Out-of-Field Hippocampus from Partial-Body Irradiated Mice Displays Changes in Multi-Omics Profile and Defects in Neurogenesis

Out-of-Field Hippocampus from Partial-Body Irradiated Mice Displays Changes in Multi-Omics Profile and Defects in Neurogenesis

The brain undergoes ionizing radiation exposure in many clinical situations, particularly during radiotherapy for brain tumors. The critical role of the hippocampus in the pathogenesis of radiation-induced neurocognitive dysfunction is well recognized. The goal of this study is to test the potential...

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Main Authors: Simonetta Pazzaglia, Barbara Tanno, Francesca Antonelli, Paola Giardullo, Gabriele Babini, Prabal Subedi, Omid Azimzadeh, Zohaib N. Khan, Kateryna Oleksenko, Fabian Metzger, Christine von Toerne, Damien Traynor, Dinesh Medipally, Aidan D. Meade, Munira Kadhim, Fiona M. Lyng, Soile Tapio, Anna Saran, Mariateresa Mancuso
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:International Journal of Molecular Sciences
Subjects:
MiRNome
proteomics
metabolomics
dentate gyrus
radiation
hippocampal neurogenesis
Online Access:https://www.mdpi.com/1422-0067/22/8/4290
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language English
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author Simonetta Pazzaglia
Barbara Tanno
Francesca Antonelli
Paola Giardullo
Gabriele Babini
Prabal Subedi
Omid Azimzadeh
Zohaib N. Khan
Kateryna Oleksenko
Fabian Metzger
Christine von Toerne
Damien Traynor
Dinesh Medipally
Aidan D. Meade
Munira Kadhim
Fiona M. Lyng
Soile Tapio
Anna Saran
Mariateresa Mancuso
spellingShingle Simonetta Pazzaglia
Barbara Tanno
Francesca Antonelli
Paola Giardullo
Gabriele Babini
Prabal Subedi
Omid Azimzadeh
Zohaib N. Khan
Kateryna Oleksenko
Fabian Metzger
Christine von Toerne
Damien Traynor
Dinesh Medipally
Aidan D. Meade
Munira Kadhim
Fiona M. Lyng
Soile Tapio
Anna Saran
Mariateresa Mancuso
Out-of-Field Hippocampus from Partial-Body Irradiated Mice Displays Changes in Multi-Omics Profile and Defects in Neurogenesis
International Journal of Molecular Sciences
MiRNome
proteomics
metabolomics
dentate gyrus
radiation
hippocampal neurogenesis
author_facet Simonetta Pazzaglia
Barbara Tanno
Francesca Antonelli
Paola Giardullo
Gabriele Babini
Prabal Subedi
Omid Azimzadeh
Zohaib N. Khan
Kateryna Oleksenko
Fabian Metzger
Christine von Toerne
Damien Traynor
Dinesh Medipally
Aidan D. Meade
Munira Kadhim
Fiona M. Lyng
Soile Tapio
Anna Saran
Mariateresa Mancuso
author_sort Simonetta Pazzaglia
title Out-of-Field Hippocampus from Partial-Body Irradiated Mice Displays Changes in Multi-Omics Profile and Defects in Neurogenesis
title_short Out-of-Field Hippocampus from Partial-Body Irradiated Mice Displays Changes in Multi-Omics Profile and Defects in Neurogenesis
title_full Out-of-Field Hippocampus from Partial-Body Irradiated Mice Displays Changes in Multi-Omics Profile and Defects in Neurogenesis
title_fullStr Out-of-Field Hippocampus from Partial-Body Irradiated Mice Displays Changes in Multi-Omics Profile and Defects in Neurogenesis
title_full_unstemmed Out-of-Field Hippocampus from Partial-Body Irradiated Mice Displays Changes in Multi-Omics Profile and Defects in Neurogenesis
title_sort out-of-field hippocampus from partial-body irradiated mice displays changes in multi-omics profile and defects in neurogenesis
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1661-6596
1422-0067
publishDate 2021-04-01
description The brain undergoes ionizing radiation exposure in many clinical situations, particularly during radiotherapy for brain tumors. The critical role of the hippocampus in the pathogenesis of radiation-induced neurocognitive dysfunction is well recognized. The goal of this study is to test the potential contribution of non-targeted effects in the detrimental response of the hippocampus to irradiation and to elucidate the mechanisms involved. C57Bl/6 mice were whole body (WBI) or partial body (PBI) irradiated with 0.1 or 2.0 Gy of X-rays or sham irradiated. PBI consisted of the exposure of the lower third of the mouse body, whilst the upper two thirds were shielded. Hippocampi were collected 15 days or 6 months post-irradiation and a multi-omics approach was adopted to assess the molecular changes in non-coding RNAs, proteins and metabolic levels, as well as histological changes in the rate of hippocampal neurogenesis. Notably, at 2.0 Gy the pattern of early molecular and histopathological changes induced in the hippocampus at 15 days following PBI were similar in quality and quantity to the effects induced by WBI, thus providing a proof of principle of the existence of out-of-target radiation response in the hippocampus of conventional mice. We detected major alterations in DAG/IP3 and TGF-β signaling pathways as well as in the expression of proteins involved in the regulation of long-term neuronal synaptic plasticity and synapse organization, coupled with defects in neural stem cells self-renewal in the hippocampal dentate gyrus. However, compared to the persistence of the WBI effects, most of the PBI effects were only transient and tended to decrease at 6 months post-irradiation, indicating important mechanistic difference. On the contrary, at low dose we identified a progressive accumulation of molecular defects that tended to manifest at later post-irradiation times. These data, indicating that both targeted and non-targeted radiation effects might contribute to the pathogenesis of hippocampal radiation-damage, have general implications for human health.
topic MiRNome
proteomics
metabolomics
dentate gyrus
radiation
hippocampal neurogenesis
url https://www.mdpi.com/1422-0067/22/8/4290
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spelling doaj-dca71e78dcaa46ee857c434e9b6f25172021-04-20T23:06:16ZengMDPI AGInternational Journal of Molecular Sciences1661-65961422-00672021-04-01224290429010.3390/ijms22084290Out-of-Field Hippocampus from Partial-Body Irradiated Mice Displays Changes in Multi-Omics Profile and Defects in NeurogenesisSimonetta Pazzaglia0Barbara Tanno1Francesca Antonelli2Paola Giardullo3Gabriele Babini4Prabal Subedi5Omid Azimzadeh6Zohaib N. Khan7Kateryna Oleksenko8Fabian Metzger9Christine von Toerne10Damien Traynor11Dinesh Medipally12Aidan D. Meade13Munira Kadhim14Fiona M. Lyng15Soile Tapio16Anna Saran17Mariateresa Mancuso18Laboratory of Biomedical Technologies, Agenzia Nazionale per le Nuove Tecnologie, l’Energia e lo Sviluppo Economico Sostenibile (ENEA), 00123 Rome, ItalyLaboratory of Biomedical Technologies, Agenzia Nazionale per le Nuove Tecnologie, l’Energia e lo Sviluppo Economico Sostenibile (ENEA), 00123 Rome, ItalyLaboratory of Biomedical Technologies, Agenzia Nazionale per le Nuove Tecnologie, l’Energia e lo Sviluppo Economico Sostenibile (ENEA), 00123 Rome, ItalyLaboratory of Biomedical Technologies, Agenzia Nazionale per le Nuove Tecnologie, l’Energia e lo Sviluppo Economico Sostenibile (ENEA), 00123 Rome, ItalyDepartment of Physics, University of Pavia, 27100 Pavia, ItalyHelmholtz Zentrum München, German Research Center for Environmental Health GmbH (HMGU), Institute of Radiation Biology, D-85764 Neuherberg, GermanyHelmholtz Zentrum München, German Research Center for Environmental Health GmbH (HMGU), Institute of Radiation Biology, D-85764 Neuherberg, GermanyHelmholtz Zentrum München, German Research Center for Environmental Health GmbH (HMGU), Institute of Radiation Biology, D-85764 Neuherberg, GermanyHelmholtz Zentrum München, German Research Center for Environmental Health GmbH (HMGU), Institute of Radiation Biology, D-85764 Neuherberg, GermanyResearch Unit Protein Science, HMGU, D-85764 Neuherberg, GermanyResearch Unit Protein Science, HMGU, D-85764 Neuherberg, GermanyRadiation and Environmental Science Centre, Technological University Dublin, D02 HW71 Dublin, IrelandRadiation and Environmental Science Centre, Technological University Dublin, D02 HW71 Dublin, IrelandRadiation and Environmental Science Centre, Technological University Dublin, D02 HW71 Dublin, IrelandDepartment of Biological and Medical Sciences, Oxford Brookes University (OBU), Oxford OX3 0BP, UKRadiation and Environmental Science Centre, Technological University Dublin, D02 HW71 Dublin, IrelandHelmholtz Zentrum München, German Research Center for Environmental Health GmbH (HMGU), Institute of Radiation Biology, D-85764 Neuherberg, GermanyLaboratory of Biomedical Technologies, Agenzia Nazionale per le Nuove Tecnologie, l’Energia e lo Sviluppo Economico Sostenibile (ENEA), 00123 Rome, ItalyLaboratory of Biomedical Technologies, Agenzia Nazionale per le Nuove Tecnologie, l’Energia e lo Sviluppo Economico Sostenibile (ENEA), 00123 Rome, ItalyThe brain undergoes ionizing radiation exposure in many clinical situations, particularly during radiotherapy for brain tumors. The critical role of the hippocampus in the pathogenesis of radiation-induced neurocognitive dysfunction is well recognized. The goal of this study is to test the potential contribution of non-targeted effects in the detrimental response of the hippocampus to irradiation and to elucidate the mechanisms involved. C57Bl/6 mice were whole body (WBI) or partial body (PBI) irradiated with 0.1 or 2.0 Gy of X-rays or sham irradiated. PBI consisted of the exposure of the lower third of the mouse body, whilst the upper two thirds were shielded. Hippocampi were collected 15 days or 6 months post-irradiation and a multi-omics approach was adopted to assess the molecular changes in non-coding RNAs, proteins and metabolic levels, as well as histological changes in the rate of hippocampal neurogenesis. Notably, at 2.0 Gy the pattern of early molecular and histopathological changes induced in the hippocampus at 15 days following PBI were similar in quality and quantity to the effects induced by WBI, thus providing a proof of principle of the existence of out-of-target radiation response in the hippocampus of conventional mice. We detected major alterations in DAG/IP3 and TGF-β signaling pathways as well as in the expression of proteins involved in the regulation of long-term neuronal synaptic plasticity and synapse organization, coupled with defects in neural stem cells self-renewal in the hippocampal dentate gyrus. However, compared to the persistence of the WBI effects, most of the PBI effects were only transient and tended to decrease at 6 months post-irradiation, indicating important mechanistic difference. On the contrary, at low dose we identified a progressive accumulation of molecular defects that tended to manifest at later post-irradiation times. These data, indicating that both targeted and non-targeted radiation effects might contribute to the pathogenesis of hippocampal radiation-damage, have general implications for human health.https://www.mdpi.com/1422-0067/22/8/4290MiRNomeproteomicsmetabolomicsdentate gyrusradiationhippocampal neurogenesis

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