The Diversity of Astrocyte Activation during Multiple Sclerosis: Potential Cellular Targets for Novel Disease Modifying Therapeutics

Neuroglial cells, and especially astrocytes, constitute the most varied group of central nervous system (CNS) cells, displaying substantial diversity and plasticity during development and in disease states. The morphological changes exhibited by astrocytes during the acute and chronic stages followi...

Descripción completa

Detalles Bibliográficos
Autores principales: Barmpagiannos, Konstantinos, Theotokis, Paschalis, Petratos, Steven, Pagnin, Maurice, Einstein, Ofira, Kesidou, Evangelia, Boziki, Marina, Artemiadis, Artemios, Bakirtzis, Christos, Grigoriadis, Nikolaos
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Review
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10253053/
https://www.ncbi.nlm.nih.gov/pubmed/37297725
http://dx.doi.org/10.3390/healthcare11111585
_version_ 1785056315668692992
author Barmpagiannos, Konstantinos
Theotokis, Paschalis
Petratos, Steven
Pagnin, Maurice
Einstein, Ofira
Kesidou, Evangelia
Boziki, Marina
Artemiadis, Artemios
Bakirtzis, Christos
Grigoriadis, Nikolaos
author_facet Barmpagiannos, Konstantinos
Theotokis, Paschalis
Petratos, Steven
Pagnin, Maurice
Einstein, Ofira
Kesidou, Evangelia
Boziki, Marina
Artemiadis, Artemios
Bakirtzis, Christos
Grigoriadis, Nikolaos
author_sort Barmpagiannos, Konstantinos
collection PubMed
description Neuroglial cells, and especially astrocytes, constitute the most varied group of central nervous system (CNS) cells, displaying substantial diversity and plasticity during development and in disease states. The morphological changes exhibited by astrocytes during the acute and chronic stages following CNS injury can be characterized more precisely as a dynamic continuum of astrocytic reactivity. Different subpopulations of reactive astrocytes may be ascribed to stages of degenerative progression through their direct pathogenic influence upon neurons, neuroglia, the blood-brain barrier, and infiltrating immune cells. Multiple sclerosis (MS) constitutes an autoimmune demyelinating disease of the CNS. Despite the previously held notion that reactive astrocytes purely form the structured glial scar in MS plaques, their continued multifaceted participation in neuroinflammatory outcomes and oligodendrocyte and neuronal function during chronicity, suggest that they may be an integral cell type that can govern the pathophysiology of MS. From a therapeutic-oriented perspective, astrocytes could serve as key players to limit MS progression, once the integral astrocyte–MS relationship is accurately identified. This review aims toward delineating the current knowledge, which is mainly focused on immunomodulatory therapies of the relapsing–remitting form, while shedding light on uncharted approaches of astrocyte-specific therapies that could constitute novel, innovative applications once the role of specific subgroups in disease pathogenesis is clarified.
format Online
Article
Text
id pubmed-10253053
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-102530532023-06-10 The Diversity of Astrocyte Activation during Multiple Sclerosis: Potential Cellular Targets for Novel Disease Modifying Therapeutics Barmpagiannos, Konstantinos Theotokis, Paschalis Petratos, Steven Pagnin, Maurice Einstein, Ofira Kesidou, Evangelia Boziki, Marina Artemiadis, Artemios Bakirtzis, Christos Grigoriadis, Nikolaos Healthcare (Basel) Review Neuroglial cells, and especially astrocytes, constitute the most varied group of central nervous system (CNS) cells, displaying substantial diversity and plasticity during development and in disease states. The morphological changes exhibited by astrocytes during the acute and chronic stages following CNS injury can be characterized more precisely as a dynamic continuum of astrocytic reactivity. Different subpopulations of reactive astrocytes may be ascribed to stages of degenerative progression through their direct pathogenic influence upon neurons, neuroglia, the blood-brain barrier, and infiltrating immune cells. Multiple sclerosis (MS) constitutes an autoimmune demyelinating disease of the CNS. Despite the previously held notion that reactive astrocytes purely form the structured glial scar in MS plaques, their continued multifaceted participation in neuroinflammatory outcomes and oligodendrocyte and neuronal function during chronicity, suggest that they may be an integral cell type that can govern the pathophysiology of MS. From a therapeutic-oriented perspective, astrocytes could serve as key players to limit MS progression, once the integral astrocyte–MS relationship is accurately identified. This review aims toward delineating the current knowledge, which is mainly focused on immunomodulatory therapies of the relapsing–remitting form, while shedding light on uncharted approaches of astrocyte-specific therapies that could constitute novel, innovative applications once the role of specific subgroups in disease pathogenesis is clarified. MDPI 2023-05-29 /pmc/articles/PMC10253053/ /pubmed/37297725 http://dx.doi.org/10.3390/healthcare11111585 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Review
Barmpagiannos, Konstantinos
Theotokis, Paschalis
Petratos, Steven
Pagnin, Maurice
Einstein, Ofira
Kesidou, Evangelia
Boziki, Marina
Artemiadis, Artemios
Bakirtzis, Christos
Grigoriadis, Nikolaos
The Diversity of Astrocyte Activation during Multiple Sclerosis: Potential Cellular Targets for Novel Disease Modifying Therapeutics
title The Diversity of Astrocyte Activation during Multiple Sclerosis: Potential Cellular Targets for Novel Disease Modifying Therapeutics
title_full The Diversity of Astrocyte Activation during Multiple Sclerosis: Potential Cellular Targets for Novel Disease Modifying Therapeutics
title_fullStr The Diversity of Astrocyte Activation during Multiple Sclerosis: Potential Cellular Targets for Novel Disease Modifying Therapeutics
title_full_unstemmed The Diversity of Astrocyte Activation during Multiple Sclerosis: Potential Cellular Targets for Novel Disease Modifying Therapeutics
title_short The Diversity of Astrocyte Activation during Multiple Sclerosis: Potential Cellular Targets for Novel Disease Modifying Therapeutics
title_sort diversity of astrocyte activation during multiple sclerosis: potential cellular targets for novel disease modifying therapeutics
topic Review
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10253053/
https://www.ncbi.nlm.nih.gov/pubmed/37297725
http://dx.doi.org/10.3390/healthcare11111585
work_keys_str_mv AT barmpagiannoskonstantinos thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT theotokispaschalis thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT petratossteven thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT pagninmaurice thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT einsteinofira thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT kesidouevangelia thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT bozikimarina thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT artemiadisartemios thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT bakirtzischristos thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT grigoriadisnikolaos thediversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT barmpagiannoskonstantinos diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT theotokispaschalis diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT petratossteven diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT pagninmaurice diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT einsteinofira diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT kesidouevangelia diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT bozikimarina diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT artemiadisartemios diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT bakirtzischristos diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics
AT grigoriadisnikolaos diversityofastrocyteactivationduringmultiplesclerosispotentialcellulartargetsfornoveldiseasemodifyingtherapeutics

Ejemplares similares