Your search keyword '"Alejandro Gallego Ortega"' showing total 34 results

1. Evaluation of the neuroprotective efficacy of the gramine derivative ITH12657 against NMDA-induced excitotoxicity in the rat retina

Author

Johnny Di Pierdomenico, Alejandro Gallego-Ortega, María Norte-Muñoz, Beatriz Vidal-Villegas, Isaac Bravo, María Boluda-Ruiz, Jose Manuel Bernal-Garro, Iván Fernandez-Bueno, Jose Carlos Pastor-Jimeno, María Paz Villegas-Pérez, Marcelino Avilés-Trigueros, Cristobal de los Ríos, and Manuel Vidal-Sanz

Subjects

NMDA excitotoxicity, glaucoma, retina ganglion cell, neuroprotection, Brn3a + RGCs, SD-OCT, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Human anatomy, QM1-695

Abstract

PurposeThe aim of this study was to investigate, the neuroprotective effects of a new Gramine derivative named: ITH12657, in a model of retinal excitotoxicity induced by intravitreal injection of NMDA.MethodsAdult Sprague Dawley rats received an intravitreal injection of 100 mM NMDA in their left eye and were treated daily with subcutaneous injections of ITH12657 or vehicle. The best dose–response, therapeutic window study, and optimal treatment duration of ITH12657 were studied. Based on the best survival of Brn3a + RGCs obtained from the above-mentioned studies, the protective effects of ITH12657 were studied in vivo (retinal thickness and full-field Electroretinography), and ex vivo by quantifying the surviving population of Brn3a + RGCs, αRGCs and their subtypes α-ONsRGCs, α-ONtRGCs, and α-OFFRGCs.ResultsAdministration of 10 mg/kg ITH12657, starting 12 h before NMDA injection and dispensed for 3 days, resulted in the best significant protection of Brn3a + RGCs against NMDA-induced excitotoxicity. In vivo, ITH12657-treated rats showed significant preservation of retinal thickness and functional protection against NMDA-induced retinal excitotoxicity. Ex vivo results showed that ITH12657 afforded a significant protection against NMDA-induced excitotoxicity for the populations of Brn3a + RGC, αRGC, and αONs-RGC, but not for the population of αOFF-RGC, while the population of α-ONtRGC was fully resistant to NMDA-induced excitotoxicity.ConclusionSubcutaneous administration of ITH12657 at 10 mg/kg, initiated 12 h before NMDA-induced retinal injury and continued for 3 days, resulted in the best protection of Brn3a + RGCs, αRGC, and αONs-RGC against excitotoxicity-induced RGC death. The population of αOFF-RGCs was extremely sensitive while α-ONtRGCs were fully resistant to NMDA-induced excitotoxicity.

Published

2024

2. Retinal response to systemic inflammation differs between sexes and neurons

Author

Kristy T. Rodríguez-Ramírez, María Norte-Muñoz, Fernando Lucas-Ruiz, Alejandro Gallego-Ortega, Francesco Calzaferri, David García-Bernal, Carlos M. Martínez, Caridad Galindo-Romero, Cristóbal de los Ríos, Manuel Vidal-Sanz, and Marta Agudo-Barriuso

Subjects

male, female, lipopolysaccharide, inflammation, central nervous system, neuronal death, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundNeurological dysfunction and glial activation are common in severe infections such as sepsis. There is a sexual dimorphism in the response to systemic inflammation in both patients and animal models, but there are few comparative studies. Here, we investigate the effect of systemic inflammation induced by intraperitoneal administration of lipopolysaccharide (LPS) on the retina of male and female mice and determine whether antagonism of the NLRP3 inflammasome and the extrinsic pathway of apoptosis have protective effects on the retina.MethodsA single intraperitoneal injection of LPS (5 mg/kg) was administered to two months old C57BL/6J male and female mice. Retinas were examined longitudinally in vivo using electroretinography and spectral domain optical coherence tomography. Retinal ganglion cell (RGC) survival and microglial activation were analysed in flat-mounts. Retinal extracts were used for flow cytometric analysis of CD45 and CD11b positive cells. Matched plasma and retinal levels of proinflammatory cytokines were measured by ELISA. Retinal function and RGC survival were assessed in animals treated with P2X7R and TNFR1 antagonists alone or in combination.ResultsIn LPS-treated animals of both sexes, there was transient retinal dysfunction, loss of vision-forming but not non-vision forming RGCs, retinal swelling, microglial activation, cell infiltration, and increases in TNF and IL-1β. Compared to females, males showed higher vision-forming RGC death, slower functional recovery, and overexpression of lymphotoxin alpha in their retinas. P2X7R and TNFR1 antagonism, alone or in combination, rescued vision-forming RGCs. P2X7R antagonism also rescued retinal function. Response to treatment was better in females than in males.ConclusionsSystemic LPS has neuronal and sex-specific adverse effects in the mouse retina, which are counteracted by targeting the NLRP3 inflammasome and the extrinsic pathway of apoptosis. Our results highlight the need to analyse males and females in preclinical studies of inflammatory diseases affecting the central nervous system

Published

2024

3. Immune recognition of syngeneic, allogeneic and xenogeneic stromal cell transplants in healthy retinas

Author

María Norte-Muñoz, Alejandro Gallego-Ortega, Fernando Lucas-Ruiz, María J. González-Riquelme, Yazmín I. Changa-Espinoza, Caridad Galindo-Romero, Peter Ponsaerts, Manuel Vidal-Sanz, David García-Bernal, and Marta Agudo-Barriuso

Subjects

Müller cells, CD45, ERG, Retinal ganglion cells, BM-MSCs, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Advanced therapies using adult mesenchymal stromal cells (MSCs) for neurodegenerative diseases are not effectively translated into the clinic. The cross talk between the transplanted cells and the host tissue is something that, despite its importance, is not being systematically investigated. Methods We have compared the response of the mouse healthy retina to the intravitreal transplantation of MSCs derived from the bone marrow in four modalities: syngeneic, allogeneic, xenogeneic and allogeneic with immunosuppression using functional analysis in vivo and histology, cytometry and protein measurement post-mortem. Data were considered significant (p

Published

2022

4. Alpha retinal ganglion cells in pigmented mice retina: number and distribution

Author

Alejandro Gallego-Ortega, María Norte-Muñoz, Johnny Di Pierdomenico, Marcelino Avilés-Trigueros, Pedro de la Villa, Francisco Javier Valiente-Soriano, and Manuel Vidal-Sanz

Subjects

alpha retinal ganglion cells, intrinsically photosensitive retinal ganglion cells, osteopontin (OPN), melanopsin (OPN4), ON sustained alpha retinal ganglion cells, ON transient alpha retinal ganglion cells, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Human anatomy, QM1-695

Abstract

Purpose: To identify and characterize numerically and topographically the population of alpha retinal ganglion cells (αRGCs) and their subtypes, the sustained-response ON-center αRGCs (ONs-αRGCs), which correspond to the type 4 intrinsically photosensitive RGCs (M4-ipRGCs), the transient-response ON-center αRGCs (ONt-αRGCs), the sustained-response OFF-center αRGCs (OFFs-αRGCs), and the transient-response OFF-center αRGCs (OFFt-αRGCs) in the adult pigmented mouse retina.Methods: The αRGC population and its subtypes were studied in flat-mounted retinas and radial sections immunodetected against non-phosphorylated high molecular weight neurofilament subunit (SMI-32) or osteopontin (OPN), two αRGCs pan-markers; Calbindin, expressed in ONs-αRGCs, and amacrines; T-box transcription factor T-brain 2 (Tbr2), a key transcriptional regulator for ipRGC development and maintenance, expressed in ipRGCs and GABA-displaced amacrine cells; OPN4, an anti-melanopsin antibody; or Brn3a and Brn3c, markers of RGCs. The total population of RGCs was counted automatically and αRGCs and its subtypes were counted manually, and color-coded neighborhood maps were used for their topographical representation.Results: The total mean number of αRGCs per retina is 2,252 ± 306 SMI32+αRGCs and 2,315 ± 175 OPN+αRGCs (n = 10), representing 5.08% and 5.22% of the total number of RGCs traced from the optic nerve, respectively. αRGCs are distributed throughout the retina, showing a higher density in the temporal hemiretina. ONs-αRGCs represent ≈36% [841 ± 110 cells (n = 10)] of all αRGCs and are located throughout the retina, with the highest density in the temporal region. ONt-αRGCs represent ≈34% [797 ± 146 cells (n = 10)] of all αRGCs and are mainly located in the central retinal region. OFF-αRGCs represent the remaining 32% of total αRGCs and are divided equally between OFFs-αRGCs and OFFt-αRGCs [363 ± 50 cells (n = 10) and 376 ± 36 cells (n = 10), respectively]. OFFs-αRGCs are mainly located in the supero-temporal peripheral region of the retina and OFFt-αRGCs in the mid-peripheral region of the retina, especially in the infero-temporal region.Conclusions: The combination of specific antibodies is a useful tool to identify and study αRGCs and their subtypes. αRGCs are distributed throughout the retina presenting higher density in the temporal area. The sustained ON and OFF response subtypes are mainly located in the periphery while the transient ON and OFF response subtypes are found in the central regions of the retina.

Published

2022

5. Systemic taurine treatment affords functional and morphological neuroprotection of photoreceptors and restores retinal pigment epithelium function in RCS rats

Author

Ana Martínez-Vacas, Johnny Di Pierdomenico, Alejandro Gallego-Ortega, Francisco J. Valiente-Soriano, Manuel Vidal-Sanz, Serge Picaud, María Paz Villegas-Pérez, and Diego García-Ayuso

Subjects

Taurine, Retinal degeneration, RCS, Merkt, RPE, Microglia, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

The aim of our work was to study whether taurine administration has neuroprotective effects in dystrophic Royal College of Surgeons (RCS) rats, suffering retinal degeneration secondary to impaired retinal pigment epithelium phagocytosis caused by a MERTK mutation. Dystrophic RCS-p + female rats (n = 36) were divided into a non-treated group (n = 16) and a treated group (n = 20) that received taurine (0.2 M) in drinking water from postnatal day (P)21 to P45, when they were processed. Retinal function was assessed with electroretinogram. Retinal morphology was assessed in cross-sections using immunohistochemical techniques to label photoreceptors, retinal microglial and macroglial cells, active zones of conventional and ribbon synaptic connections, and oxidative stress. Retinal pigment epithelium function was examined using intraocular fluorogold injections. Our results document that taurine treatment increases taurine plasma levels and photoreceptor survival in dystrophic rats. The number of photoreceptor nuclei rows at P45 was 3–5 and 6–11 in untreated and treated animals, respectively. Electroretinograms showed increases of 70% in the rod response, 400% in the a-wave amplitude, 30% in the b-wave amplitude and 75% in the photopic b-wave response in treated animals. Treated animals also showed decreased numbers of microglial cells in the outer retinal layers, decreased glial fibrillary acidic protein (GFAP) expression in Müller cells, decreased oxidative stress in the outer and inner nuclear layers and improved maintenance of synaptic connections. Treated animals showed increased FG phagocytosis in the retinal pigment epithelium cells. In conclusion, systemic taurine treatment decreases photoreceptor degeneration and increases electroretinographic responses in dystrophic RCS rats and these effects may be mediated through various neuroprotective mechanisms.

Published

2022

6. The retina of the lab rat: focus on retinal ganglion cells and photoreceptors

Author

Caridad Galindo-Romero, María Norte-Muñoz, Alejandro Gallego-Ortega, Kristy T. Rodríguez-Ramírez, Fernando Lucas-Ruiz, María Josefa González-Riquelme, Manuel Vidal-Sanz, and Marta Agudo-Barriuso

Subjects

retinal ganglion cells, melanopsin, photoreceptors, topography, electroretinogram, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Human anatomy, QM1-695

Abstract

Albino and pigmented rat strains are widely used in models to study retinal degeneration and to test new therapies. Here, we have summarized the main topographical and functional characteristics of the rat retina focussing on photoreceptors and retinal ganglion cells (RGCs), the beginning and end of the retinal circuitry, respectively. These neurons are very sensitive to injury and disease, and thus knowing their normal number, topography, and function is essential to accurately investigate on neuronal survival and protection.

Published

2022

7. Neuroprotection and Axonal Regeneration Induced by Bone Marrow Mesenchymal Stromal Cells Depend on the Type of Transplant

Author

María Norte-Muñoz, Fernando Lucas-Ruiz, Alejandro Gallego-Ortega, David García-Bernal, Francisco J. Valiente-Soriano, Pedro de la Villa, Manuel Vidal-Sanz, and Marta Agudo-Barriuso

Subjects

retinal ganglion cell, optic nerve crush, bone marrow mesenchymal stromal cells, syngraft, allograft, xenograft, Biology (General), QH301-705.5

Abstract

Mesenchymal stromal cell (MSC) therapy to treat neurodegenerative diseases has not been as successful as expected in some preclinical studies. Because preclinical research is so diverse, it is difficult to know whether the therapeutic outcome is due to the cell type, the type of transplant or the model of disease. Our aim here was to analyze the effect of the type of transplant on neuroprotection and axonal regeneration, so we tested MSCs from the same niche in the same model of neurodegeneration in the three transplantation settings: xenogeneic, syngeneic and allogeneic. For this, bone marrow mesenchymal stromal cells (BM-MSCs) isolated from healthy human volunteers or C57/BL6 mice were injected into the vitreous body of C57/BL6 mice (xenograft and syngraft) or BALB/c mice (allograft) right after optic nerve axotomy. As controls, vehicle matched groups were done. Retinal anatomy and function were analyzed in vivo by optical coherence tomography and electroretinogram, respectively. Survival of vision forming (Brn3a+) and non-vision forming (melanopsin+) retinal ganglion cells (RGCs) was assessed at 3, 5 and 90 days after the lesion. Regenerative axons were visualized by cholera toxin β anterograde transport. Our data show that grafted BM-MSCs did not integrate in the retina but formed a mesh on top of the ganglion cell layer. The xenotransplant caused retinal edema, detachment and folding, and a significant decrease of functionality compared to the murine transplants. RGC survival and axonal regeneration were significantly higher in the syngrafted retinas than in the other two groups or vehicle controls. Melanopsin+RGCs, but not Brn3a+RGCs, were also neuroprotected by the xenograft. In conclusion, the type of transplant has an impact on the therapeutic effect of BM-MSCs affecting not only neuronal survival but also the host tissue response. Our data indicate that syngrafts may be more beneficial than allografts and, interestingly, that the type of neuron that is rescued also plays a significant role in the successfulness of the cell therapy.

Published

2021

8. Animal Models of LED-Induced Phototoxicity. Short- and Long-Term In Vivo and Ex Vivo Retinal Alterations

Author

Juan A. Miralles de Imperial-Ollero, Alejandro Gallego-Ortega, Arturo Ortín-Martínez, María Paz Villegas-Pérez, Francisco J. Valiente-Soriano, and Manuel Vidal-Sanz

Subjects

LED induced phototoxicity, cone photoreceptor, microglia activation, retinal pigment epithelium, neuroprotection, Science

Abstract

Phototoxicity animal models have been largely studied due to their degenerative communalities with human pathologies, e.g., age-related macular degeneration (AMD). Studies have documented not only the effects of white light exposure, but also other wavelengths using LEDs, such as blue or green light. Recently, a blue LED-induced phototoxicity (LIP) model has been developed that causes focal damage in the outer layers of the superior-temporal region of the retina in rodents. In vivo studies described a progressive reduction in retinal thickness that affected the most extensively the photoreceptor layer. Functionally, a transient reduction in a- and b-wave amplitude of the ERG response was observed. Ex vivo studies showed a progressive reduction of cones and an involvement of retinal pigment epithelium cells in the area of the lesion and, in parallel, an activation of microglial cells that perfectly circumscribe the damage in the outer retinal layer. The use of neuroprotective strategies such as intravitreal administration of trophic factors, e.g., basic fibroblast growth factor (bFGF), brain-derived neurotrophic factor (BDNF), ciliary neurotrophic factor (CNTF) or pigment epithelium-derived factor (PEDF) and topical administration of the selective alpha-2 agonist (Brimonidine) have demonstrated to increase the survival of the cone population after LIP.

Published

2021

9. Differential response of injured and healthy retinas to syngeneic and allogeneic transplantation of a clonal cell line of immortalized olfactory ensheathing glia: a double-edged sword

Author

María Norte-Muñoz, María Portela-Lomba, Paloma Sobrado-Calvo, Diana Simón, Johnny Di Pierdomenico, Alejandro Gallego-Ortega, Mar Pérez, José M. Cabrera-Maqueda, Javier Sierra, Manuel Vidal-Sanz, María Teresa Moreno-Flores, and Marta Agudo-Barriuso

Subjects

cell therapy, immune recognition, major histocompatibility complex class ii (mhcii), neuroprotection, olfactory ensheathing glia, retinal ganglion cells, Neurology. Diseases of the nervous system, RC346-429

Abstract

Olfactory ensheathing glia promote axonal regeneration in the mammalian central nervous system, including retinal ganglion cell axonal growth through the injured optic nerve. Still, it is unknown whether olfactory ensheathing glia also have neuroprotective properties. Olfactory ensheathing glia express brain-derived neurotrophic factor, one of the best neuroprotectants for axotomized retinal ganglion cells. Therefore, we aimed to investigate the neuroprotective capacity of olfactory ensheating glia after optic nerve crush. Olfactory ensheathing glia cells from an established rat immortalized clonal cell line, TEG3, were intravitreally injected in intact and axotomized retinas in syngeneic and allogeneic mode with or without microglial inhibition or immunosuppressive treatments. Anatomical and gene expression analyses were performed. Olfactory bulb-derived primary olfactory ensheathing glia and TEG3 express major histocompatibility complex class II molecules. Allogeneically and syngenically transplanted TEG3 cells survived in the vitreous for up to 21 days, forming an epimembrane. In axotomized retinas, only the allogeneic TEG3 transplant rescued retinal ganglion cells at 7 days but not at 21 days. In these retinas, microglial anatomical activation was higher than after optic nerve crush alone. In intact retinas, both transplants activated microglial cells and caused retinal ganglion cell death at 21 days, a loss that was higher after allotransplantation, triggered by pyroptosis and partially rescued by microglial inhibition or immunosuppression. However, neuroprotection of axotomized retinal ganglion cells did not improve with these treatments. The different neuroprotective properties, different toxic effects, and different responses to microglial inhibitory treatments of olfactory ensheathing glia in the retina depending on the type of transplant highlight the importance of thorough preclinical studies to explore these variables.

Published

2025

10. Neuroprotective effects of <scp>ITH‐IB6</scp> against excitotoxicity‐induced retinal injury

Author

Johnny Di Pierdomenico, María Norte Muñoz, Alejandro Gallego Ortega, María Boluda Ruiz, Jose Manuel Bernal Garro, Maria Paz Villegas Perez, Cristobal De los Rios, and Manuel Vidal‐Sanz

Subjects

Ophthalmology, General Medicine

Published

2022

11. Administration of minocycline reduces microglia and Caspase‐3 activation but does not mitigate retinal ganglion cell loss after ocular hypertension in mice

Author

Francisco Javier Valiente‐Soriano, María Cielo Sánchez‐Migallón, Johnny Di Pierdomenico, Alejandro Gallego Ortega, Diego García‐Ayuso, Manuel Vidal‐Sanz, and Marta Agudo‐Barriuso

Subjects

Ophthalmology, General Medicine

Published

2022

12. A novel tool to study bipolar cell responses in glaucoma

Author

Alejandro Gallego Ortega, Yukihiro Siga, Deborah Villafranca‐Baughman, Heberto Quintero, Manuel Vidal‐Sanz, and Adriana Di Polo

Subjects

Ophthalmology, General Medicine

Published

2022

13. Therapeutic window and neuroprotection with 7, <scp>8‐Dihydroxyflavone</scp> in degenerating retinal ganglion cells after excitotoxic damage

Author

Caridad Galindo‐Romero, Javier Asís‐Martínez, Manuel Angel Salinas Navarro, Johnny Di Pierdomenico, María Norte Muñoz, Jose M. Bernal‐Garro, Alejandro Gallego Ortega, Beatriz Vidal‐Villegas, Maria Paz Villegas Perez, and Manuel Vidal‐Sanz

Subjects

Ophthalmology, General Medicine

Published

2022

14. Microglial activation and retinal pigment epithelium alteration in a model of focal <scp>LED</scp> ‐induced phototoxicity. Neuroprotection afforded by <scp>bFGF</scp> and minocycline

Author

Juan Antonio Miralles De Imperial Ollero, Alejandro Gallego Ortega, María Norte Muñoz, Johnny Di Pierdomenico, Francisco Javier Valiente‐Soriano, and Manuel Vidal‐Sanz

Subjects

Ophthalmology, General Medicine

Published

2022

15. Células ganglionares fotosensibles: una población diminuta pero esencial

Author

J.M. Martínez de la Casa, Alejandro Gallego-Ortega, J. García Feijoo, Manuel Vidal-Sanz, J.A. Miralles de Imperial-Ollero, and Beatriz Vidal-Villegas

Subjects

Ophthalmology

Abstract

Resumen Nuestro sistema visual ha evolucionado para proveernos una imagen de la escena que nos rodea informandonos de su textura, color, movimiento y profundidad con una enorme capacidad de resolucion tanto espacial como temporal, y a esta finalidad la formacion de imagenes (FI) dedica la inmensa mayoria de nuestras celulas ganglionares de la retina (CGR) y gran parte de nuestra corteza cerebral. Por otra parte, una proporcion minuscula de las CGR, ademas de recibir informacion de fotorreceptores clasicos conos y bastones, expresan melanopsina y son intrinsecamente fotosensibles (CGRif). Estas CGRif se dedican a funciones visuales no formadoras de imagenes (NFI), de las que somos inconscientes, pero que resultan imprescindibles para aspectos relacionados con nuestra fisiologia cotidiana como la puesta en hora de nuestros ritmos circadianos y nuestro reflejo fotomotor, entre otras muchas. Desde el descubrimiento de las CGRif se penso que las funciones FI y NFI eran compartimentos distintos regulados por diferentes CGR, pero este concepto ha evolucionado en los ultimos anos con el descubrimiento de nuevos tipos de CGRif que inervan regiones subcorticales FI y, por tanto, presentan funciones FI. Hoy se conocen 6 tipos diferentes de CGRif que se denominan M1-M6 y difieren en sus propiedades morfologicas, funcionales, moleculares, proyecciones centrales y responsabilidades en comportamientos visuales. En este trabajo revisamos el sistema visual melanopsinico, el campo de investigacion mas activo en vision y cuyo conocimiento ha crecido exponencialmente durante las ultimas 2 decadas, desde que se descubrieron por primera vez las CGR que dan origen a esta via.

Published

2021

16. Intravitreal and subretinal syngeneic bone marrow mononuclear stem cell transplantation improves photoreceptor survival but does not ameliorate retinal function in two rat models of retinal degeneration

Author

Johnny Di Pierdomenico, Alejandro Gallego‐Ortega, Ana Martínez‐Vacas, David García‐Bernal, Manuel Vidal‐Sanz, María P. Villegas‐Pérez, and Diego García‐Ayuso

Subjects

Disease Models, Animal, Ophthalmology, Bone Marrow, Retinal Degeneration, Electroretinography, Animals, General Medicine, Retina, Rats, Stem Cell Transplantation

Abstract

To study and compare effects of syngeneic bone marrow mononuclear stem cells (BM-MNCs) transplants on inherited retinal degeneration in two animal models with different etiologies: the RCS and the P23H-1 rats. To compare the safety and efficacy of two methods of intraocular delivery: subretinal and/or intravitreal.A suspension of BM-MNCs was injected subretinally or intravitreally in the left eyes of P23H-1 and RCS rats at post-natal day (P) 21. At different survival intervals after the injection: 7, 15, 30 or 60 days, the retinas were cross-sectioned, and photoreceptor survival and glial cell responses were investigated using immunodetection of cones (anti-cone arrestin), synaptic connections (anti-bassoon), microglia (anti-Iba-1), astrocytes and Müller cells (anti-GFAP). Electroretinographic function was also assessed longitudinally.Intravitreal injections (IVIs) or subretinal injections (SRIs) of BM-MNCs did not produce adverse effects. The transplanted cells survived for up to 15 days but did not penetrate the retina. Both IVIs and SRIs increased photoreceptor survival, decreased synaptic degeneration and glial fibrillary acidic protein (GFAP) expression in Müller cells but did not modify microglial cell activation and migration or the electroretinographic responses.Intravitreal and subretinal syngeneic BM-MNCs transplantation decreases photoreceptor degeneration and shows anti-gliotic effects on Müller cells but does not ameliorate retinal function. Moreover, syngeneic BM-MNCs transplants are more effective than the xenotransplants of these cells. BM-MNC transplantation has potential therapeutic effects that merit further investigation.

Published

2022

17. Activation of adenosine A3 receptor protects retinal ganglion cells from degeneration induced by ocular hypertension

Author

Manuel Salinas-Navarro, Caridad Galindo-Romero, Marta Agudo-Barriuso, António F. Ambrósio, Raquel Boia, Alejandro Gallego-Ortega, Manuel Vidal-Sanz, Inês Dinis Aires, and Ana Raquel Santiago

Subjects

Cancer Research, Intraocular pressure, medicine.medical_specialty, genetic structures, Immunology, Ocular hypertension, Glaucoma, Neuroprotection, Retinal ganglion, 03 medical and health sciences, Cellular and Molecular Neuroscience, chemistry.chemical_compound, 0302 clinical medicine, Ophthalmology, medicine, lcsh:QH573-671, business.industry, lcsh:Cytology, Retinal, Cell Biology, medicine.disease, eye diseases, 3. Good health, medicine.anatomical_structure, chemistry, Retinal ganglion cell, 030221 ophthalmology & optometry, Optic nerve, sense organs, business, 030217 neurology & neurosurgery

Abstract

Glaucoma is a progressive chronic retinal degenerative disease and a leading cause of global irreversible blindness.This disease is characterized by optic nerve damage and retinal ganglion cell (RGC) death. The current treatmentsavailable target the lowering of intraocular pressure (IOP), the main risk factor for disease onset and development.However, in some patients, vision loss progresses despite successful IOP control, indicating that new and effectivetreatments are needed, such as those targeting the neuroprotection of RGCs. Adenosine A3receptor (A3R) activationconfers protection to RGCs following an excitotoxic stimulus. In this work, we investigated whether the activation ofA3R could also afford protection to RGCs in the laser-induced ocular hypertension (OHT) model, a well-characterizedanimal model of glaucoma. The intravitreal injection of 2-Cl-IB-MECA, a selective A3R agonist, abolished the alterationsinduced by OHT in the negative and positive components of scotopic threshold response (STR) without changing a-and b-wave amplitudes both in scotopic and photopic conditions. Moreover, the treatment of OHT eyes with the A3Ragonist promoted the survival of RGCs, attenuated the impairment in retrograde axonal transport, and improved thestructure of the optic nerve. Taking into consideration the beneficial effects afforded by 2-Cl-IB-MECA, we can envisagethat A3R activation can be considered a good therapeutic strategy to protect RGCs from glaucomatous damage. This work was supported by Foundation for Science and Technology (FCT), Portugal (Fellowships PD/BD/114115/2015 and PD/BD/127821/2016, Grant PTDC/NEU-OSD/3123/2014; Strategic Projects UID/NEU/04539/2013, UID/NEU/04539/2019 and UIDB/04539/2020; and UIDP/04539/2020 (CIBB)), FEDER-COMPETE (FCOMP-01-0124-FEDER-028417 and POCI-01-0145-FEDER-007440), and Centro 2020 Regional Operational Programme (CENTRO-01-0145-FEDER-000008: BrainHealth 2020). Spanish Ministry of Economy and Competitiveness, Instituto de Salud Carlos III, Fondo Europeo de Desarrollo Regional “Una manera de hacer Europa” (PI16/00031, SAF2015-67643-P, RD16/0008/0026, and RD16/0008/0016) and by the Fundación Séneca, Agencia de Ciencia y Tecnología Región de Murcia (19881/GERM/15).

Published

2020

18. Taurine supplementation increases survival of functional photoreceptors and decreases glial activation in RCS rats

Author

Ana Martínez Vacas, Johnny Di Pierdomenico, Alejandro Gallego Ortega, Serge Picaud, Manuel Vidal‐Sanz, Maria Paz Villegas Perez, and Diego Garcia‐Ayuso

Subjects

Ophthalmology, General Medicine

Published

2022

19. Effect of systemic immunosuppression and BM‐MSC allotransplantation in retinal functionality and RGC population

Author

María Norte Muñoz, Alejandro Gallego Ortega, Fernando Lucas‐Ruiz, David García Bernal, Manuel Vidal‐Sanz, and Marta Agudo‐Barriuso

Subjects

Ophthalmology, General Medicine

Published

2022

20. Ly6c as a New Marker of Mouse Blood Vessels: Qualitative and Quantitative Analyses on Intact and Ischemic Retinas

Author

Marina Martínez-Carmona, Fernando Lucas-Ruiz, Alejandro Gallego-Ortega, Caridad Galindo-Romero, María Norte-Muñoz, María José González-Riquelme, Francisco J. Valiente-Soriano, Manuel Vidal-Sanz, and Marta Agudo-Barriuso

Subjects

vessels, QH301-705.5, vascular plexus, ischemia, Catalysis, Article, Inorganic Chemistry, Mice, Animals, Antigens, Ly, Physical and Theoretical Chemistry, Biology (General), Molecular Biology, QD1-999, Spectroscopy, Qualitative Research, cell extravasation, Organic Chemistry, Retinal Vessels, General Medicine, Computer Science Applications, Up-Regulation, Mice, Inbred C57BL, Disease Models, Animal, Chemistry, Biomarkers

Abstract

Ly6c is an antigen commonly used to differentiate between classical and non-classical monocytes/macrophages. Here we show its potential as a marker of the mouse vasculature, particularly of the retinal vascular plexuses. Ly6c was immunodetected in several tissues of C57BL/6 mice using isolectin IB4 as the control of vasculature staining. In the retina, Ly6c expression was analyzed qualitatively and quantitatively in intact, ischemic, and contralateral retinas from 0 to 30 days after the insult. Ly6c expression was observed in all organs and tissues tested, with a brighter signal and more homogeneous staining than the IB4. In the retinas, Ly6c was well expressed, allowing a detailed study of their anatomy. The three retinal plexuses were morphologically different, and from the superficial to the deep one occupied 15 ± 2, 24 ± 7, and 38 ± 1.4 percent of the retinal surface, respectively. In the injured retinas, there was extravasation of the classically activated monocyte/macrophages (Ly6chigh) and the formation of new vessels in the superficial plexus, increasing the area occupied by it to 25 ± 1%. In the contralateral retinas, the superficial plexus area decreased gradually, reaching significance at 30 days, and Ly6c expression progressively disappeared in the intermediate and deep plexuses. Although the role of Ly6c in vascular endothelial cell function is still not completely understood, we demonstrate here that Ly6c can be used as a new specific marker of the mouse vasculature and to assess, qualitatively and quantitatively, vascular changes in health and disease.

Published

2021

21. Neuroprotection and Axonal Regeneration Induced by Bone Marrow Mesenchymal Stromal Cells Depend on the Type of Transplant

Author

Pedro de la Villa, Alejandro Gallego-Ortega, Fernando Lucas-Ruiz, Francisco J. Valiente-Soriano, Manuel Vidal-Sanz, Marta Agudo-Barriuso, María Norte-Muñoz, and David García-Bernal

Subjects

Pathology, medicine.medical_specialty, allograft, Stromal cell, genetic structures, QH301-705.5, Retinal ganglion, Cell therapy, Cell and Developmental Biology, medicine, retinal ganglion cell, xenograft, Biology (General), Ganglion cell layer, Original Research, Retina, business.industry, syngraft, Mesenchymal stem cell, axonal regeneration, bone marrow mesenchymal stromal cells, Cell Biology, eye diseases, optic nerve crush, medicine.anatomical_structure, Retinal ganglion cell, neuroprotection, Bone marrow, sense organs, business, Developmental Biology

Abstract

Mesenchymal stromal cell (MSC) therapy to treat neurodegenerative diseases has not been as successful as expected in some preclinical studies. Because preclinical research is so diverse, it is difficult to know whether the therapeutic outcome is due to the cell type, the type of transplant or the model of disease. Our aim here was to analyze the effect of the type of transplant on neuroprotection and axonal regeneration, so we tested MSCs from the same niche in the same model of neurodegeneration in the three transplantation settings: xenogeneic, syngeneic and allogeneic. For this, bone marrow mesenchymal stromal cells (BM-MSCs) isolated from healthy human volunteers or C57/BL6 mice were injected into the vitreous body of C57/BL6 mice (xenograft and syngraft) or BALB/c mice (allograft) right after optic nerve axotomy. As controls, vehicle matched groups were done. Retinal anatomy and function were analyzed in vivo by optical coherence tomography and electroretinogram, respectively. Survival of vision forming (Brn3a+) and non-vision forming (melanopsin+) retinal ganglion cells (RGCs) was assessed at 3, 5 and 90 days after the lesion. Regenerative axons were visualized by cholera toxin β anterograde transport. Our data show that grafted BM-MSCs did not integrate in the retina but formed a mesh on top of the ganglion cell layer. The xenotransplant caused retinal edema, detachment and folding, and a significant decrease of functionality compared to the murine transplants. RGC survival and axonal regeneration were significantly higher in the syngrafted retinas than in the other two groups or vehicle controls. Melanopsin+RGCs, but not Brn3a+RGCs, were also neuroprotected by the xenograft. In conclusion, the type of transplant has an impact on the therapeutic effect of BM-MSCs affecting not only neuronal survival but also the host tissue response. Our data indicate that syngrafts may be more beneficial than allografts and, interestingly, that the type of neuron that is rescued also plays a significant role in the successfulness of the cell therapy.

Published

2021

22. 7,8-Dihydroxiflavone Maintains Retinal Functionality and Protects Various Types of RGCs in Adult Rats with Optic Nerve Transection

Author

Manuel Salinas-Navarro, Marcelino Avilés-Trigueros, María Paz Villegas-Pérez, Beatriz Vidal-Villegas, Manuel Vidal-Sanz, María Norte-Muñoz, and Alejandro Gallego-Ortega

Subjects

Retinal Ganglion Cells, genetic structures, medicine.medical_treatment, scotopic threshold response (STR), Rats, Sprague-Dawley, chemistry.chemical_compound, Osteopontin, Biology (General), Spectroscopy, M4 ipRGC/α-ON-Sustained RGC, biology, Chemistry, General Medicine, 7,8-dihydroxiflavone, Computer Science Applications, axotomy, Neuroprotective Agents, osteopontin (OPN), Female, Axotomy, Erg, QH301-705.5, Retinal ganglion, Neuroprotection, Catalysis, Article, Inorganic Chemistry, Andrology, stomatognathic system, In vivo, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, medicine, Tbr2 (T-box transcription factor T-brain 2), Electroretinography, Animals, intraorbital optic nerve transection, adult Sprague Dawley rat, retinal ganglion cells, full field electroretinogram, Brn3a, α-RGCs, α-OFF RGCs, Physical and Theoretical Chemistry, Molecular Biology, QD1-999, Organic Chemistry, Retinal, Optic Nerve, Flavones, eye diseases, Rats, Optic Nerve Injuries, biology.protein, sense organs, Ex vivo

Abstract

To analyze the neuroprotective effects of 7,8-Dihydroxyflavone (DHF) in vivo and ex vivo, adult albino Sprague-Dawley rats were given a left intraorbital optic nerve transection (IONT) and were divided in two groups: One was treated daily with intraperitoneal (ip) DHF (5 mg/kg) (n = 24) and the other (n = 18) received ip vehicle (1% DMSO in 0.9% NaCl) from one day before IONT until processing. At 5, 7, 10, 12, 14, and 21 days (d) after IONT, full field electroretinograms (ERG) were recorded from both experimental and one additional naïve-control group (n = 6). Treated rats were analyzed 7 (n = 14), 14 (n = 14) or 21 d (n = 14) after IONT, and the retinas immune stained against Brn3a, Osteopontin (OPN) and the T-box transcription factor T-brain 2 (Tbr2) to identify surviving retinal ganglion cells (RGCs) (Brn3a+), α-like (OPN+), α-OFF like (OPN+Brn3a+) or M4-like/α-ON sustained RGCs (OPN+Tbr+). Naïve and right treated retinas showed normal ERG recordings. Left vehicle-treated retinas showed decreased amplitudes of the scotopic threshold response (pSTR) (as early as 5 d), the rod b-wave, the mixed response and the cone response (as early as 10 d), which did not recover with time. In these retinas, by day 7 the total numbers of Brn3a+RGCs, OPN+RGCs and OPN+Tbr2+RGCs decreased to less than one half and OPN+Brn3a+RGCs decreased to approximately 0.5%, and Brn3a+RGCs showed a progressive loss with time, while OPN+RGCs and OPN+Tbr2+RGCs did not diminish after seven days. Compared to vehicle-treated, the left DHF-treated retinas showed significantly greater amplitudes of the pSTR, normal b-wave values and significantly greater numbers of OPN+RGCs and OPN+Tbr2+RGCs for up to 14 d and of Brn3a+RGCs for up to 21 days. DHF affords significant rescue of Brn3a+RGCs, OPN+RGCs and OPN+Tbr2+RGCs, but not OPN+Brn3a+RGCs, and preserves functional ERG responses after IONT.

Published

2021

23. 7,8-Dihydroxiflavone Protects Adult Rat Axotomized Retinal Ganglion Cells through MAPK/ERK and PI3K/AKT Activation

Author

Caridad Galindo-Romero, Javier Asís-Martínez, Manuel Vidal-Sanz, Beatriz Vidal-Villegas, Fernando Lucas-Ruiz, and Alejandro Gallego-Ortega

Subjects

MAPK/ERK pathway, Retinal Ganglion Cells, genetic structures, Rats, Sprague-Dawley, Phosphatidylinositol 3-Kinases, Biology (General), Phosphorylation, Extracellular Signal-Regulated MAP Kinases, Spectroscopy, adult rats, 7,8-dihydroxiflavone/TrkB signaling, Chemistry, Kinase, virus diseases, Axotomy, General Medicine, Computer Science Applications, medicine.anatomical_structure, Neuroprotective Agents, Female, Mitogen-Activated Protein Kinases, QH301-705.5, Retinal ganglion, 7,8-dihydroxiflavone (DHF), Catalysis, Article, Inorganic Chemistry, medicine, Animals, Physical and Theoretical Chemistry, Molecular Biology, Ganglion cell layer, Protein kinase B, QD1-999, PI3K/AKT/mTOR pathway, Retina, AKT, Organic Chemistry, Flavones, Molecular biology, MAPK, eye diseases, Rats, Gene Expression Regulation, tropomyosin related kinase B (TrkB), sense organs, intraorbital optic nerve transection, Proto-Oncogene Proteins c-akt

Abstract

We analyze the 7,8-dihydroxyflavone (DHF)/TrkB signaling activation of two main intracellular pathways, mitogen-activated protein kinase (MAPK)/ERK and phosphatidylinositol 3 kinase (PI3K)/AKT, in the neuroprotection of axotomized retinal ganglion cells (RGCs). Methods: Adult albino Sprague-Dawley rats received left intraorbital optic nerve transection (IONT) and were divided in two groups. One group received daily intraperitoneal DHF (5 mg/kg) and another vehicle (1%DMSO in 0.9%NaCl) from one day before IONT until processing. Additional intact rats were employed as control (n = 4). At 1, 3 or 7 days (d) after IONT, phosphorylated (p)AKT, p-MAPK, and non-phosphorylated AKT and MAPK expression levels were analyzed in the retina by Western blotting (n = 4/group). Radial sections were also immunodetected for the above-mentioned proteins, and for Brn3a and vimentin to identify RGCs and Müller cells (MCs), respectively (n = 3/group). Results: IONT induced increased levels of p-MAPK and MAPK at 3d in DHF- or vehicle-treated retinas and at 7d in DHF-treated retinas. IONT induced a fast decrease in AKT in retinas treated with DHF or vehicle, with higher levels of phosphorylation in DHF-treated retinas at 7d. In intact retinas and vehicle-treated groups, no p-MAPK or MAPK expression in RGCs was observed. In DHF- treated retinas p-MAPK and MAPK were expressed in the ganglion cell layer and in the RGC nuclei 3 and 7d after IONT. AKT was observed in intact and axotomized RGCs, but the signal intensity of p-AKT was stronger in DHF-treated retinas. Finally, MCs expressed higher quantities of both MAPK and AKT at 3d in both DHF- and vehicle-treated retinas, and at 7d the phosphorylation of p-MAPK was higher in DHF-treated groups. Conclusions: Phosphorylation and increased levels of AKT and MAPK through MCs and RGCs in retinas after DHF-treatment may be responsible for the increased and long-lasting RGC protection afforded by DHF after IONT.

Published

2021

24. Short- and Long-Term Study of the Impact of Focal Blue Light-Emitting Diode-Induced Phototoxicity in Adult Albino Rats

Author

Alejandro Gallego-Ortega, María Norte-Muñoz, Francisco J. Valiente-Soriano, Johnny Di Pierdomenico, Manuel Vidal-Sanz, Jose Manuel Bernal-Garro, and Juan A Miralles de Imperial-Ollero

Subjects

medicine.medical_specialty, Time Factors, genetic structures, Light, QH301-705.5, microglia activation, Population, Fluorescent Antibody Technique, Fundus (eye), Catalysis, Article, Retina, Inorganic Chemistry, Lesion, chemistry.chemical_compound, In vivo, Ophthalmology, medicine, cone photoreceptor, adult albino rat, Animals, Biology (General), Physical and Theoretical Chemistry, education, QD1-999, Molecular Biology, Spectroscopy, education.field_of_study, Organic Chemistry, Retinal Degeneration, Retinal, General Medicine, Computer Science Applications, Rats, Chemistry, Disease Models, Animal, medicine.anatomical_structure, chemistry, Retinal Cone Photoreceptor Cells, LED-induced phototoxicity, sense organs, Disease Susceptibility, Microglia, medicine.symptom, Phototoxicity, Ex vivo, Biomarkers, Tomography, Optical Coherence

Abstract

Background: In adult rats we study the short- and long-term effects of focal blue light-emitting diode (LED)-induced phototoxicity (LIP) on retinal thickness and Iba-1+ activation. Methods: The left eyes of previously dark-adapted Sprague Dawley (SD) rats were photoexposed to a blue LED (20 s, 200 lux). In vivo longitudinal monitoring of retinal thickness, fundus images, and optical retinal sections was performed from 1 to 30 days (d) after LIP with SD-OCT. Ex vivo, we analysed the population of S-cone and Iba-1+ cells within a predetermined fixed-size circular area (PCA) centred on the lesion. Results: LIP resulted in a circular focal lesion readily identifiable in vivo by fundus examination, which showed within the PCAs a progressive thinning of the outer retinal layer, and a diminution of the S-cone population to 19% by 30 d. In parallel to S-cone loss, activated Iba-1+ cells delineated the lesioned area and acquired an ameboid morphology with peak expression at 3 d after LIP. Iba-1+ cells adopted a more relaxed-branched morphology at 7 d and by 14–30 d their morphology was fully branched. Conclusion: LIP caused a progressive reduction of the outer retina with loss of S cones and a parallel dynamic activation of microglial cells in the lesioned area.

Published

2021

25. An in vivo model of focal light emitting diode-induced cone photoreceptor phototoxicity in adult pigmented mice: Protection with bFGF

Author

María Norte-Muñoz, Manuel Vidal-Sanz, Alejandro Gallego-Ortega, Francisco J. Valiente-Soriano, Johnny Di Pierdomenico, and Juan A Miralles de Imperial-Ollero

Subjects

Pathology, medicine.medical_specialty, Light, Arrestins, Basic fibroblast growth factor, Population, Minocycline, Retinal Pigment Epithelium, Cell morphology, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Mice, medicine, Animals, education, Retinal thinning, education.field_of_study, Retina, Retinal pigment epithelium, Calcium-Binding Proteins, Microfilament Proteins, Retinal Degeneration, Retinal, eye diseases, Sensory Systems, Mice, Inbred C57BL, Ophthalmology, Disease Models, Animal, Radiation Injuries, Experimental, medicine.anatomical_structure, chemistry, Microscopy, Fluorescence, Intravitreal Injections, Retinal Cone Photoreceptor Cells, Drug Therapy, Combination, Female, Fibroblast Growth Factor 2, sense organs, Cell activation, Tomography, Optical Coherence

Abstract

Purpose To develop a model of focal injury by blue light-emitting diode (LED)-induced phototoxicity (LIP) in pigmented mouse retinas and to study the effects on cone, Iba-1+ cells and retinal pigment epithelium (RPE) cell populations after administration of basic fibroblast growth factor (bFGF) and minocycline, alone or combined. Methods In anesthetized dark-adapted adult female pigmented C57BL/6 mice, left pupils were dilated and the eye exposed to LIP (500 lux, 45 s). The retina was monitored longitudinally in vivo with SD-OCT for 7 days (d). Ex vivo, the effects of LIP and its protection with bFGF (0.5 μg) administered alone or combined with minocycline (45 mg/kg) were studied in immunolabeled arrestin-cone outer segments (a+OS) and quantified within a predetermined fixed-size circular area (PCA) centered on the lesion in flattened retinas at 1, 3, 5 or 7d. Moreover, Iba-1+ cells and RPE cell morphology were analysed with Iba-1 and ZO-1 antibodies, respectively. Results LIP caused a focal lesion within the superior-temporal retina with retinal thinning, particularly the outer retinal layers (116.5 ± 2.9 μm to 36.8 ± 6.3 μm at 7d), and with progressive diminution of a+OS within the PCA reaching minimum values at 7d (6218 ± 342 to 3966 ± 311). Administration of bFGF alone (4519 ± 320) or in combination with minocycline (4882 ± 446) had a significant effect on a+OS survival at 7d and Iba-1+ cell activation was attenuated in the groups treated with minocycline. In parallel, the RPE cell integrity was progressively altered after LIP and administration of neuroprotective components had no restorative effect at 7d. Conclusions LIP resulted in progressive outer retinal damage affecting the OS cone population and RPE. Administration of bFGF increased a+OS survival but did not prevent RPE deterioration.

Published

2021

26. Systemic treatment with 7,8-Dihydroxiflavone activates TtkB and affords protection of two different retinal ganglion cell populations against axotomy in adult rats

Author

Caridad Galindo-Romero, Jose M. Martinez-de-la-Casa, María Paz Villegas-Pérez, Beatriz Vidal-Villegas, Julian Garcia-Feijoo, Johnny Di Pierdomenico, Alejandro Gallego-Ortega, and Manuel Vidal-Sanz

Subjects

Agonist, Retinal Ganglion Cells, genetic structures, medicine.drug_class, Cell Survival, medicine.medical_treatment, Blotting, Western, Tropomyosin receptor kinase B, Neuroprotection, Andrology, Rats, Sprague-Dawley, Cellular and Molecular Neuroscience, chemistry.chemical_compound, medicine, Animals, Receptor, trkB, Phosphorylation, Transcription Factor Brn-3A, business.industry, Intrinsically photosensitive retinal ganglion cells, Rod Opsins, virus diseases, Retinal, Axotomy, Optic Nerve, Flavones, Immunohistochemistry, eye diseases, Sensory Systems, Rats, Ophthalmology, medicine.anatomical_structure, Neuroprotective Agents, Retinal ganglion cell, chemistry, Apoptosis, Female, sense organs, business, Injections, Intraperitoneal

Abstract

Purpose To analyze responses of different RGC populations to left intraorbital optic nerve transection (IONT) and intraperitoneal (i.p.) treatment with 7,8-Dihydroxyflavone (DHF), a potent selective TrkB agonist. Methods Adult albino Sprague-Dawley rats received, following IONT, daily i.p. injections of vehicle (1%DMSO in 0.9%NaCl) or DHF. Group-1 (n = 58) assessed at 7days (d) the optimal DHF amount (1–25 mg/kg). Group-2, using freshly dissected naive or treated retinas (n = 28), investigated if DHF treatment was associated with TrkB activation using Western-blotting at 1, 3 or 7d. Group-3 (n = 98) explored persistence of protection and was analyzed at survival intervals from 7 to 60d after IONT. Groups 2–3 received daily i.p. vehicle or DHF (5 mg/kg). Retinal wholemounts were immunolabelled for Brn3a and melanopsin to identify Brn3a+RGCs and m+RGCs, respectively. Results Optimal neuroprotection was achieved with 5 mg/kg DHF and resulted in TrkB phosphorylation. The percentage of surviving Brn3a+RGCs in vehicle treated rats was 60, 28, 18, 13, 12 or 8% of the original value at 7, 10, 14, 21, 30 or 60d, respectively, while in DHF treated retinas was 94, 70, 64, 17, 10 or 9% at the same time intervals. The percentages of m+RGCs diminished by 7d–13%, and recovered by 14d–38% in vehicle-treated and to 48% in DHF-treated retinas, without further variations. Conclusions DHF neuroprotects Brn3a + RGCs and m + RGCs; its protective effects for Brn3a+RGCs are maximal at 7 days but still significant at 21d, whereas for m+RGCs neuroprotection was significant at 14d and permanent.

Published

2021

27. Functional and morphological alterations in a glaucoma model of acute ocular hypertension

Author

Alejandro, Gallego-Ortega, María, Norte-Muñoz, Juan Antonio, Miralles de Imperial-Ollero, José Manuel, Bernal-Garro, Francisco Javier, Valiente-Soriano, Pedro, de la Villa Polo, Marcelino, Avilés-Trigueros, María Paz, Villegas-Pérez, and Manuel, Vidal-Sanz

Subjects

Rats, Sprague-Dawley, Retinal Ganglion Cells, Disease Models, Animal, Acute Disease, Electroretinography, Retinal Cone Photoreceptor Cells, Animals, Glaucoma, Ocular Hypertension, Retinal Horizontal Cells, Retina, Tomography, Optical Coherence, Rats

Abstract

To study short and long-term effects of acute ocular hypertension (AOHT) on inner and outer retinal layers, in adult Sprague-Dawley rats AOHT (87mmHg) was induced for 90min and the retinas were examined longitudinally in vivo with electroretinogram (ERG) recordings and optical coherent tomography (OCT) from 1 to 90 days (d). Ex vivo, the retinas were analyzed for rod (RBC) and cone (CBC) bipolar cells, with antibodies against protein kinase Cα and recoverin, respectively in cross sections, and for cones, horizontal (HZ) and ganglion (RGC) cells with antibodies against arrestin, calbindin and Brn3a, respectively in wholemounts. The inner retina thinned progressively up to 7d with no further changes, while the external retina had a normal thickness until 30d, with a 20% thinning between 30 and 90d. Functionally, the a-wave showed an initial reduction by 24h and a further reduction from 30 to 90d. All other main ERG waves were significantly reduced by 1d without significant recovery by 90d. Radial sections showed a normal population of RBCs but their terminals were reduced. The CBCs showed a progressive decrease with a loss of 56% by 30d. In wholemount retinas, RGCs diminished to 40% by 3d and to 16% by 30d without further loss. Cones diminished to 58% and 35% by 3 and 7d, respectively and further decreased between 30 and 90d. HZs showed normal values throughout the study. In conclusion, AOHT affects both the inner and outer retina, with a more pronounced degeneration of the cone than the rod pathway.

Published

2020

28. Pigment Epithelium-Derived Factor (PEDF) Fragments Prevent Mouse Cone Photoreceptor Cell Loss Induced by Focal Phototoxicity In Vivo

Author

S. Patricia Becerra, Johnny Di Pierdomenico, M Paz Villegas-Pérez, Francisco J. Valiente-Soriano, Arturo Ortín-Martínez, Manuel Jiménez-López, Diego García-Ayuso, Manuel Vidal-Sanz, Alejandro Gallego-Ortega, and Juan A Miralles de Imperial-Ollero

Subjects

0301 basic medicine, Receptors, Neuropeptide, in vivo neuroprotection, genetic structures, PEDF fragment 17-mer, Photoreceptor cell, lcsh:Chemistry, Cornea, Mice, in vivo phototoxicity model, 0302 clinical medicine, Receptor, lcsh:QH301-705.5, Spectroscopy, biology, Chemistry, General Medicine, Computer Science Applications, medicine.anatomical_structure, PEDF fragment 17-mer[H105A], Retinal Cone Photoreceptor Cells, PEDF, medicine.symptom, Phototoxicity, Neurotrophin, Dermatitis, Phototoxic, Photoperiod, Catalysis, Retina, Article, Inorganic Chemistry, Lesion, adult mice, 03 medical and health sciences, In vivo, medicine, Animals, Humans, Nerve Growth Factors, Physical and Theoretical Chemistry, Eye Proteins, Molecular Biology, Serpins, Organic Chemistry, Molecular biology, Peptide Fragments, Disease Models, Animal, 030104 developmental biology, BDNF, lcsh:Biology (General), lcsh:QD1-999, bFGF, 030221 ophthalmology & optometry, biology.protein, sense organs, Peptides, cone-photoreceptor

Abstract

Here, we evaluated the effects of PEDF (pigment epithelium-derived factor) and PEDF peptides on cone-photoreceptor cell damage in a mouse model of focal LED-induced phototoxicity (LIP) in vivo. Swiss mice were dark-adapted overnight, anesthetized, and their left eyes were exposed to a blue LED placed over the cornea. Immediately after, intravitreal injection of PEDF, PEDF-peptide fragments 17-mer, 17-mer[H105A] or 17-mer[R99A] (all at 10 pmol) were administered into the left eye of each animal. BDNF (92 pmol) and bFGF (27 pmol) injections were positive controls, and vehicle negative control. After 7 days, LIP resulted in a consistent circular lesion located in the supratemporal quadrant and the number of S-cones were counted within an area centered on the lesion. Retinas treated with effectors had significantly greater S-cone numbers (PEDF (60%), 17-mer (56%), 17-mer [H105A] (57%), BDNF (64%) or bFGF (60%)) relative to their corresponding vehicle groups (&asymp, 42%). The 17-mer[R99A] with no PEDF receptor binding and no neurotrophic activity, PEDF combined with a molar excess of the PEDF receptor blocker P1 peptide, or with a PEDF-R enzymatic inhibitor had undetectable effects in S-cone survival. The findings demonstrated that the cone survival effects were mediated via interactions between the 17-mer region of the PEDF molecule and its PEDF-R receptor.

Published

2020

29. Photosensitive ganglion cells: A diminutive, yet essential population

Author

J. García Feijoo, Alejandro Gallego-Ortega, J.M. Martínez de la Casa, Manuel Vidal-Sanz, J.A. Miralles de Imperial-Ollero, and Beatriz Vidal-Villegas

Subjects

0301 basic medicine, Melanopsin, Retinal Ganglion Cells, genetic structures, Population, 03 medical and health sciences, 0302 clinical medicine, Retinal Rod Photoreceptor Cells, medicine, Pupillary light reflex, education, Vision, Ocular, education.field_of_study, Retina, business.industry, Intrinsically photosensitive retinal ganglion cells, General Medicine, eye diseases, Ganglion, Circadian Rhythm, 030104 developmental biology, medicine.anatomical_structure, Retinal ganglion cell, Cerebral cortex, Retinal Cone Photoreceptor Cells, sense organs, business, Neuroscience, 030217 neurology & neurosurgery

Abstract

Our visual system has evolved to provide us with an image of the scene that surrounds us, informing us of its texture, colour, movement, and depth with an enormous spatial and temporal resolution, and for this purpose, the image formation (IF) dedicates the vast majority of our retinal ganglion cell (RGC) population and much of our cerebral cortex. On the other hand, a minuscule proportion of RGCs, in addition to receiving information from classic cone and rod photoreceptors, express melanopsin and are intrinsically photosensitive (ipRGC). These ipRGC are dedicated to non-image-forming (NIF) visual functions, of which we are unaware, but which are essential for aspects related to our daily physiology, such as the timing of our circadian rhythms and our pupillary light reflex, among many others. Before the discovery of ipRGCs, it was thought that the IF and NIF functions were distinct compartments regulated by different RGCs, but this concept has evolved in recent years with the discovery of new types of ipRGCs that innervate subcortical IF regions, and therefore have IF visual functions. Six different types of ipRGCs are currently known. These are termed M1-M6, and differ in their morphological, functional, molecular properties, central projections, and visual behaviour responsibilities. A review is presented on the melanopsin visual system, the most active field of research in vision, for which knowledge has grown exponentially during the last two decades, when RGCs giving rise to this pathway were first discovered.

Published

2020

30. Functional and morphological alterations in a glaucoma model of acute ocular hypertension

Author

María Norte-Muñoz, Juan A Miralles de Imperial-Ollero, María Paz Villegas-Pérez, Francisco J. Valiente-Soriano, Pedro de la Villa Polo, Marcelino Avilés-Trigueros, Jose Manuel Bernal-Garro, Manuel Vidal-Sanz, and Alejandro Gallego-Ortega

Subjects

Retina, medicine.medical_specialty, genetic structures, biology, Chemistry, Glaucoma, Ocular hypertension, Retinal, medicine.disease, Calbindin, eye diseases, Ganglion, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine.anatomical_structure, Recoverin, Ophthalmology, medicine, biology.protein, sense organs, Erg, 030217 neurology & neurosurgery

Abstract

To study short and long-term effects of acute ocular hypertension (AOHT) on inner and outer retinal layers, in adult Sprague-Dawley rats AOHT (87mmHg) was induced for 90min and the retinas were examined longitudinally in vivo with electroretinogram (ERG) recordings and optical coherent tomography (OCT) from 1 to 90 days (d). Ex vivo, the retinas were analyzed for rod (RBC) and cone (CBC) bipolar cells, with antibodies against protein kinase Cα and recoverin, respectively in cross sections, and for cones, horizontal (HZ) and ganglion (RGC) cells with antibodies against arrestin, calbindin and Brn3a, respectively in wholemounts. The inner retina thinned progressively up to 7d with no further changes, while the external retina had a normal thickness until 30d, with a 20% thinning between 30 and 90d. Functionally, the a-wave showed an initial reduction by 24h and a further reduction from 30 to 90d. All other main ERG waves were significantly reduced by 1d without significant recovery by 90d. Radial sections showed a normal population of RBCs but their terminals were reduced. The CBCs showed a progressive decrease with a loss of 56% by 30d. In wholemount retinas, RGCs diminished to 40% by 3d and to 16% by 30d without further loss. Cones diminished to 58% and 35% by 3 and 7d, respectively and further decreased between 30 and 90d. HZs showed normal values throughout the study. In conclusion, AOHT affects both the inner and outer retina, with a more pronounced degeneration of the cone than the rod pathway.

Published

2020

31. Animal Models of LED-Induced Phototoxicity. Short- and Long-Term In Vivo and Ex Vivo Retinal Alterations

Author

Francisco J. Valiente-Soriano, Manuel Vidal-Sanz, Arturo Ortín-Martínez, Alejandro Gallego-Ortega, María Paz Villegas-Pérez, and Juan A Miralles de Imperial-Ollero

Subjects

Science, microglia activation, Population, retinal pigment epithelium, Review, Ciliary neurotrophic factor, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, PEDF, Neurotrophic factors, cone photoreceptor, medicine, education, Ecology, Evolution, Behavior and Systematics, LED induced phototoxicity, education.field_of_study, Retina, Retinal pigment epithelium, biology, Chemistry, Paleontology, Retinal, Cell biology, medicine.anatomical_structure, Space and Planetary Science, biology.protein, neuroprotection, sense organs, Phototoxicity

Abstract

Phototoxicity animal models have been largely studied due to their degenerative communalities with human pathologies, e.g., age-related macular degeneration (AMD). Studies have documented not only the effects of white light exposure, but also other wavelengths using LEDs, such as blue or green light. Recently, a blue LED-induced phototoxicity (LIP) model has been developed that causes focal damage in the outer layers of the superior-temporal region of the retina in rodents. In vivo studies described a progressive reduction in retinal thickness that affected the most extensively the photoreceptor layer. Functionally, a transient reduction in a- and b-wave amplitude of the ERG response was observed. Ex vivo studies showed a progressive reduction of cones and an involvement of retinal pigment epithelium cells in the area of the lesion and, in parallel, an activation of microglial cells that perfectly circumscribe the damage in the outer retinal layer. The use of neuroprotective strategies such as intravitreal administration of trophic factors, e.g., basic fibroblast growth factor (bFGF), brain-derived neurotrophic factor (BDNF), ciliary neurotrophic factor (CNTF) or pigment epithelium-derived factor (PEDF) and topical administration of the selective alpha-2 agonist (Brimonidine) have demonstrated to increase the survival of the cone population after LIP.

Published

2021

32. Regulation of the glutamate release by pH and GABA at the axon terminal of rod photoreceptors

Author

Pedro de la Villa, Fei Liao, Alejandro Gallego-Ortega, and Manuel Vidal-Sanz

Subjects

Ophthalmology, Rod Photoreceptors, Axon terminal, Chemistry, Glutamate receptor, Biophysics, General Medicine

Published

2019

33. Activation of adenosine A

Author

Raquel, Boia, Manuel, Salinas-Navarro, Alejandro, Gallego-Ortega, Caridad, Galindo-Romero, Inês D, Aires, Marta, Agudo-Barriuso, António Francisco, Ambrósio, Manuel, Vidal-Sanz, and Ana Raquel, Santiago

Subjects

Retinal Ganglion Cells, Adenosine, genetic structures, Cell Death, Cell Survival, Receptor, Adenosine A3, Retinal Degeneration, Optic Nerve, Diseases, Axonal Transport, eye diseases, Neuroprotection, Article, Up-Regulation, Rats, Sprague-Dawley, Adenosine A3 Receptor Agonists, Preclinical research, Animals, Female, Ocular Hypertension, sense organs

Abstract

Glaucoma is a progressive chronic retinal degenerative disease and a leading cause of global irreversible blindness. This disease is characterized by optic nerve damage and retinal ganglion cell (RGC) death. The current treatments available target the lowering of intraocular pressure (IOP), the main risk factor for disease onset and development. However, in some patients, vision loss progresses despite successful IOP control, indicating that new and effective treatments are needed, such as those targeting the neuroprotection of RGCs. Adenosine A3 receptor (A3R) activation confers protection to RGCs following an excitotoxic stimulus. In this work, we investigated whether the activation of A3R could also afford protection to RGCs in the laser-induced ocular hypertension (OHT) model, a well-characterized animal model of glaucoma. The intravitreal injection of 2-Cl-IB-MECA, a selective A3R agonist, abolished the alterations induced by OHT in the negative and positive components of scotopic threshold response (STR) without changing a- and b-wave amplitudes both in scotopic and photopic conditions. Moreover, the treatment of OHT eyes with the A3R agonist promoted the survival of RGCs, attenuated the impairment in retrograde axonal transport, and improved the structure of the optic nerve. Taking into consideration the beneficial effects afforded by 2-Cl-IB-MECA, we can envisage that A3R activation can be considered a good therapeutic strategy to protect RGCs from glaucomatous damage.

Published

2019

34. Topical Brimonidine or Intravitreal BDNF, CNTF, or bFGF Protect Cones Against Phototoxicity

Author

Francisco J. Valiente-Soriano, María Paz Villegas-Pérez, Johnny Di Pierdomenico, Larry A. Wheeler, Arturo Ortín-Martínez, Diego García-Ayuso, Alejandro Gallego-Ortega, Manuel Jiménez-López, Juan A Miralles de Imperial-Ollero, and Manuel Vidal-Sanz

Subjects

0301 basic medicine, SD-OCT, medicine.medical_specialty, genetic structures, Basic fibroblast growth factor, Biomedical Engineering, microglia, alpha-2-adrenergic agonist, Ciliary neurotrophic factor, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Neurotrophic factors, Ophthalmology, medicine, CNTF, light induced phototoxicity, Brain-derived neurotrophic factor, Retina, biology, business.industry, Brimonidine, cone photoreceptors, Articles, eye diseases, 030104 developmental biology, medicine.anatomical_structure, BDNF, chemistry, bFGF, 030221 ophthalmology & optometry, biology.protein, neuroprotection, sense organs, business, Phototoxicity, Erg, medicine.drug

Abstract

Purpose To develop a focal photoreceptor degeneration model by blue light-emitting diode (LED)-induced phototoxicity (LIP) and investigate the protective effects of topical brimonidine (BMD) or intravitreal brain-derived neurotrophic factor (BDNF), ciliary neurotrophic factor (CNTF), or basic fibroblast growth factor (bFGF). Methods In anesthetized, dark-adapted, adult female Swiss mice, the left eye was dilated and exposed to blue light (10 seconds, 200 lux). After LIP, full-field electroretinograms (ERG) and spectral-domain optical coherence tomography (SD-OCT) were obtained longitudinally, and reactive-Iba-1+monocytic cells, TUNEL+ cells and S-opsin+ cone outer segments were examined up to 7 days. Left eyes were treated topically with BMD (1%) or vehicle, before or right after LIP, or intravitreally with BDNF (2.5 μg), CNTF (0.2 μg), bFGF (0.5 μg), or corresponding vehicle right after LIP. At 7 days, S-opsin+ cone outer segments were counted within predetermined fixed-size areas (PFA) centered on the lesion in both flattened retinas. Results SD-OCT showed a circular region in the superior-temporal left retina with progressive thinning (207.9 ± 5.6 μm to 160.7 ± 6.8 μm [7 days], n = 8), increasing TUNEL+ cells (peak at 3 days), decreasing S-opsin+ cone outer segments, and strong microglia activation. ERGs were normal by 3 days. Total S-opsin+ cones in the PFA for LIP-treated and fellow-retinas were 2330 ± 262 and 5601 ± 583 (n = 8), respectively. All neuroprotectants (n = 7-11), including topical BMD pre- or post-LIP, or intravitreal BDNF, CNTF, and bFGF, showed significantly greater S-opsin+ cone survival than their corresponding vehicle-treated groups. Conclusions LIP is a reliable, quantifiable focal photoreceptor degeneration model. Topical BMD or intravitreal BDNF, CNTF, or bFGF protect against LIP-induced cone-photoreceptor loss. Translational relevance Topical BMD or intravitreal BDNF, CNTF, or bFGF protect cones against phototoxicity.

Published

2019