Astrogliosis in an Experimental Model of Hypovitaminosis B12: A Cellular Basis of Neurological Disorders Due to Cobalamin Deficiency

Cobalamin deficiency affects human physiology with sequelae ranging from mild fatigue to severe neuropsychiatric abnormalities. The cellular and molecular aspects of the nervous system disorders associated with hypovitaminosis B12 remain largely unknown. Growing evidence indicates that astrogliosis...

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Autores principales: Rzepka, Zuzanna, Rok, Jakub, Kowalska, Justyna, Banach, Klaudia, Hermanowicz, Justyna Magdalena, Beberok, Artur, Sieklucka, Beata, Gryko, Dorota, Wrześniok, Dorota
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7600008/
https://www.ncbi.nlm.nih.gov/pubmed/33050187
http://dx.doi.org/10.3390/cells9102261
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author Rzepka, Zuzanna
Rok, Jakub
Kowalska, Justyna
Banach, Klaudia
Hermanowicz, Justyna Magdalena
Beberok, Artur
Sieklucka, Beata
Gryko, Dorota
Wrześniok, Dorota
author_facet Rzepka, Zuzanna
Rok, Jakub
Kowalska, Justyna
Banach, Klaudia
Hermanowicz, Justyna Magdalena
Beberok, Artur
Sieklucka, Beata
Gryko, Dorota
Wrześniok, Dorota
author_sort Rzepka, Zuzanna
collection PubMed
description Cobalamin deficiency affects human physiology with sequelae ranging from mild fatigue to severe neuropsychiatric abnormalities. The cellular and molecular aspects of the nervous system disorders associated with hypovitaminosis B12 remain largely unknown. Growing evidence indicates that astrogliosis is an underlying component of a wide range of neuropathologies. Previously, we developed an in vitro model of cobalamin deficiency in normal human astrocytes (NHA) by culturing the cells with c-lactam of hydroxycobalamin (c-lactam OH-Cbl). We revealed a non-apoptotic activation of caspases (3/7, 8, 9) in cobalamin-deficient NHA, which may suggest astrogliosis. The aim of the current study was to experimentally verify this hypothesis. We indicated an increase in the cellular expression of two astrogliosis markers: glial fibrillary acidic protein and vimentin in cobalamin-deficient NHA using Western blot analysis and immunocytochemistry with confocal laser scanning microscopy. In the next step of the study, we revealed c-lactam OH-Cbl as a potential non-toxic vitamin B12 antagonist in an in vivo model using zebrafish embryos. We believe that the presented results will contribute to a better understanding of the cellular mechanism underlying neurologic pathology due to cobalamin deficiency and will serve as a foundation for further studies.
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spelling pubmed-76000082020-11-01 Astrogliosis in an Experimental Model of Hypovitaminosis B12: A Cellular Basis of Neurological Disorders Due to Cobalamin Deficiency Rzepka, Zuzanna Rok, Jakub Kowalska, Justyna Banach, Klaudia Hermanowicz, Justyna Magdalena Beberok, Artur Sieklucka, Beata Gryko, Dorota Wrześniok, Dorota Cells Article Cobalamin deficiency affects human physiology with sequelae ranging from mild fatigue to severe neuropsychiatric abnormalities. The cellular and molecular aspects of the nervous system disorders associated with hypovitaminosis B12 remain largely unknown. Growing evidence indicates that astrogliosis is an underlying component of a wide range of neuropathologies. Previously, we developed an in vitro model of cobalamin deficiency in normal human astrocytes (NHA) by culturing the cells with c-lactam of hydroxycobalamin (c-lactam OH-Cbl). We revealed a non-apoptotic activation of caspases (3/7, 8, 9) in cobalamin-deficient NHA, which may suggest astrogliosis. The aim of the current study was to experimentally verify this hypothesis. We indicated an increase in the cellular expression of two astrogliosis markers: glial fibrillary acidic protein and vimentin in cobalamin-deficient NHA using Western blot analysis and immunocytochemistry with confocal laser scanning microscopy. In the next step of the study, we revealed c-lactam OH-Cbl as a potential non-toxic vitamin B12 antagonist in an in vivo model using zebrafish embryos. We believe that the presented results will contribute to a better understanding of the cellular mechanism underlying neurologic pathology due to cobalamin deficiency and will serve as a foundation for further studies. MDPI 2020-10-09 /pmc/articles/PMC7600008/ /pubmed/33050187 http://dx.doi.org/10.3390/cells9102261 Text en © 2020 by the authors. 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 (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Rzepka, Zuzanna
Rok, Jakub
Kowalska, Justyna
Banach, Klaudia
Hermanowicz, Justyna Magdalena
Beberok, Artur
Sieklucka, Beata
Gryko, Dorota
Wrześniok, Dorota
Astrogliosis in an Experimental Model of Hypovitaminosis B12: A Cellular Basis of Neurological Disorders Due to Cobalamin Deficiency
title Astrogliosis in an Experimental Model of Hypovitaminosis B12: A Cellular Basis of Neurological Disorders Due to Cobalamin Deficiency
title_full Astrogliosis in an Experimental Model of Hypovitaminosis B12: A Cellular Basis of Neurological Disorders Due to Cobalamin Deficiency
title_fullStr Astrogliosis in an Experimental Model of Hypovitaminosis B12: A Cellular Basis of Neurological Disorders Due to Cobalamin Deficiency
title_full_unstemmed Astrogliosis in an Experimental Model of Hypovitaminosis B12: A Cellular Basis of Neurological Disorders Due to Cobalamin Deficiency
title_short Astrogliosis in an Experimental Model of Hypovitaminosis B12: A Cellular Basis of Neurological Disorders Due to Cobalamin Deficiency
title_sort astrogliosis in an experimental model of hypovitaminosis b12: a cellular basis of neurological disorders due to cobalamin deficiency
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7600008/
https://www.ncbi.nlm.nih.gov/pubmed/33050187
http://dx.doi.org/10.3390/cells9102261
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