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  1. Article ; Online: Parallel Evolution of Ameloblastic scpp Genes in Bony and Cartilaginous Vertebrates.

    Leurs, Nicolas / Martinand-Mari, Camille / Marcellini, Sylvain / Debiais-Thibaud, Mélanie

    Molecular biology and evolution

    2022  Volume 39, Issue 5

    Abstract: In bony vertebrates, skeletal mineralization relies on the secretory calcium-binding phosphoproteins (Scpp) family whose members are acidic extracellular proteins posttranslationally regulated by the Fam20°C kinase. As scpp genes are absent from the ... ...

    Abstract In bony vertebrates, skeletal mineralization relies on the secretory calcium-binding phosphoproteins (Scpp) family whose members are acidic extracellular proteins posttranslationally regulated by the Fam20°C kinase. As scpp genes are absent from the elephant shark genome, they are currently thought to be specific to bony fishes (osteichthyans). Here, we report a scpp gene present in elasmobranchs (sharks and rays) that evolved from local tandem duplication of sparc-L 5' exons and show that both genes experienced recent gene conversion in sharks. The elasmobranch scpp is remarkably similar to the osteichthyan scpp members as they share syntenic and gene structure features, code for a conserved signal peptide, tyrosine-rich and aspartate/glutamate-rich regions, and harbor putative Fam20°C phosphorylation sites. In addition, the catshark scpp is coexpressed with sparc-L and fam20°C in tooth and scale ameloblasts, similarly to some osteichthyan scpp genes. Despite these strong similarities, molecular clock and phylogenetic data demonstrate that the elasmobranch scpp gene originated independently from the osteichthyan scpp gene family. Our study reveals convergent events at the sparc-L locus in the two sister clades of jawed vertebrates, leading to parallel diversification of the skeletal biomineralization toolkit. The molecular evolution of sparc-L and its coexpression with fam20°C in catshark ameloblasts provides a unifying genetic basis that suggests that all convergent scpp duplicates inherited similar features from their sparc-L precursor. This conclusion supports a single origin for the hypermineralized outer odontode layer as produced by an ancestral developmental process performed by Sparc-L, implying the homology of the enamel and enameloid tissues in all vertebrates.
    MeSH term(s) Ameloblasts ; Animals ; Calcium-Binding Proteins/genetics ; Evolution, Molecular ; Phylogeny ; Sharks/genetics ; Vertebrates/genetics
    Chemical Substances Calcium-Binding Proteins
    Language English
    Publishing date 2022-05-10
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 998579-7
    ISSN 1537-1719 ; 0737-4038
    ISSN (online) 1537-1719
    ISSN 0737-4038
    DOI 10.1093/molbev/msac099
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  2. Article: Estradiol-17β and bisphenol A affect growth and mineralization in early life stages of seabass.

    Martinand-Mari, Camille / Debiais-Thibaud, Melanie / Potier, Eric / Gasset, Eric / Dutto, Gilbert / Leurs, Nicolas / Lallement, Stéphane / Farcy, Emilie

    Comparative biochemistry and physiology. Toxicology & pharmacology : CBP

    2024  Volume 281, Page(s) 109921

    Abstract: Natural and synthetic estrogens are contaminants present in aquatic ecosystems. They can have significant consequences on the estrogen-sensitive functions of organisms, including skeletal development and growth of vertebrate larvae. Synthetic polyphenols ...

    Abstract Natural and synthetic estrogens are contaminants present in aquatic ecosystems. They can have significant consequences on the estrogen-sensitive functions of organisms, including skeletal development and growth of vertebrate larvae. Synthetic polyphenols represent a group of environmental xenoestrogens capable of binding the receptors for the natural hormone estradiol-17β (E2). To better understand how (xeno-)estrogens can affect the skeleton in fish species with high ecological and commercial interest, 16 days post-hatch larvae of the seabass were experimentally exposed for 7 days to E2 and Bisphenol A (BPA), both used at the regulatory concentration of surface water quality (E2: 0.4 ng.L
    Language English
    Publishing date 2024-04-10
    Publishing country United States
    Document type Journal Article
    ZDB-ID 189285-x
    ISSN 1532-0456 ; 0306-4492 ; 0742-8413
    ISSN 1532-0456 ; 0306-4492 ; 0742-8413
    DOI 10.1016/j.cbpc.2024.109921
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  3. Article ; Online: Interference with the retinoic acid signalling pathway inhibits the initiation of teeth and caudal primary scales in the small-spotted catshark

    Germon, Isabelle / Delachanal, Coralie / Mougel, Florence / Martinand-Mari, Camille / Debiais-Thibaud, Mélanie / Borday-Birraux, Véronique

    PeerJ

    2023  Volume 11, Page(s) e15896

    Abstract: The retinoic acid (RA) pathway was shown to be important for tooth development in mammals, and suspected to play a key role in tooth evolution in teleosts. The general modalities of development of tooth and "tooth-like" structures (collectively named ... ...

    Abstract The retinoic acid (RA) pathway was shown to be important for tooth development in mammals, and suspected to play a key role in tooth evolution in teleosts. The general modalities of development of tooth and "tooth-like" structures (collectively named odontodes) seem to be conserved among all jawed vertebrates, both with regard to histogenesis and genetic regulation. We investigated the putative function of RA signalling in tooth and scale initiation in a cartilaginous fish, the small-spotted catshark
    MeSH term(s) Female ; Animals ; Tretinoin/pharmacology ; Signal Transduction ; Elasmobranchii ; Odontogenesis ; Tooth Germ ; Mammals
    Chemical Substances Tretinoin (5688UTC01R)
    Language English
    Publishing date 2023-09-06
    Publishing country United States
    Document type Journal Article
    ZDB-ID 2703241-3
    ISSN 2167-8359 ; 2167-8359
    ISSN (online) 2167-8359
    ISSN 2167-8359
    DOI 10.7717/peerj.15896
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  4. Article: Molecular complexity and gene expression controlling cell turnover during a digestive cycle of carnivorous sponge Lycopodina hypogea

    Le Goff, Emilie / Martinand-Mari, Camille / Belkhir, Khalid / Vacelet, Jean / Nidelet, Sabine / Godefroy, Nelly / Baghdiguian, Stephen

    Cell and tissue research. 2022 May, v. 388, no. 2

    2022  

    Abstract: Lycopodina hypogea is a carnivorous sponge that tolerates laboratory husbandry very well. During a digestion cycle, performed without any digestive cavity, this species undergoes spectacular morphological changes leading to a total regression of long ... ...

    Abstract Lycopodina hypogea is a carnivorous sponge that tolerates laboratory husbandry very well. During a digestion cycle, performed without any digestive cavity, this species undergoes spectacular morphological changes leading to a total regression of long filaments that ensure the capture of prey and their reformation at the end of the cycle. This phenomenon is a unique opportunity to analyze the molecular and cellular determinants that ensure digestion in the sister group of all other metazoans. Using differential transcriptomic analysis coupled with cell biology studies of proliferation, differentiation, and programmed cell deaths (i.e., autophagy and the destructive/constructive function of apoptosis), we demonstrate that the molecular and cellular actors that ensure digestive homeostasis in a sister group of all remaining animals are similar in variety and complexity to those controlling tissue homeostasis in higher vertebrates. During a digestion cycle, most of these actors are finely tuned in a coordinated manner. Our data benefits from complementary approaches coupling in silico and cell biology studies and demonstrate that the nutritive function is provided by the coordination of molecular network that impacts the cells turnover in the entire organism.
    Keywords Animalia ; apoptosis ; autophagy ; carnivores ; computer simulation ; digestion ; gene expression ; homeostasis ; research ; transcriptomics
    Language English
    Dates of publication 2022-05
    Size p. 399-416.
    Publishing place Springer Berlin Heidelberg
    Document type Article
    ZDB-ID 125067-x
    ISSN 1432-0878 ; 0302-766X
    ISSN (online) 1432-0878
    ISSN 0302-766X
    DOI 10.1007/s00441-022-03610-3
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  5. Article: Evolution of Matrix Gla and Bone Gla Protein Genes in Jawed Vertebrates.

    Leurs, Nicolas / Martinand-Mari, Camille / Ventéo, Stéphanie / Haitina, Tatjana / Debiais-Thibaud, Mélanie

    Frontiers in genetics

    2021  Volume 12, Page(s) 620659

    Abstract: Matrix Gla protein (Mgp) and bone Gla protein (Bgp) are vitamin-K dependent proteins that bind calcium in their γ-carboxylated versions in mammals. They are recognized as positive (Bgp) or negative (Mgp and Bgp) regulators of biomineralization in a ... ...

    Abstract Matrix Gla protein (Mgp) and bone Gla protein (Bgp) are vitamin-K dependent proteins that bind calcium in their γ-carboxylated versions in mammals. They are recognized as positive (Bgp) or negative (Mgp and Bgp) regulators of biomineralization in a number of tissues, including skeletal tissues of bony vertebrates. The Mgp/Bgp gene family is poorly known in cartilaginous fishes, which precludes the understanding of the evolution of the biomineralization toolkit at the emergence of jawed vertebrates. Here we took advantage of recently released genomic and transcriptomic data in cartilaginous fishes and described the genomic loci and gene expression patterns of the Mgp/Bgp gene family. We identified three genes, Mgp1, Mgp2, and Bgp, in cartilaginous fishes instead of the single previously reported Mgp gene. We describe their genomic loci, resulting in a dynamic evolutionary scenario for this gene family including several events of local (tandem) duplications, but also of translocation events, along jawed vertebrate evolution. We describe the expression patterns of
    Language English
    Publishing date 2021-03-10
    Publishing country Switzerland
    Document type Journal Article
    ZDB-ID 2606823-0
    ISSN 1664-8021
    ISSN 1664-8021
    DOI 10.3389/fgene.2021.620659
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  6. Article ; Online: Molecular complexity and gene expression controlling cell turnover during a digestive cycle of carnivorous sponge Lycopodina hypogea.

    Le Goff, Emilie / Martinand-Mari, Camille / Belkhir, Khalid / Vacelet, Jean / Nidelet, Sabine / Godefroy, Nelly / Baghdiguian, Stephen

    Cell and tissue research

    2022  Volume 388, Issue 2, Page(s) 399–416

    Abstract: Lycopodina hypogea is a carnivorous sponge that tolerates laboratory husbandry very well. During a digestion cycle, performed without any digestive cavity, this species undergoes spectacular morphological changes leading to a total regression of long ... ...

    Abstract Lycopodina hypogea is a carnivorous sponge that tolerates laboratory husbandry very well. During a digestion cycle, performed without any digestive cavity, this species undergoes spectacular morphological changes leading to a total regression of long filaments that ensure the capture of prey and their reformation at the end of the cycle. This phenomenon is a unique opportunity to analyze the molecular and cellular determinants that ensure digestion in the sister group of all other metazoans. Using differential transcriptomic analysis coupled with cell biology studies of proliferation, differentiation, and programmed cell deaths (i.e., autophagy and the destructive/constructive function of apoptosis), we demonstrate that the molecular and cellular actors that ensure digestive homeostasis in a sister group of all remaining animals are similar in variety and complexity to those controlling tissue homeostasis in higher vertebrates. During a digestion cycle, most of these actors are finely tuned in a coordinated manner. Our data benefits from complementary approaches coupling in silico and cell biology studies and demonstrate that the nutritive function is provided by the coordination of molecular network that impacts the cells turnover in the entire organism.
    MeSH term(s) Animals ; Apoptosis ; Carnivory ; Gene Expression
    Language English
    Publishing date 2022-03-09
    Publishing country Germany
    Document type Journal Article
    ZDB-ID 125067-x
    ISSN 1432-0878 ; 0302-766X
    ISSN (online) 1432-0878
    ISSN 0302-766X
    DOI 10.1007/s00441-022-03610-3
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  7. Article: Sponge digestive system diversity and evolution: filter feeding to carnivory

    Godefroy, Nelly / Baghdiguian, Stephen / Belkhir, Khalid / Le Goff, Emilie / Martinand-Mari, Camille / Vacelet, Jean

    Cell and tissue research. 2019 Sept., v. 377, no. 3

    2019  

    Abstract: Sponges are an ancient basal life form, so understanding their evolution is key to understanding all metazoan evolution. Sponges have very unusual feeding mechanisms, with an intricate network of progressively optimized filtration units: from the simple ... ...

    Abstract Sponges are an ancient basal life form, so understanding their evolution is key to understanding all metazoan evolution. Sponges have very unusual feeding mechanisms, with an intricate network of progressively optimized filtration units: from the simple choanocyte lining of a central cavity, or spongocoel, to more complex chambers and canals. Furthermore, in a single evolutionary event, a group of sponges transitioned to carnivory. This major evolutionary transition involved replacing the filter-feeding apparatus with mobile phagocytic cells that migrate collectively towards the trapped prey. Here, we focus on the diversity and evolution of sponge nutrition systems and the amazing adaptation to carnivory.
    Keywords Animalia ; carnivores ; digestive system ; evolution ; filtration ; nutrition ; phagocytes
    Language English
    Dates of publication 2019-09
    Size p. 341-351.
    Publishing place Springer Berlin Heidelberg
    Document type Article
    Note Review
    ZDB-ID 125067-x
    ISSN 1432-0878 ; 0302-766X
    ISSN (online) 1432-0878
    ISSN 0302-766X
    DOI 10.1007/s00441-019-03032-8
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  8. Article ; Online: Sponge digestive system diversity and evolution: filter feeding to carnivory.

    Godefroy, Nelly / Le Goff, Emilie / Martinand-Mari, Camille / Belkhir, Khalid / Vacelet, Jean / Baghdiguian, Stephen

    Cell and tissue research

    2019  Volume 377, Issue 3, Page(s) 341–351

    Abstract: Sponges are an ancient basal life form, so understanding their evolution is key to understanding all metazoan evolution. Sponges have very unusual feeding mechanisms, with an intricate network of progressively optimized filtration units: from the simple ... ...

    Abstract Sponges are an ancient basal life form, so understanding their evolution is key to understanding all metazoan evolution. Sponges have very unusual feeding mechanisms, with an intricate network of progressively optimized filtration units: from the simple choanocyte lining of a central cavity, or spongocoel, to more complex chambers and canals. Furthermore, in a single evolutionary event, a group of sponges transitioned to carnivory. This major evolutionary transition involved replacing the filter-feeding apparatus with mobile phagocytic cells that migrate collectively towards the trapped prey. Here, we focus on the diversity and evolution of sponge nutrition systems and the amazing adaptation to carnivory.
    MeSH term(s) Animals ; Biological Evolution ; Carnivory/psychology ; Digestive System/growth & development ; Morphogenesis ; Phylogeny ; Porifera/physiology
    Language English
    Publishing date 2019-05-04
    Publishing country Germany
    Document type Journal Article ; Review
    ZDB-ID 125067-x
    ISSN 1432-0878 ; 0302-766X
    ISSN (online) 1432-0878
    ISSN 0302-766X
    DOI 10.1007/s00441-019-03032-8
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  9. Article ; Online: Relationships Between Enamel Prism Decussation and Organization of the Ameloblast Layer in Rodent Incisors.

    Alloing-Séguier, Léanie / Marivaux, Laurent / Barczi, Jean-François / Lihoreau, Fabrice / Martinand-Mari, Camille

    Anatomical record (Hoboken, N.J. : 2007)

    2018  Volume 302, Issue 7, Page(s) 1195–1209

    Abstract: Rodent enamel microstructure has been extensively investigated, primarily on the basis of 2D electronic microscopy data. The nature and dynamics of the ameloblasts (the enamel-secreting cells) have also been well studied. However, critical issues still ... ...

    Abstract Rodent enamel microstructure has been extensively investigated, primarily on the basis of 2D electronic microscopy data. The nature and dynamics of the ameloblasts (the enamel-secreting cells) have also been well studied. However, critical issues still remain surrounding exactly how the ameloblasts produce the astonishing microstructural complexity of enamel, and how this subtle architecture evolved through time. In this article, we used a new methodology based on confocal laser microscopy to reconstruct the enamel microstructure of rodent incisors in three dimensions (3D) with the ameloblasts in situ. We proposed interpretations regarding the possible relationships between the workings of the ameloblasts and the resulting enamel prisms, especially how the phenomenon of decussation is generated. Finally, we were able to represent the two main types of modern rodent incisor microstructures (uniserial and multiserial decussations), as a set of parameters that have been entered into the 3D enamel simulation software Simulenam to generate 3D models that can be digitally manipulated. Associating 2D data of incisor enamel microstructure of fossil rodents and Simulenam, it was then possible to better understand how the various decussation parameters evolved through time and gave rise to the two modern microstructure types from the same ancestral type (pauciserial). This study also confirmed that rodent and artiodactyl enamel do not share the same mechanism of decussation formation. Anat Rec, 302:1195-1209, 2019. © 2018 Wiley Periodicals, Inc.
    MeSH term(s) Ameloblasts ; Animals ; Animals, Newborn ; Dental Enamel/cytology ; Dental Enamel/diagnostic imaging ; Dental Enamel/growth & development ; Fetus ; Fossils/anatomy & histology ; Fossils/diagnostic imaging ; Imaging, Three-Dimensional ; Incisor/cytology ; Incisor/diagnostic imaging ; Incisor/growth & development ; Microscopy, Confocal ; Rodentia/anatomy & histology ; Rodentia/growth & development
    Language English
    Publishing date 2018-11-22
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 2269667-2
    ISSN 1932-8494 ; 1932-8486
    ISSN (online) 1932-8494
    ISSN 1932-8486
    DOI 10.1002/ar.24000
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  10. Article: D'Arcy Thompson aurait-il prédit un contrôle topologique de l'apoptose ?

    Baghdiguian, Stephen / Martinand-Mari, Camille / Maury, Benoit / Lorman, Vladimir / Mangeat, Paul

    Medecine sciences : M/S

    2013  Volume 29, Issue 4, Page(s) 411–415

    Abstract: The laws that drive morphogenesis remain a major biological question. Today's views emphasize molecular autonomous processes rather than physical and mechanical constraints proposed by d'Arcy Thompson earlier on. In Ciona intestinalis oocyte, follicular ... ...

    Title translation Would D'Arcy Thompson have predicted a topological control of apoptosis?.
    Abstract The laws that drive morphogenesis remain a major biological question. Today's views emphasize molecular autonomous processes rather than physical and mechanical constraints proposed by d'Arcy Thompson earlier on. In Ciona intestinalis oocyte, follicular cells formed by two distinct sets of geometrically-ordered epithelial monolayers positioned over the egg control apoptosis, implying that physically-predetermined shapes play a role in the control of cell determinism. In follicular cells ideally positioned over the spherical geometry of the egg, a drastic, optimized and polarized inward apoptosis sequence directly results from this positioning, suggesting the existence of some apoptotic master cells which control the destiny of neighboring cells. This concept could shed a new light on the origin of massive apoptosis phases that take place during embryogenesis in vertebrates (e.g., cavitation, inter-digitation). It could also be applied to specific therapeutic strategies to fight cancer.
    MeSH term(s) Animals ; Apoptosis ; Ciona intestinalis/embryology ; Embryonic Development ; Morphogenesis ; Oocytes/cytology ; Vertebrates/embryology
    Language French
    Publishing date 2013-04
    Publishing country France
    Document type English Abstract ; Journal Article ; Review
    ZDB-ID 632733-3
    ISSN 1958-5381 ; 0767-0974
    ISSN (online) 1958-5381
    ISSN 0767-0974
    DOI 10.1051/medsci/2013294015
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