The functional ecology of the gastrointestinal tract impacts host physiology, and its dysregulation is at the center of various diseases. The immune system, and specifically innate immunity, plays a fundamental role in modulating the interface of host and microbes in the gut. While humans remain a primary focus of research in this field, the use of diverse model systems help inform us of the fundamental principles legislating homeostasis in the gut. Invertebrates, which lack vertebrate-style adaptive immunity, can help define conserved features of innate immunity that shape the gut ecosystem. In this context, we previously proposed the use of a marine invertebrate, the protochordate Ciona robusta, as a novel tractable model system for studies of host-microbiome interactions. Significant progress, reviewed herein, has been made to fulfill that vision. We examine and review discoveries from Ciona that include roles for a secreted immune effector interacting with elements of the microbiota, as well as chitin-rich mucus lining the gut epithelium, the gut-associated microbiome of adults, and the establishment of a large catalog of cultured isolates with which juveniles can be colonized. Also discussed is the establishment of methods to rear the animals germ-free, an essential technology for dissecting the symbiotic interactions at play. As the foundation is now set to extend these studies into the future, broadening our comprehension of how host effectors shape the ecology of these microbial communities in ways that establish and maintain homeostasis will require full utilization of “multi-omics” approaches to merge computational sciences, modeling, and experimental biology in hypothesis-driven investigations.

Published

2021

3. Reflections on the Use of an Invertebrate Chordate Model System for Studies of Gut Microbial Immune Interactions.

Author

Liberti, Assunta, Natarajan, Ojas, Atkinson, Celine Grace F., Sordino, Paolo, and Dishaw, Larry J.

Subjects

BIOTIC communities, MARINE invertebrates, MICROBIAL ecology, NATURAL immunity, GERMFREE animals

Abstract

The functional ecology of the gastrointestinal tract impacts host physiology, and its dysregulation is at the center of various diseases. The immune system, and specifically innate immunity, plays a fundamental role in modulating the interface of host and microbes in the gut. While humans remain a primary focus of research in this field, the use of diverse model systems help inform us of the fundamental principles legislating homeostasis in the gut. Invertebrates, which lack vertebrate-style adaptive immunity, can help define conserved features of innate immunity that shape the gut ecosystem. In this context, we previously proposed the use of a marine invertebrate, the protochordate Ciona robusta , as a novel tractable model system for studies of host-microbiome interactions. Significant progress, reviewed herein, has been made to fulfill that vision. We examine and review discoveries from Ciona that include roles for a secreted immune effector interacting with elements of the microbiota, as well as chitin-rich mucus lining the gut epithelium, the gut-associated microbiome of adults, and the establishment of a large catalog of cultured isolates with which juveniles can be colonized. Also discussed is the establishment of methods to rear the animals germ-free, an essential technology for dissecting the symbiotic interactions at play. As the foundation is now set to extend these studies into the future, broadening our comprehension of how host effectors shape the ecology of these microbial communities in ways that establish and maintain homeostasis will require full utilization of "multi-omics" approaches to merge computational sciences, modeling, and experimental biology in hypothesis-driven investigations. [ABSTRACT FROM AUTHOR]

Published

2021

4. Ovarian Follicle Development in Ascidians.

Author

Satake H, Kawada T, Osugi T, Sakai T, Shiraishi A, Yamamoto T, and Matsubara S

Subjects

Animals, Female, Phylogeny, Ovulation, Ovarian Follicle, Mammals, Ciona intestinalis, Neuropeptides

Abstract

Ovarian follicle development is an essential process for continuation of sexually reproductive animals, and is controlled by a wide variety of regulatory factors such as neuropeptides and peptide hormones in the endocrine, neuroendocrine, and nervous systems. Moreover, while some molecular mechanisms underlying follicle development are conserved, others vary among species. Consequently, follicle development processes are closely related to the evolution and diversity of species. Ciona intestinalis type A ( Ciona rubusta ) is a cosmopolitan species of ascidians, which are the closest relative of vertebrates. However, unlike vertebrates, ascidians are not endowed with the hypothalamus-pituitary-gonadal axis involving pituitary gonadotropins and sexual steroids. Combined with the phylogenetic position of ascidians as the closest relative of vertebrates, such morphological and endocrine features suggest that ascidians possess both common and species-specific regulatory mechanisms in follicle development. To date, several neuropeptides have been shown to participate in the growth of vitellogenic follicles, oocyte maturation of postvitellogenic follicles, and ovulation of fully mature follicles in a developmental stage-specific fashion. Furthermore, recent studies have shed light on the evolutionary processes of follicle development throughout chordates. In this review, we provide an overview of the neuropeptidergic molecular mechanism in the premature follicle growth, oocyte maturation, and ovulation in Ciona , and comparative views of the follicle development processes of mammals and teleosts.

Published

2024

5. Kobayashi Award 2021: Neuropeptides, receptors, and follicle development in the ascidian, Ciona intestinalis Type A: New clues to the evolution of chordate neuropeptidergic systems from biological niches.

Author

Satake, Honoo

Subjects

*CIONA intestinalis, *BIOLOGICAL systems, *NEUROPEPTIDES, *OVARIAN follicle, *MATRIX metalloproteinases

Abstract

• Several neuropeptide signaling systems have been characterized in Ciona robusta. • Representatives of bilaterian familes and Ciona -specific neuropeptides identified. • Cognate receptors for Ciona neuropeptides have also been elucidated. • Neuropeptide function in follicle development and ovulation has been determined. Ciona intestinalis Type A (Ciona robusta) is a cosmopolitan species belonging to the phylum Urochordata, invertebrate chordates that are phylogenetically the most closely related to the vertebrates. Therefore, this species is of interest for investigation of the evolution and comparative physiology of endocrine, neuroendocrine, and nervous systems in chordates. Our group has identified>30 Ciona neuropeptides (80% of all identified ascidian neuropeptides) primarily using peptidomic approaches combined with reference to genome sequences. These neuropeptides are classified into two groups: homologs or prototypes of vertebrate neuropeptides and novel (Ciona -specific) neuropeptides. We have also identified the cognate receptors for these peptides. In particular, we elucidated multiple receptors for Ciona -specific neuropeptides by a combination of a novel machine learning system and experimental validation of the specific interaction of the predicted neuropeptide-receptor pairs, and verified unprecedented phylogenies of receptors for neuropeptides. Moreover, several neuropeptides were found to play major roles in the regulation of ovarian follicle development. Ciona tachykinin facilitates the growth of vitellogenic follicles via up-regulation of the enzymatic activities of proteases. Ciona vasopressin stimulates oocyte maturation and ovulation via up-regulation of maturation-promoting factor- and matrix metalloproteinase-directed collagen degradation, respectively. Ciona cholecystokinin also triggers ovulation via up-regulation of receptor tyrosine kinase signaling and the subsequent activation of matrix metalloproteinase. These studies revealed that the neuropeptidergic system plays major roles in ovarian follicle growth, maturation, and ovulation in Ciona , thus paving the way for investigation of the biological roles for neuropeptides in the endocrine, neuroendocrine, nervous systems of Ciona , and studies of the evolutionary processes of various neuropeptidergic systems in chordates. [ABSTRACT FROM AUTHOR]

Published

2023

6. Effect of Polycyclic Aromatic Hydrocarbons on Development of the Ascidian

Author

Toshio, Sekiguchi, Hiroshi, Akitaya, Satoshi, Nakayama, Takashi, Yazawa, Michio, Ogasawara, Nobuo, Suzuki, Kazuichi, Hayakawa, and Shuichi, Wada

Subjects

Ciona intestinalis type A, marine invertebrates, animal structures, ascidian, fungi, polycyclic aromatic hydrocarbons, Article, Ciona intestinalis, Receptors, Aryl Hydrocarbon, Larva, embryonic structures, polycyclic compounds, Animals, Environmental Pollutants, development

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are pollutants that exert harmful effects on marine invertebrates; however, the molecular mechanism underlying PAH action remains unclear. We investigated the effect of PAHs on the ascidian Ciona intestinalis type A (Ciona robusta). First, the influence of PAHs on early Ciona development was evaluated. PAHs such as dibenzothiophene, fluorene, and phenanthrene resulted in formation of abnormal larvae. PAH treatment of swimming larva induced malformation in the form of tail regression. Additionally, we observed the Ciona aryl hydrocarbon receptor (Ci-AhR) mRNA expression in swimming larva, mid body axis rotation, and early juvenile stages. The time correlation between PAH action and AhR mRNA expression suggested that Ci-AhR could be associated with PAH metabolism. Lastly, we analyzed Ci-AhR mRNA localization in Ciona juveniles. Ci-AhR mRNA was localized in the digestive tract, dorsal tubercle, ganglion, and papillae of the branchial sac, suggesting that Ci-AhR is a candidate for an environmental pollutant sensor and performs a neural function. Our results provide basic knowledge on the biological function of Ci-AhR and PAH activity in marine invertebrates.

Published

2019

7. A Manually Curated Gene Model Set for an Ascidian, Ciona robusta ( Ciona intestinalis Type A).

Author

Satou Y, Tokuoka M, Oda-Ishii I, Tokuhiro S, Ishida T, Liu B, and Iwamura Y

Subjects

Animals, Base Sequence, Biological Evolution, Chromosomes, Genome, Ciona intestinalis genetics

Abstract

Gene/transcript model sets predicted from decoded genome sequences are an important resource for a wide range of biological studies. Accuracy of gene models is therefore critical for deducing accurate conclusions. Computationally predicted models are sometimes inconsistent with experimental data from cDNA clones and RNA-sequencing. In an ascidian, Ciona robusta ( Ciona intestinalis type A), a manually curated gene/transcript model set, which was constructed using an assembly in which 68% of decoded sequences were associated with chromosomes, had been used during the last decade. Recently a new genome assembly was published, in which over 95% of decoded sequences are associated with chromosomes. In the present study, we provide a high-quality version of the gene/transcript model set for the latest assembly. Because the Ciona genome has been used in a variety of studies such as developmental biological studies, evolutionary studies, and physiological studies, the current gene/transcript model set provides a fundamental biological resource.

Published

2022

8. Effect of Polycyclic Aromatic Hydrocarbons on Development of the Ascidian Ciona intestinalis Type A

Author

Shuichi Wada, Hiroshi Akitaya, Toshio Sekiguchi, Satoshi Nakayama, Takashi Yazawa, Kazuichi Hayakawa, Michio Ogasawara, and Nobuo Suzuki

Subjects

marine invertebrates, animal structures, ascidian, Health, Toxicology and Mutagenesis, polycyclic aromatic hydrocarbons, lcsh:Medicine, 010501 environmental sciences, 01 natural sciences, ciona intestinalis type a, 03 medical and health sciences, chemistry.chemical_compound, polycyclic compounds, Ciona intestinalis, development, 030304 developmental biology, 0105 earth and related environmental sciences, Pollutant, 0303 health sciences, Larva, Messenger RNA, biology, Chemistry, lcsh:R, fungi, Public Health, Environmental and Occupational Health, Marine invertebrates, Phenanthrene, biology.organism_classification, Aryl hydrocarbon receptor, Ciona, Biochemistry, embryonic structures, biology.protein

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are pollutants that exert harmful effects on marine invertebrates, however, the molecular mechanism underlying PAH action remains unclear. We investigated the effect of PAHs on the ascidian Ciona intestinalis type A (Ciona robusta). First, the influence of PAHs on early Ciona development was evaluated. PAHs such as dibenzothiophene, fluorene, and phenanthrene resulted in formation of abnormal larvae. PAH treatment of swimming larva induced malformation in the form of tail regression. Additionally, we observed the Ciona aryl hydrocarbon receptor (Ci-AhR) mRNA expression in swimming larva, mid body axis rotation, and early juvenile stages. The time correlation between PAH action and AhR mRNA expression suggested that Ci-AhR could be associated with PAH metabolism. Lastly, we analyzed Ci-AhR mRNA localization in Ciona juveniles. Ci-AhR mRNA was localized in the digestive tract, dorsal tubercle, ganglion, and papillae of the branchial sac, suggesting that Ci-AhR is a candidate for an environmental pollutant sensor and performs a neural function. Our results provide basic knowledge on the biological function of Ci-AhR and PAH activity in marine invertebrates.

Published

2020

9. Fractionation of Ovarian Follicles and in vitro Oocyte Maturation and Ovulation Assay of Ciona intestinalis Type A.

Author

Matsubara S, Shiraishi A, Osugi T, Kawada T, and Satake H

Abstract

Ascidians are the closest living relatives of vertebrates ( Delsuc et al. , 2006 ; Satoh et al. , 2014 ) and are important for the evolutionary study of the ovarian follicle development including oocyte maturation and ovulation. However, neither the endogenous factors nor the molecular mechanisms underlying the oocyte maturation and ovulation had been elucidated mainly due to the lack of efficient procedure for isolating ovarian follicles. Here, we present the protocol for the effective fractionation and isolation of the ovarian follicle of Ciona intestinalis type A using stainless steel sieves with various particle size-meshes, and the simple incubation method of Ciona follicles for evaluating oocyte maturation and ovulation. Combined with the RNA-seq data from each fraction, the current methods lead us to investigate ovarian follicle development including oocyte maturation and ovulation in a stage-specific manner., Competing Interests: Competing interestsThe authors declare that no competing interests exist., (Copyright © The Authors; exclusive licensee Bio-protocol LLC.)

Published

2020

10. Effect of Polycyclic Aromatic Hydrocarbons on Development of the Ascidian Ciona intestinalis Type A.

Author

Sekiguchi T, Akitaya H, Nakayama S, Yazawa T, Ogasawara M, Suzuki N, Hayakawa K, and Wada S

Subjects

Animals, Larva, Receptors, Aryl Hydrocarbon, Ciona intestinalis drug effects, Environmental Pollutants toxicity, Polycyclic Aromatic Hydrocarbons toxicity

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are pollutants that exert harmful effects on marine invertebrates; however, the molecular mechanism underlying PAH action remains unclear. We investigated the effect of PAHs on the ascidian Ciona intestinalis type A ( Ciona robusta ). First, the influence of PAHs on early Ciona development was evaluated. PAHs such as dibenzothiophene, fluorene, and phenanthrene resulted in formation of abnormal larvae. PAH treatment of swimming larva induced malformation in the form of tail regression. Additionally, we observed the Ciona aryl hydrocarbon receptor ( Ci-AhR ) mRNA expression in swimming larva, mid body axis rotation, and early juvenile stages. The time correlation between PAH action and AhR mRNA expression suggested that Ci-AhR could be associated with PAH metabolism. Lastly, we analyzed Ci-AhR mRNA localization in Ciona juveniles. Ci-AhR mRNA was localized in the digestive tract, dorsal tubercle, ganglion, and papillae of the branchial sac, suggesting that Ci-AhR is a candidate for an environmental pollutant sensor and performs a neural function. Our results provide basic knowledge on the biological function of Ci-AhR and PAH activity in marine invertebrates.

Published

2020