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5. Histological and scanning electron microscope observations on the developing retina of the cuttlefish (Sepia officinalis Linnaeus, 1758).

Author

Arias-Montecino A, Sykes A, Álvarez-Hernán G, de Mera-Rodríguez JA, Calle-Guisado V, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Subjects
Animals, Embryo, Nonmammalian ultrastructure, Neurogenesis, Photoreceptor Cells ultrastructure, Photoreceptor Cells cytology, Retina ultrastructure, Retina growth & development, Retina embryology, Microscopy, Electron, Scanning, Sepia ultrastructure, Sepia embryology, Sepia growth & development
Abstract

In this work we present a detailed study of the major events during retinal histogenesis of the cuttlefish Sepia officinalis from early embryos to newly hatched animals and juveniles. For this purpose, we carried out morphometric and histological analyses using light and scanning electron microscopy. From St19, the first embryonic stage analysed, to St23/24 the embryonic retina is composed of a pseudostratified epithelium showing abundant mitotic figures in the more internal surface. At St24 the first photoreceptor nuclei appear in the presumptive inner segment layer, while an incipient layer of apical processes of the future rhabdomeric layer become visible at St25. From this stage onwards, both the rhabdomeric layer and the inner segment layer increase in size until postnatal ages. In contrast, the width of the supporting cell layer progressively decreases from St25/26 until postnatal ages. S. officinalis embryos hatched in a morphologically advanced state, showing a differentiated retina even in the last stages of the embryonic period. However, features of immaturity are still observable in the retinal tissue during the first postnatal weeks of life, such as the existence of mitotic figures in the apical region of the supporting cell layer and migrating nuclei of differentiating photoreceptors crossing the basal membrane to reach their final location in the inner segment layer. Therefore, postnatal retinal neurogenesis is present in juvenile specimens of S. officinalis., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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6. Markers of senescence are often associated with neuronal differentiation in the developing sensory systems.

Author

de Mera-Rodríguez JA, Álvarez-Hernán G, Gañán Y, Solana-Fajardo J, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Subjects
Reproducibility of Results, Cell Differentiation, Biomarkers metabolism, Cellular Senescence physiology, Sense Organs metabolism
Abstract

It has been shown that senescent cells accumulate in transient structures of the embryo that normally degenerate during tissue development. A collection of biomarkers is generally accepted to define senescence in embryonic tissues. The histochemical detection of β-galactosidase activity at pH 6.0 (β-gal-pH6) is the most widely used assay for cellular senescence. Immunohistochemical detection of common mediators of senescence which block cell cycle progression, including p16, p21, p63, p15 or p27, has also been used to characterize senescent cells in the embryo. However, the reliability of this techniques has been discussed in recent publications because non-senescent cells are also labelled during development. Indeed, increased levels of senescent markers promote differentiation over apoptosis in developing neurons, suggesting that machinery used for the establishment of cellular senescence is also involved in neuronal maturation. Notably, it has recently been argued that a comparable state of cellular senescence might be adopted by terminally differentiated neurons. The developing sensory systems provide excellent models for studying if canonical markers of senescence are associated with terminal neuronal differentiation., (©The Author(s) 2023. Open Access. This article is licensed under a Creative Commons CC-BY International License.)

Published
2023
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7. Retinal Development in a Precocial Bird Species, the Quail ( Coturnix coturnix , Linnaeus 1758).

Author

Álvarez-Hernán G, de Mera-Rodríguez JA, Calle-Guisado V, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Subjects
Animals, Proliferating Cell Nuclear Antigen metabolism, Retina metabolism, Amacrine Cells, Coturnix, Quail
Abstract

The quail ( Coturnix coturnix , Linnaeus 1758), a notable model used in developmental biology, is a precocial bird species in which the processes of retinal cell differentiation and retinal histogenesis have been poorly studied. The purpose of the present research is to examine the retinogenesis in this bird species immunohistochemically and compare the results with those from previous studies in precocial and altricial birds. We found that the first PCNA-negative nuclei are detected at Stage (St) 21 in the vitreal region of the neuroblastic layer, coinciding topographically with the first αTubAc-/Tuj1-/Isl1-immunoreactive differentiating ganglion cells. At St28, the first Prox1-immunoreactive nuclei can be distinguished in the vitreal side of the neuroblastic layer (NbL), but also the first visinin-immunoreactive photoreceptors in the scleral surface. The inner plexiform layer (IPL) emerges at St32, and the outer plexiform layer (OPL) becomes visible at St35-the stage in which the first GS-immunoreactive Müller cells are distinguishable. Newly hatched animals show a well-developed stratified retina in which the PCNA-and pHisH3-immunoreactivies are absent. Therefore, retinal cell differentiation in the quail progresses in the stereotyped order conserved among vertebrates, in which ganglion cells initially appear and are followed by amacrine cells, horizontal cells, and photoreceptors. Müller glia are one of the last cell types to be born. Plexiform layers emerge following a vitreal-to-scleral gradient. Finally, our results suggest that there are no significant differences in the timing of different events involved in retinal maturation between the quail and the chicken, but the same events are delayed in an altricial bird species.

Published
2023
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8. Histogenesis and cell differentiation in the retina of Thunnus thynnus: A morphological and immunohistochemical study.

Author

Álvarez-Hernán G, de Mera-Rodríguez JA, de la Gándara F, Ortega A, Barros-Gata I, Romero-Rodríguez JA, Blasco M, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Subjects
Animals, Cell Differentiation, Larva, Neurons, Perciformes, Retina
Abstract

This study examines the anatomical development of the visual system of Atlantic bluefin tuna, Thunnus thynnus, during the first 15 days of life at histological level, with emphasis in the immunohistochemical characterization of different cell types. As an altricial fish species, the retina was not developed at hatching. The appearance of eye pigmentation and the transformation of the retina from an undifferentiated neuroblastic layer into a laminated structure occurred during the first two days of life. At 16 days after hatching (DAH), the ganglion cells were arranged in a single row in the central region of the retina and the outer segments of the photoreceptors were morphologically developed. Furthermore, at this age, all the retinal cell types were immunohistochemically characterized. The presence of ganglion cell axons was confirmed with the TUJ1 antibody and the existence of functional synapses in the plexiform layers with antibodies against SV2. Cone opsins were immunostained with antibodies against visinin and CERN-922 immunoreactive rods were also identified. Different subpopulations of amacrine cells were immunostained with antibodies against αTH and PV. Highly GS-immunoreactive Müller cells were also detected at this age. These observations suggested that the T. thynnus retina was fully functional at the end of the second week of life. Basic studies on early morphology of the visual system and larval behavior are necessary to support applied research on larval rearing. Furthermore, they may have implications for understanding larval ecology in the wild., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2022
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9. Timing and Distribution of Mitotic Activity in the Retina During Precocial and Altricial Modes of Avian Development.

Author

Álvarez-Hernán G, de Mera-Rodríguez JA, Hernández-Núñez I, Acedo A, Marzal A, Gañán Y, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Abstract

During development of the vertebrate retina, mitotic activity is defined as apical when is located at the external surface of the neuroepithelium or as non-apical when is found in more internal regions. Apical mitoses give rise to all retinal cell types. Non-apical mitoses are linked to committed horizontal cell precursors that subsequently migrate vitreo-sclerally, reaching their final position in the outer surface of the inner nuclear layer, where they differentiate. Previous studies have suggested differences in the timing of retinal maturation between altricial and precocial bird species. In the present study we analyze qualitatively and quantitatively the mitotic activity in the developing retina of an altricial (zebra finch, Taeniopygia guttata ) and a precocial (Japanese quail, Coturnix coturnix ) bird species. We found that pHisH3-immunoreactive apical and non-apical mitoses were abundant in the T. guttata retina at the hatching stage. In contrast, pHisH3 immunoreactivity almost disappeared from the quail retina at the embryonic day 10 (E10). Furthermore, we also found that the onset of the appearance of non-apical mitoses occurred at later stages in the altricial bird species than in the precocial one. The disappearance of apical mitoses and the spatiotemporal distribution of non-apical mitoses followed central to peripheral and dorsal to ventral gradients, similar to gradients of cell differentiation described in the retina of birds. Therefore, these results suggest that retinal neurogenesis is active at the hatching stage in T. guttata , and that horizontal cell differentiation is delayed in the altricial bird species compared to the precocial one. Together, this study reveals important insights into the timing differences that regulate bird retinal maturation and provides a better understanding of the evolution of avian altriciality and precociality., 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 © 2022 Álvarez-Hernán, de Mera-Rodríguez, Hernández-Núñez, Acedo, Marzal, Gañán, Martín-Partido, Rodríguez-León and Francisco-Morcillo.)

Published
2022
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10. Comparative Analysis of Type I Keratin Expression By Nail Consistency: An Immunohistochemistry Study.

Author

Mingorance Álvarez E, Rodríguez-León J, Pérez Pico AM, and Mayordomo R

Subjects
Adult, Humans, Immunohistochemistry, Keratins chemistry, Keratins metabolism, Middle Aged, Keratins, Type I chemistry, Keratins, Type I metabolism, Nails chemistry, Nails metabolism
Abstract

The nail plate is one of the essential structures of the nail apparatus and is highly keratinized, making it difficult to handle this tissue experimentally. Different types of nail consistency were identified by applying distal pressure to the nail plate. To analyze the relationship between the keratins expressed in the nail plate and nail consistency, we chose a sample of 32 adult individuals (age 49.81±3.21 y) with the same number of each sex, who had a similar percentage of nail consistency types (56.25% hard consistency nails and 43.75% soft consistency nails). Immunohistochemical analyses showed that hard consistency nails contain more keratin 17 than soft consistency nails (P=0.026). These novel results allow nail consistency to be defined by the differential expression of keratins in the nail plate, and have potential clinical implications for the diagnosis of possible nail disorders and/or systemic disease., Competing Interests: The authors declare no conflict of interest., (Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2022
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11. Endogenous pH 6.0 β-Galactosidase Activity Is Linked to Neuronal Differentiation in the Olfactory Epithelium.

Author

de Mera-Rodríguez JA, Álvarez-Hernán G, Gañán Y, Santos-Almeida A, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Subjects
Animals, Animals, Newborn, Biomarkers metabolism, Cell Proliferation, Hydrogen-Ion Concentration, Immunohistochemistry, Mice, Staining and Labeling, Cell Differentiation, Olfactory Mucosa cytology, Olfactory Receptor Neurons cytology, beta-Galactosidase metabolism
Abstract

The histochemical detection of β-galactosidase enzymatic activity at pH 6.0 (β-gal-pH6) is a widely used biomarker of cellular senescence in aging tissues. This histochemical assay also detects the presence of programmed cell senescence during specific time windows in degenerating structures of vertebrate embryos. However, it has recently been shown that this enzymatic activity is also enhanced in subpopulations of differentiating neurons in the developing central nervous system in vertebrates. The present study addressed the histochemical detection of β-gal-pH6 enzymatic activity in the developing postnatal olfactory epithelium in the mouse. This activity was detected in the intermediate layer of the olfactory epithelium. As development progressed, the band of β-gal-pH6 labeling in this layer increased in width. Immunohistochemistry and lectin histochemistry showed the β-gal-pH6 staining to be strongly correlated with the immunolabeling of the olfactory marker protein (OMP) that identifies mature olfactory sensory neurons. The cell somata of a subpopulation of differentiated olfactory neurons that were recognized with the Dolichos biflorus agglutinin (DBA) were always located inside this band of β-gal-pH6 staining. However, the β-gal-pH6 histochemical signal was always absent from the apical region where the cytokeratin-8 positive supporting cells were located. Furthermore, no β-gal-pH6 staining was found in the basal region of the olfactory epithelium where PCNA/pHisH3 immunoreactive proliferating progenitor cells, GAP43 positive immature neurons, and cytokeratin-5 positive horizontal basal cells were located. Therefore, β-gal-pH6 seems to be linked to neuronal differentiation and cannot be regarded as a biomarker of cellular senescence during olfactory epithelium development in mice.

Published
2022
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12. Analysis of Programmed Cell Death and Senescence Markers in the Developing Retina of an Altricial Bird Species.

Author

Álvarez-Hernán G, de Mera-Rodríguez JA, Hernández-Núñez I, Marzal A, Gañán Y, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Subjects
Animals, Birds, Finches, Apoptosis genetics, Cellular Senescence physiology, Embryonic Development physiology, Retina physiopathology
Abstract

This study shows the distribution patterns of apoptotic cells and biomarkers of cellular senescence during the ontogeny of the retina in the zebra finch ( T. guttata ). Neurogenesis in this altricial bird species is intense in the retina at perinatal and post-hatching stages, as opposed to precocial bird species in which retinogenesis occurs entirely during the embryonic period. Various phases of programmed cell death (PCD) were distinguishable in the T. guttata visual system. These included areas of PCD in the central region of the neuroretina at the stages of optic cup morphogenesis, and in the sub-optic necrotic centers (St15-20). A small focus of early neural PCD was detected in the neuroblastic layer, dorsal to the optic nerve head, coinciding with the appearance of the first differentiated neuroblasts (St24-St25). There were sparse pyknotic bodies in the non-laminated retina between St26 and St37. An intense wave of neurotrophic PCD was detected in the laminated retina between St42 and P8, the last post-hatching stage included in the present study. PCD was absent from the photoreceptor layer. Phagocytic activity was also detected in Müller cells during the wave of neurotrophic PCD. With regard to the chronotopographical staining patterns of senescence biomarkers, there was strong parallelism between the SA- β -GAL signal and p21 immunoreactivity in both the undifferentiated and the laminated retina, coinciding in the cell body of differentiated neurons. In contrast, no correlation was found between SA- β -GAL activity and the distribution of TUNEL-positive cells in the developing tissue.

Published
2021
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13. Is Senescence-Associated β-Galactosidase a Reliable in vivo Marker of Cellular Senescence During Embryonic Development?

Author

de Mera-Rodríguez JA, Álvarez-Hernán G, Gañán Y, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Abstract

During vertebrate embryonic development, cellular senescence occurs at multiple locations. To date, it has been accepted that when there has been induction of senescence in an embryonic tissue, β-galactosidase activity is detectable at a pH as high as 6.0, and this has been extensively used as a marker of cellular senescence in vivo in both whole-mount and cryosections. Such senescence-associated β-galactosidase (SA-β-GAL) labeling appears enhanced in degenerating regions of the vertebrate embryo that are also affected by programmed cell death. In this sense, there is a strong SA-β-GAL signal which overlaps with the pattern of cell death in the interdigital tissue of the developing limbs, and indeed, many of the labeled cells detected go on to subsequently undergo apoptosis. However, it has been reported that β-GAL activity at pH 6.0 is also enhanced in healthy neurons, and some retinal neurons are strongly labeled with this histochemical technique when they begin to differentiate during early embryonic development. These labeled early post-mitotic neurons also express other senescence markers such as p21. Therefore, the reliability of this histochemical technique in studying senescence in cells such as neurons that undergo prolonged and irreversible cell-cycle arrest is questionable because it is also expressed in healthy post-mitotic cells. The identification of new biomarkers of cellular senescence would, in combination with established markers, increase the specificity and efficiency of detecting cellular senescence in embryonic and healthy mature tissues., 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 de Mera-Rodríguez, Álvarez-Hernán, Gañán, Martín-Partido, Rodríguez-León and Francisco-Morcillo.)

Published
2021
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14. Development and postnatal neurogenesis in the retina: a comparison between altricial and precocial bird species.

Author

Alvarez-Hernan G, de Mera-Rodríguez JA, Gañán Y, Solana-Fajardo J, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Abstract

The visual system is affected by neurodegenerative diseases caused by the degeneration of specific retinal neurons, the leading cause of irreversible blindness in humans. Throughout vertebrate phylogeny, the retina has two kinds of specialized niches of constitutive neurogenesis: the retinal progenitors located in the circumferential marginal zone and Müller glia. The proliferative activity in the retinal progenitors located in the circumferential marginal zone in precocial birds such as the chicken, the commonest bird model used in developmental and regenerative studies, is very low. This region adds only a few retinal cells to the peripheral edge of the retina during several months after hatching, but does not seem to be involved in retinal regeneration. Müller cells in the chicken retina are not proliferative under physiological conditions, but after acute damage some of them undergo a reprogramming event, dedifferentiating into retinal stem cells and generating new retinal neurons. Therefore, regenerative response after injury occurs with low efficiency in the precocial avian retina. In contrast, it has recently been shown that neurogenesis is intense in the retina of altricial birds at hatching. In particular, abundant proliferative activity is detected both in the circumferential marginal zone and in the outer half of the inner nuclear layer. Therefore, stem cell niches are very active in the retina of altricial birds. Although more extensive research is needed to assess the potential of proliferating cells in the adult retina of altricial birds, it emerges as an attractive model for studying different aspects of neurogenesis and neural regeneration in vertebrates., Competing Interests: None

Published
2021
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15. Retinal differentiation in an altricial bird species, Taeniopygia guttata: An immunohistochemical study.

Author

Álvarez-Hernán G, Hernández-Núñez I, Rico-Leo EM, Marzal A, de Mera-Rodríguez JA, Rodríguez-León J, Martín-Partido G, and Francisco-Morcillo J

Subjects
Animals, Animals, Newborn, Biomarkers metabolism, Blotting, Western, Cell Proliferation physiology, Chick Embryo, Eye Proteins metabolism, Immunohistochemistry, Neurogenesis physiology, Retina cytology, Cell Differentiation physiology, Embryonic Development physiology, Finches embryology, Retina embryology
Abstract

The bird retina offers an excellent model to investigate the mechanisms that coordinate the morphogenesis, histogenesis, and differentiation of neuron and glial cells. Although these developmental features have been intensively studied in the chicken (Gallus gallus, Linnaeus 1758), a precocial bird species, little is known about retinogenesis in altricial birds. The purpose of this study was to examine the differentiation of retinal cells in the altricial zebra finch (Taeniopygia guttata, Vieillot, 1817) and compare the results with those from previous studies in G. gallus. By using immunohistochemical techniques, the first differentiated TUJ1-/Isl1-positive neuroblasts were detected in the vitreal surface of the neuroblastic layer at later incubation times in T. guttata than in G. gallus (108 h vs 55 h). The immunoreactivity of these early differentiation markers coincided temporo-spatially with the appearance of the first PCNA-negative nuclei. Furthermore, the first visinin-positive photoreceptors (132 h vs 120 h) and the first Prox-1-immunoreactive neuroblasts (embryonic day 7.25 (E7.25) vs E6.5) were also detected at later embryonic stages in the retina of T. guttata than in the retina of G. gallus. At E13, one day before hatching, abundant PCNA- and pHisH3-immunoreactivities were detected in the T. guttata retina, while proliferation was almost absent in the G. gallus retina at perinatal stages. Therefore, these results suggest that cell differentiation in the retina is delayed in the altricial bird compared to precocial birds. Furthermore, the T. guttata retina was not completely developed at hatching, and abundant mitotically active precursor cells of retinal neurons were found, suggesting that retinal neurogenesis was intense at perinatal stages., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2020
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16. Senescence-associated β-galactosidase activity in the developing avian retina.

Author

de Mera-Rodríguez JA, Álvarez-Hernán G, Gañán Y, Martín-Partido G, Rodríguez-León J, and Francisco-Morcillo J

Subjects
Animals, Biomarkers analysis, Birds, Cell Differentiation, Embryo, Nonmammalian, Neurons cytology, Retina cytology, Retina growth & development, Cellular Senescence, Retina embryology, beta-Galactosidase metabolism
Abstract

Background: Senescence-associated β-galactosidase (SA-β-GAL) histochemistry is the most commonly used biomarker of cellular senescence. These SA-β-GAL-positive cells are senescent embryonic cells that are usually removed by apoptosis from the embryo, followed by macrophage-mediated clearance., Results: Some authors have proposed that SA-β-GAL activity in differentiated neurons from young and adult mammals cannot be uniquely attributed to cell senescence, whether in vivo or in vitro. Using the developing visual system of the chicken as a model, the present study found that SA-β-GAL detected in the developing retina corresponded to lysosomal β-galactosidase activity, and that SA-β-GAL activity did not correlate with the chronotopographical distribution of apoptotic cells. However, SA-β-GAL staining in the undifferentiated retina coincided with the appearance of early differentiating neurons. In the laminated retina, SA-β-GAL staining was concentrated in the ganglion, amacrine, and horizontal cell layers. The photoreceptors and pigment epithelial cells also exhibited SA-β-GAL activity throughout retinal development. We have also found that SA-β-GAL staining strongly correlated p21 immunoreactivity., Conclusion: In conclusion, the results clearly show that SA-β-GAL activity cannot be regarded as a specific marker of senescence during retinal development, and that it is mainly expressed in subpopulations of postmitotic neurons, which are nonproliferative cells, even at early stages of cell differentiation., (© 2019 Wiley Periodicals, Inc.)

Published
2019
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17. Retinal histogenesis in an altricial avian species, the zebra finch (Taeniopygia guttata, Vieillot 1817).

Author

Álvarez-Hernán G, Sánchez-Resino E, Hernández-Núñez I, Marzal A, Rodríguez-León J, Martín-Partido G, and Francisco-Morcillo J

Subjects
Animals, Animals, Newborn, Finches, Retina growth & development, Embryonic Development physiology, Retina cytology, Retina embryology
Abstract

Comparative developmental studies have shown that the retina of altricial fish and mammals is incompletely developed at birth, and that, during the first days of life, maturation proceeds rapidly. In contrast, precocial fish and mammals are born with fully differentiated retinas. Concerning birds, knowledge about retinal development is generally restricted to a single order of precocial birds, Galliformes, due to the fact that both the chicken and the Japanese quail are considered model systems. However, comparison of embryonic pre-hatchling retinal development between altricial and precocial birds has been poorly explored. The purpose of this study was to examine the morphogenesis and histogenesis of the retina in the altricial zebra finch (Taeniopygia guttata, Vieillot 1817) and compare the results with those from previous studies in the precocial chicken. Several maturational features (morphogenesis of the optic vesicle and optic cup, appearance of the first differentiated neurons, the period in which the non-apical cell divisions are observable, and the emergence of the plexiform layers) were found to occur at later stages in the zebra finch than in the chicken. At hatching, the retina of T. guttata showed the typical cytoarchitecture of the mature tissue, although features of immaturity were still observable, such as a ganglion cell layer containing many thick cells, very thin plexiform layers, and poorly developed photoreceptors. Moreover, abundant mitotic activity was detected in the entire retina, even in the regions where the layering was complete. The circumferential marginal zone was very prominent and showed abundant mitotic activity. The partially undifferentiated stage of maturation at hatching makes the T. guttata retina an appropriate model with which to study avian postnatal retinal neurogenesis., (© 2018 Anatomical Society.)

Published
2018
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18. Ontogenetic cell death and phagocytosis in the visual system of vertebrates.

Author

Francisco-Morcillo J, Bejarano-Escobar R, Rodríguez-León J, Navascués J, and Martín-Partido G

Subjects
Animals, Cell Death genetics, Eye cytology, Humans, Morphogenesis genetics, Neurons physiology, Ocular Physiological Phenomena genetics, Phagocytosis genetics, Visual Pathways cytology, Visual Pathways embryology, Visual Pathways metabolism, Apoptosis genetics, Eye embryology, Phagocytosis physiology, Vertebrates embryology, Vertebrates genetics
Abstract

Programmed cell death (PCD), together with cell proliferation, cell migration, and cell differentiation, is an essential process during development of the vertebrate nervous system. The visual system has been an excellent model on which to investigate the mechanisms involved in ontogenetic cell death. Several phases of PCD have been reported to occur during visual system ontogeny. During these phases, comparative analyses demonstrate that dying cells show similar but not identical spatiotemporally restricted patterns in different vertebrates. Additionally, the chronotopographical coincidence of PCD with the entry of specialized phagocytes in some regions of the developing vertebrate visual system suggests that factors released from degenerating cells are involved in the cell migration of macrophages and microglial cells. Contradicting this hypothesis however, in many cases the cell corpses generated during degeneration are rapidly phagocytosed by neighboring cells, such as neuroepithelial cells or Müller cells. In this review, we describe the occurrence and the sites of PCD during the morphogenesis and differentiation of the retina and optic pathways of different vertebrates, and discuss the possible relationship between PCD and phagocytes during ontogeny., (Copyright © 2014 Wiley Periodicals, Inc.)

Published
2014
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19. V-ATPase proton pumping activity is required for adult zebrafish appendage regeneration.

Author

Monteiro J, Aires R, Becker JD, Jacinto A, Certal AC, and Rodríguez-León J

Subjects
Amputation, Surgical, Animal Fins innervation, Animal Fins physiology, Animals, Cell Proliferation drug effects, Gene Knockdown Techniques, Larva physiology, Morpholinos pharmacology, Protons, Regeneration drug effects, Up-Regulation drug effects, Vacuolar Proton-Translocating ATPases antagonists & inhibitors, Proton Pumps metabolism, Regeneration physiology, Vacuolar Proton-Translocating ATPases metabolism, Zebrafish physiology
Abstract

The activity of ion channels and transporters generates ion-specific fluxes that encode electrical and/or chemical signals with biological significance. Even though it is long known that some of those signals are crucial for regeneration, only in recent years the corresponding molecular sources started to be identified using mainly invertebrate or larval vertebrate models. We used adult zebrafish caudal fin as a model to investigate which and how ion transporters affect regeneration in an adult vertebrate model. Through the combined use of biophysical and molecular approaches, we show that V-ATPase activity contributes to a regeneration-specific H+ ef`flux. The onset and intensity of both V-ATPase expression and H+ efflux correlate with the different regeneration rate along the proximal-distal axis. Moreover, we show that V-ATPase inhibition impairs regeneration in adult vertebrate. Notably, the activity of this H+ pump is necessary for aldh1a2 and mkp3 expression, blastema cell proliferation and fin innervation. To the best of our knowledge, this is the first report on the role of V-ATPase during adult vertebrate regeneration.

Published
2014
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20. Influence of airflow intensity on phytase production by solid-state fermentation.

Author

Rodríguez-Fernández DE, Rodríguez-León JA, de Carvalho JC, Karp SG, Sturm W, Parada JL, and Soccol CR

Subjects
Aerobiosis, Hot Temperature, Kinetics, 6-Phytase biosynthesis, Air Movements, Aspergillus niger enzymology, Biotechnology methods, Fermentation physiology
Abstract

Phytase production by Aspergillus niger F3 by solid state fermentation (SSF) on citrus peel was evaluated at pilot scale under different aeration conditions. The best airflow intensity was 1 VkgM (Lair kg medium(-1) min(-1)), which allowed to produce 65 units of phytases per gram in dry basis (65 Ug(-1) d.b.) as it removed the metabolic heat generated by the microorganism, Agitation did not improve heat removal. Airflow intensity was considered as scale-up criterion. When the airflow intensity was maintained at 1 VkgM for SSF with 2 and 20 kg of medium, the kinetics parameters for biomass and enzyme concentration at the end of fermentation differed by less than 2. The air flow intensity was required to maintain the temperature and cool the SSF and to provide oxygen for microbial growth. Air flow intensity is a key a factor that must be considered when scale-up of SSF is attempted., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2012
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21. Targeting the hemangioblast with a novel cell type-specific enhancer.

Author

Teixeira V, Arede N, Gardner R, Rodríguez-León J, and Tavares AT

Subjects
Animals, Yolk Sac blood supply, Chick Embryo embryology, Enhancer Elements, Genetic, Hemangioblasts metabolism, Hematopoiesis
Abstract

Background: Hemangioblasts are known as the common precursors for primitive hematopoietic and endothelial lineages. Their existence has been supported mainly by the observation that both cell types develop in close proximity and by in vitro differentiation and genetic studies. However, more compelling evidence will arise from tracking their cell fates using a lineage-specific marker., Results: We report the identification of a hemangioblast-specific enhancer (Hb) located in the cis-regulatory region of chick Cerberus gene (cCer) that is able to direct the expression of enhanced green fluorescent protein (eGFP) to the precursors of yolk sac blood and endothelial cells in electroporated chick embryos. Moreover, we present the Hb-eGFP reporter as a powerful live imaging tool for visualizing hemangioblast cell fate and blood island morphogenesis., Conclusions: We hereby introduce the Hb enhancer as a valuable resource for genetically targeting the hemangioblast population as well as for studying the dynamics of vascular and blood cell development.

Published
2011
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22. The behavior of kinetic parameters in production of pectinase and xylanase by solid-state fermentation.

Author

Rodríguez-Fernández DE, Rodríguez-León JA, de Carvalho JC, Sturm W, and Soccol CR

Subjects
Aerobiosis, Air, Biomass, Bioreactors microbiology, Carbon Dioxide metabolism, Citrus chemistry, Kinetics, Oxygen Consumption, Aspergillus niger enzymology, Biotechnology methods, Endo-1,4-beta Xylanases biosynthesis, Fermentation, Polygalacturonase biosynthesis
Abstract

Solid-state fermentation (SSF) is defined as the growth of microbes without a free-flowing aqueous phase. The feasibility of using a citrus peel for producing pectinase and xylanase via the SSF process by Aspergillus niger F3 was evaluated in a 2 kg bioreactor. Different aeration conditions were tested to optimize the pectinase and xylanase production. The best air flow intensity was 1 V kg M (volumetric air flow per kilogram of medium), which allowed a sufficient amount of O2 for the microorganism growth producing 265 U/g and 65 U/g pectinases and xylanases, respectively. A mathematical model was applied to determine the different kinetic parameters related to SSF. The specific growth rate and biomass oxygen yield decreased during fermentation, whereas an increase in the maintenance coefficient for the different employed carbon sources was concurrently observed., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published
2011
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23. FLRT3 as a key player on chick limb development.

Author

Tomás AR, Certal AC, and Rodríguez-León J

Subjects
Animals, Bone Morphogenetic Proteins metabolism, Chick Embryo, Cloning, Molecular, DNA Primers genetics, Ectoderm metabolism, Ectoderm ultrastructure, Electroporation, Extracellular Signal-Regulated MAP Kinases metabolism, Fibroblast Growth Factors metabolism, Fibronectins genetics, Immunohistochemistry, In Situ Hybridization, Microscopy, Electron, Scanning, Microspheres, Polymerase Chain Reaction, Wnt Proteins metabolism, Ectoderm embryology, Extremities embryology, Fibronectins metabolism, Gene Expression Regulation, Developmental physiology, Signal Transduction physiology
Abstract

Limb outgrowth is maintained by a specialized group of cells, the apical ectodermal ridge (AER), a thickening of the limb epithelium at its distal tip. It has been shown that fibroblast growth factor (FGF) activity and activation of the Erk pathway are crucial for AER function. Recently, FLRT3, a transmembrane protein able to interact with FGF receptors, has been implicated in the activation of ERK by FGFs. In this study, we show that flrt3 expression is restricted to the AER, co-localizing its expression with fgf8 and pERK activity. Loss-of-function studies have shown that silencing of flrt3 affects the integrity of the AER and, subsequently, its proper function during limb bud outgrowth. Our data also indicate that flrt3 expression is not regulated by FGF activity in the AER, whereas ectopic WNT3A is able to induce flrt3 expression. Overall, our findings show that flrt3 is a key player during chicken limb development, being necessary but not sufficient for proper AER formation and maintenance under the control of BMP and WNT signalling., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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24. Pitx2 regulates gonad morphogenesis.

Author

Rodríguez-León J, Rodríguez Esteban C, Martí M, Santiago-Josefat B, Dubova I, Rubiralta X, and Izpisúa Belmonte JC

Subjects
Animals, Cell Adhesion physiology, Cell Proliferation, Chick Embryo, Cyclin D1 metabolism, Epithelium embryology, Female, Gene Expression Regulation, Developmental physiology, Germ Cells cytology, Homeodomain Proteins, Male, Organ Size, Ovary cytology, Spindle Apparatus metabolism, Testis cytology, Testis embryology, Transcription Factors, Homeobox Protein PITX2, Cell Differentiation physiology, Chickens physiology, Germ Cells physiology, Ovary embryology
Abstract

Organ shape and size, and, ultimately, organ function, relate in part to the cell and tissue spatial arrangement that takes place during embryonic development. Despite great advances in the genetic regulatory networks responsible for tissue and organ development, it is not yet clearly understood how specific gene functions are linked to the specific morphogenetic processes underlying the internal organ asymmetries found in vertebrate animals. During female chick embryogenesis, and in contrast to males where both testes develop symmetrically, asymmetrical gonad morphogenesis results in only one functional ovary. The disposition of paired organs along the left-right body axis has been shown to be regulated by the activity of the homeobox containing gene pitx2. We have found that pitx2 regulates cell adhesion, affinity, and cell recognition events in the developing gonad primordium epithelia. This in turn not only allows for proper somatic development of the gonad cortex but also permits the proliferation and differentiation of primordial germ cells. We illustrate how Pitx2 activity directs asymmetrical gonad morphogenesis by controlling mitotic spindle orientation of the developing gonad cortex and how, by modulating cyclinD1 expression during asymmetric ovarian development, Pitx2 appears to control gonad organ size. All together our observations indicate that the effects elicited by Pitx2 during the development of the female chick ovary are critical for cell topology, growth, fate, and ultimately organ morphogenesis and function.

Published
2008
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25. Tbx2 and Tbx3 regulate the dynamics of cell proliferation during heart remodeling.

Author

Ribeiro I, Kawakami Y, Büscher D, Raya A, Rodríguez-León J, Morita M, Rodríguez Esteban C, and Izpisúa Belmonte JC

Subjects
Animals, Gene Expression Regulation, Developmental, Transcription Factors genetics, Zebrafish, Cell Proliferation, Heart physiology, Transcription Factors physiology
Abstract

Background: The heart forms from a linear tube that is subject to complex remodeling during embryonic development. Hallmarks of this remodeling are the looping of the heart tube and the regionalization into chamber and non-chamber myocardium. Cardiomyocytes in the future chamber myocardium acquire different cellular and physiological characteristics through activation of a chamber-specific genetic program, which is in part mediated by T-box genes., Methodology/principal Finding: We characterize two new zebrafish T-box transcription factors, tbx3b and tbx2a, and analyze their role during the development of the atrioventricular canal. Loss- and gain-of-function analyses demonstrate that tbx3b and tbx2a are necessary to repress the chamber-genetic program in the non-chamber myocardium. We also show that tbx3b and tbx2a are required to control cell proliferation in the atrioventricular canal and that misregulation of cell proliferation in the heart tube influences looping. Furthermore, we characterize the heart phenotype of a novel Tbx3 mutation in mice and show that both the control of cell proliferation and the repression of chamber-specific genetic program in the non-chamber myocardium are conserved roles of Tbx3 in this species., Conclusions/significance: Taken together, our results uncover an evolutionarily conserved role of Tbx2/3 transcription factors during remodeling of the heart myocardium and highlight the importance of controlling cell proliferation as a driving force of morphogenesis.

Published
2007
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26. Sp8 and Sp9, two closely related buttonhead-like transcription factors, regulate Fgf8 expression and limb outgrowth in vertebrate embryos.

Author

Kawakami Y, Esteban CR, Matsui T, Rodríguez-León J, Kato S, and Izpisúa Belmonte JC

Subjects
Amino Acid Sequence, Animals, Animals, Genetically Modified, Base Sequence, Chick Embryo, DNA, Complementary genetics, Evolution, Molecular, Fibroblast Growth Factor 10, Fibroblast Growth Factor 8, Gene Expression Regulation, Developmental, Mice, Mice, Knockout, Molecular Sequence Data, Mutation, Phylogeny, Proto-Oncogene Proteins genetics, Proto-Oncogene Proteins metabolism, Sequence Homology, Amino Acid, Signal Transduction, Wnt Proteins, Zebrafish, Zebrafish Proteins genetics, Zebrafish Proteins metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Extremities embryology, Fibroblast Growth Factors genetics, Fibroblast Growth Factors metabolism, Transcription Factors genetics, Transcription Factors metabolism
Abstract

Initiation and maintenance of signaling centers is a key issue during embryonic development. The apical ectodermal ridge, a specialized epithelial structure and source of Fgf8, is a pivotal signaling center for limb outgrowth. We show that two closely related buttonhead-like zinc-finger transcription factors, Sp8 and Sp9, are expressed in the AER, and regulate Fgf8 expression and limb outgrowth. Embryological and genetic analyses have revealed that Sp8 and Sp9 are ectodermal targets of Fgf10 signaling from the mesenchyme. We also found that Wnt/beta-catenin signaling positively regulates Sp8, but not Sp9. Overexpression functional analyses in chick unveiled their role as positive regulators of Fgf8 expression. Moreover, a dominant-negative approach in chick and knockdown analysis with morpholinos in zebrafish revealed their requirement for Fgf8 expression and limb outgrowth, and further indicate that they have a coordinated action on Fgf8 expression. Our study demonstrates that Sp8 and Sp9, via Fgf8, are involved in mediating the actions of Fgf10 and Wnt/beta-catenin signaling during vertebrate limb outgrowth.

Published
2004
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27. Notch activity acts as a sensor for extracellular calcium during vertebrate left-right determination.

Author

Raya A, Kawakami Y, Rodríguez-Esteban C, Ibañes M, Rasskin-Gutman D, Rodríguez-León J, Büscher D, Feijó JA, and Izpisúa Belmonte JC

Subjects
Animals, Avian Proteins, Calcium-Binding Proteins, Cell Line, Tumor, Chick Embryo, Egtazic Acid pharmacology, Gastrula metabolism, Gene Expression Regulation, Developmental drug effects, Glycosyltransferases genetics, Glycosyltransferases metabolism, H(+)-K(+)-Exchanging ATPase metabolism, Humans, Intercellular Signaling Peptides and Proteins, Intracellular Signaling Peptides and Proteins, Ligands, Membrane Proteins genetics, Models, Biological, Nodal Protein, Omeprazole pharmacology, Proteins genetics, Proteins metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Receptor, Notch1, Receptors, Cell Surface genetics, Receptors, Cell Surface metabolism, Receptors, Notch, Serrate-Jagged Proteins, Transforming Growth Factor beta genetics, Transforming Growth Factor beta metabolism, Body Patterning drug effects, Calcium Signaling drug effects, Egtazic Acid analogs & derivatives, Membrane Proteins metabolism, Transcription Factors
Abstract

During vertebrate embryo development, the breaking of the initial bilateral symmetry is translated into asymmetric gene expression around the node and/or in the lateral plate mesoderm. The earliest conserved feature of this asymmetric gene expression cascade is the left-sided expression of Nodal, which depends on the activity of the Notch signalling pathway. Here we present a mathematical model describing the dynamics of the Notch signalling pathway during chick embryo gastrulation, which reveals a complex and highly robust genetic network that locally activates Notch on the left side of Hensen's node. We identify the source of the asymmetric activation of Notch as a transient accumulation of extracellular calcium, which in turn depends on left-right differences in H+/K+-ATPase activity. Our results uncover a mechanism by which the Notch signalling pathway translates asymmetry in epigenetic factors into asymmetric gene expression around the node.

Published
2004
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28. MKP3 mediates the cellular response to FGF8 signalling in the vertebrate limb.

Author

Kawakami Y, Rodríguez-León J, Koth CM, Büscher D, Itoh T, Raya A, Ng JK, Esteban CR, Takahashi S, Henrique D, Schwarz MF, Asahara H, and Izpisúa Belmonte JC

Subjects
Animals, Apoptosis, Chick Embryo, Dual Specificity Phosphatase 6, Embryo, Nonmammalian cytology, Embryo, Nonmammalian metabolism, Enzyme Activation, Fibroblast Growth Factor 8, Fibroblast Growth Factors genetics, MAP Kinase Signaling System, Mice, Molecular Sequence Data, Morphogenesis, Phosphatidylinositol 3-Kinases metabolism, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-akt, Zebrafish, Extremities embryology, Fibroblast Growth Factors physiology, Gene Expression Regulation, Developmental, Protein Serine-Threonine Kinases, Protein Tyrosine Phosphatases metabolism, Signal Transduction
Abstract

The mitogen-activated protein kinase/extracellular signal-regulated kinase (MAPK/ERK) and phosphatidylinositol-3-OH kinase (PI3K)/Akt pathways are involved in the regulatory mechanisms of several cellular processes including proliferation, differentiation and apoptosis. Here we show that during chick, mouse and zebrafish limb/fin development, a known MAPK/ERK regulator, Mkp3, is induced in the mesenchyme by fibroblast growth factor 8 (FGF8) signalling, through the PI3K/Akt pathway. This correlates with a high level of phosphorylated ERK in the apical ectodermal ridge (AER), where Mkp3 expression is excluded. Conversely, phosphorylated Akt is detected only in the mesenchyme. Constitutively active Mek1, as well as the downregulation of Mkp3 by small interfering RNA (siRNA), induced apoptosis in the mesenchyme. This suggests that MKP3 has a key role in mediating the proliferative, anti-apoptotic signalling of AER-derived FGF8.

Published
2003
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29. The limb identity gene Tbx5 promotes limb initiation by interacting with Wnt2b and Fgf10.

Author

Ng JK, Kawakami Y, Büscher D, Raya A, Itoh T, Koth CM, Rodríguez Esteban C, Rodríguez-León J, Garrity DM, Fishman MC, and Izpisúa Belmonte JC

Subjects
Amino Acid Sequence, Animals, Chick Embryo, Embryo, Nonmammalian, Fibroblast Growth Factor 10, Fibroblast Growth Factors metabolism, Gene Expression Regulation, Developmental, Glycoproteins metabolism, Limb Buds physiology, Molecular Sequence Data, Mutation, Signal Transduction, T-Box Domain Proteins metabolism, Wnt Proteins, Zebrafish genetics, Zebrafish Proteins metabolism, Extremities embryology, Fibroblast Growth Factors genetics, Glycoproteins genetics, Intercellular Signaling Peptides and Proteins, T-Box Domain Proteins genetics, Zebrafish embryology, Zebrafish Proteins genetics
Abstract

A major gap in our knowledge of development is how the growth and identity of tissues and organs are linked during embryogenesis. The vertebrate limb is one of the best models to study these processes. Combining mutant analyses with gain- and loss-of-function approaches in zebrafish and chick embryos, we show that Tbx5, in addition to its role governing forelimb identity, is both necessary and sufficient for limb outgrowth. We find that Tbx5 functions downstream of WNT signaling to regulate Fgf10, which, in turn, maintains Tbx5 expression during limb outgrowth. Furthermore, our results indicate that Tbx5 and Wnt2b function together to initiate and specify forelimb outgrowth and identity. The molecular interactions governed by members of the T-box, Wnt and Fgf gene families uncovered in this study provide a framework for understanding not only limb development, but how outgrowth and identity of other tissues and organs of the embryo may be regulated.

Published
2002
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30. Bone morphogenetic proteins regulate interdigital cell death in the avian embryo.

Author

Merino R, Gañán Y, Macias D, Rodríguez-León J, and Hurle JM

Subjects
Animals, Bone Morphogenetic Proteins genetics, Caspases metabolism, Gene Expression Regulation, Developmental, Limb Buds cytology, Mice, Morphogenesis, Toes embryology, Apoptosis physiology, Bone Morphogenetic Proteins physiology, Chick Embryo physiology, Limb Buds physiology
Abstract

The embryonic limb bud provides an excellent model for analyzing the mechanisms that regulate programmed cell death during development. At the time of digit formation in the developing autopod, the undifferentiated distal mesodermal cells may undergo or chondrogenic differentiation or apoptosis depending whether they are incorporated into the future digital rays or into the interdigital spaces. Both chondrogenesis or apoptosis are induced by local BMPS. However, whereas the chondrogenic-promoting activity of BMPs appears to be regulated through the BMPR-1b receptor, the mechanism by which the BMPs execute the death program remains unknown. The BMP proapoptotic activity requires the expression of members of the msx family of closely related homeobox-containing genes and is finally mediated by caspase activation, but the nature of the caspase(s) directly responsible for the cell death is also unknown. Finally, other growth factors present in the developing autopod at the stages of digit formation such as members of the FGF and TGF beta families modulate the ability of BMPs to induce cell death or chondrogenesis.

Published
1999
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32. [Gastric cancer. Review of 375 cases].

Author

González-Cachón González B, Rodríguez León J, Herrero Montoto M, Barneo Serra L, and Estrada González L

Subjects
Adult, Aged, Female, Humans, Male, Middle Aged, Neoplasm Invasiveness, Neoplasm Staging, Sex Factors, Stomach Neoplasms epidemiology, Stomach Neoplasms mortality
Published
1979

33. [Excision in nectoric hemorrhagic pancreatitis].

Author

González-Cachón B, Miyar González A, Sariego García R, Rodríguez León J, Vazquez Velasco L, and Fresno Forcelledo M

Subjects
Acute Disease, Adult, Female, Humans, Middle Aged, Necrosis, Pancreatectomy, Pancreatitis pathology, Pancreatitis surgery
Published
1980

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