A Defective Crosstalk Between Neurons and Müller Glial Cells in the rd1 Retina Impairs the Regenerative Potential of Glial Stem Cells

A Defective Crosstalk Between Neurons and Müller Glial Cells in the rd1 Retina Impairs the Regenerative Potential of Glial Stem Cells

Müller glial cells (MGC) are stem cells in the retina. Although their regenerative capacity is very low in mammals, the use of MGC as stem cells to regenerate photoreceptors (PHRs) during retina degenerations, such as in retinitis pigmentosa, is being intensely studied. Changes affecting PHRs in dis...

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Main Authors: Yanel A. Volonté, Harmonie Vallese-Maurizi, Marcos J. Dibo, Victoria B. Ayala-Peña, Andrés Garelli, Samanta R. Zanetti, Axel Turpaud, Cheryl Mae Craft, Nora P. Rotstein, Luis E. Politi, Olga L. German
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-07-01
Series:Frontiers in Cellular Neuroscience
Subjects:
Müller glial cells
stem cells
retinal degeneration
retinal regeneration
photoreceptors
Online Access:https://www.frontiersin.org/article/10.3389/fncel.2019.00334/full
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language English
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author Yanel A. Volonté
Harmonie Vallese-Maurizi
Marcos J. Dibo
Victoria B. Ayala-Peña
Andrés Garelli
Samanta R. Zanetti
Axel Turpaud
Cheryl Mae Craft
Cheryl Mae Craft
Nora P. Rotstein
Luis E. Politi
Olga L. German
spellingShingle Yanel A. Volonté
Harmonie Vallese-Maurizi
Marcos J. Dibo
Victoria B. Ayala-Peña
Andrés Garelli
Samanta R. Zanetti
Axel Turpaud
Cheryl Mae Craft
Cheryl Mae Craft
Nora P. Rotstein
Luis E. Politi
Olga L. German
A Defective Crosstalk Between Neurons and Müller Glial Cells in the rd1 Retina Impairs the Regenerative Potential of Glial Stem Cells
Frontiers in Cellular Neuroscience
Müller glial cells
stem cells
retinal degeneration
retinal regeneration
photoreceptors
author_facet Yanel A. Volonté
Harmonie Vallese-Maurizi
Marcos J. Dibo
Victoria B. Ayala-Peña
Andrés Garelli
Samanta R. Zanetti
Axel Turpaud
Cheryl Mae Craft
Cheryl Mae Craft
Nora P. Rotstein
Luis E. Politi
Olga L. German
author_sort Yanel A. Volonté
title A Defective Crosstalk Between Neurons and Müller Glial Cells in the rd1 Retina Impairs the Regenerative Potential of Glial Stem Cells
title_short A Defective Crosstalk Between Neurons and Müller Glial Cells in the rd1 Retina Impairs the Regenerative Potential of Glial Stem Cells
title_full A Defective Crosstalk Between Neurons and Müller Glial Cells in the rd1 Retina Impairs the Regenerative Potential of Glial Stem Cells
title_fullStr A Defective Crosstalk Between Neurons and Müller Glial Cells in the rd1 Retina Impairs the Regenerative Potential of Glial Stem Cells
title_full_unstemmed A Defective Crosstalk Between Neurons and Müller Glial Cells in the rd1 Retina Impairs the Regenerative Potential of Glial Stem Cells
title_sort defective crosstalk between neurons and müller glial cells in the rd1 retina impairs the regenerative potential of glial stem cells
publisher Frontiers Media S.A.
series Frontiers in Cellular Neuroscience
issn 1662-5102
publishDate 2019-07-01
description Müller glial cells (MGC) are stem cells in the retina. Although their regenerative capacity is very low in mammals, the use of MGC as stem cells to regenerate photoreceptors (PHRs) during retina degenerations, such as in retinitis pigmentosa, is being intensely studied. Changes affecting PHRs in diseased retinas have been thoroughly investigated; however, whether MGC are also affected is still unclear. We here investigated whether MGC in retinal degeneration 1 (rd1) mouse, an animal model of retinitis pigmentosa, have impaired stem cell properties or structure. rd1 MGC showed an altered morphology, both in culture and in the whole retina. Using mixed neuron-glial cultures obtained from newborn mice retinas, we determined that proliferation was significantly lower in rd1 than in wild type (wt) MGC. Levels of stem cell markers, such as Nestin and Sox2, were also markedly reduced in rd1 MGC compared to wt MGC in neuron-glial cultures and in retina cryosections, even before the onset of PHR degeneration. We then investigated whether neuron-glial crosstalk was involved in these changes. Noteworthy, Nestin expression was restored in rd1 MGC in co-culture with wt neurons. Conversely, Nestin expression decreased in wt MGC in co-culture with rd1 neurons, as occurred in rd1 MGC in rd1 neuron-glial mixed cultures. These results imply that MGC proliferation and stem cell markers are reduced in rd1 retinas and might be restored by their interaction with “healthy” PHRs, suggesting that alterations in rd1 PHRs lead to a disruption in neuron-glial crosstalk affecting the regenerative potential of MGC.
topic Müller glial cells
stem cells
retinal degeneration
retinal regeneration
photoreceptors
url https://www.frontiersin.org/article/10.3389/fncel.2019.00334/full
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spelling doaj-3beece9797cc4599809afa627e46bc252020-11-25T00:37:46ZengFrontiers Media S.A.Frontiers in Cellular Neuroscience1662-51022019-07-011310.3389/fncel.2019.00334450810A Defective Crosstalk Between Neurons and Müller Glial Cells in the rd1 Retina Impairs the Regenerative Potential of Glial Stem CellsYanel A. Volonté0Harmonie Vallese-Maurizi1Marcos J. Dibo2Victoria B. Ayala-Peña3Andrés Garelli4Samanta R. Zanetti5Axel Turpaud6Cheryl Mae Craft7Cheryl Mae Craft8Nora P. Rotstein9Luis E. Politi10Olga L. German11Instituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaInstituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaInstituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaInstituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaInstituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaInstituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaInstituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaDepartment of Ophthalmology, USC Roski Eye Institute, Keck School of Medicine of the University of Southern California, Los Angeles, CA, United StatesDepartment of Integrative Anatomical Sciences, Keck School of Medicine of the University of Southern California, Los Angeles, CA, United StatesInstituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaInstituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaInstituto de Investigaciones Bioquímicas de Bahía Blanca, Departamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur – National Research Council of Argentina (CONICET), Bahía Blanca, ArgentinaMüller glial cells (MGC) are stem cells in the retina. Although their regenerative capacity is very low in mammals, the use of MGC as stem cells to regenerate photoreceptors (PHRs) during retina degenerations, such as in retinitis pigmentosa, is being intensely studied. Changes affecting PHRs in diseased retinas have been thoroughly investigated; however, whether MGC are also affected is still unclear. We here investigated whether MGC in retinal degeneration 1 (rd1) mouse, an animal model of retinitis pigmentosa, have impaired stem cell properties or structure. rd1 MGC showed an altered morphology, both in culture and in the whole retina. Using mixed neuron-glial cultures obtained from newborn mice retinas, we determined that proliferation was significantly lower in rd1 than in wild type (wt) MGC. Levels of stem cell markers, such as Nestin and Sox2, were also markedly reduced in rd1 MGC compared to wt MGC in neuron-glial cultures and in retina cryosections, even before the onset of PHR degeneration. We then investigated whether neuron-glial crosstalk was involved in these changes. Noteworthy, Nestin expression was restored in rd1 MGC in co-culture with wt neurons. Conversely, Nestin expression decreased in wt MGC in co-culture with rd1 neurons, as occurred in rd1 MGC in rd1 neuron-glial mixed cultures. These results imply that MGC proliferation and stem cell markers are reduced in rd1 retinas and might be restored by their interaction with “healthy” PHRs, suggesting that alterations in rd1 PHRs lead to a disruption in neuron-glial crosstalk affecting the regenerative potential of MGC.https://www.frontiersin.org/article/10.3389/fncel.2019.00334/fullMüller glial cellsstem cellsretinal degenerationretinal regenerationphotoreceptors

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