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dc.contributor.authorAndersson, Daniel
dc.date.accessioned2013-05-10T06:25:38Z
dc.date.available2013-05-10T06:25:38Z
dc.date.issued2013-05-10
dc.identifier.isbn978-91-628-8702-5
dc.identifier.urihttp://hdl.handle.net/2077/32390
dc.description.abstractAstrocytes, one of the most abundant and heterogeneous cell types in the central nervous system, fulfill many important roles in the healthy and injured brain. This thesis investigates the role of astrocytes in the neurogenic niche and the astrocyte response in stroke and neurotrauma. Using gene expression profiling on a global level as well as on a single-cell level and applying it to disease and transgenic models in vivo and in vitro, we have addressed molecular bases of these responses and molecular signatures of the subpopulations of astrocytes. Following injury, stroke or neurodegenerative diseases, astrocytes upregulate intermediate filament (nanofilament) proteins glial fibrillary acidic protein and vimentin along with many other genes, in a process referred to as reactive gliosis. Results presented in this thesis show that mice with attenuated reactive gliosis developed larger infarct volumes following experimental brain ischemia, compared to controls, implying that reactive gliosis is neuroprotective. Using astrocyte and neurosphere co-cultures, we show that astrocytes inhibit neuronal differentiation through cell-cell contact via the Notch signaling pathway and that intermediate filaments are involved in this process. We found that even a very limited focal trauma triggers a distinct brain plasticity response both in the injured and contralesional hemisphere and that this response at least partly depends on activation of astrocytes. Finally, using single-cell gene expression profiling in vitro and in vivo, we show that the astrocyte population is highly heterogeneous, we attempt to define astrocyte subpopulations in molecular terms, and we demonstrate that astrocyte subpopulations respond differentially to a subtle neurotrauma both in the injured and contralesional hemisphere.sv
dc.language.isoengsv
dc.relation.haspartI. Li L, Lundkvist A, Andersson D, Wilhelmsson U, Nagai N, Pardo AC, Nodin C, Ståhlberg A, Aprico K, Larsson K, Yabe T, Moons L, Fotheringham A, Davies I, Carmeliet P, Schwartz JP, Pekna M, Kubista M, Blomstrand F, Maragakis N, Nilsson M, Pekny M. Protective role of reactive astrocytes in brain ischemia. J Cereb Blood Flow Metab. 2008 Mar;28(3):468-81.::PMID::17726492sv
dc.relation.haspartII. Wilhelmsson U, Faiz M, de Pablo Y, Sjöqvist M, Andersson D, Widestrand A, Potokar M, Stenovec M, Smith PL, Shinjyo N, Pekny T, Zorec R, Ståhlberg A, Pekna M, Sahlgren C, Pekny M. Astrocytes negatively regulate neurogenesis through the Jagged1-mediated Notch pathway. Stem Cells. 2012 Oct;30(10):2320-9.::PMID::22887872sv
dc.relation.haspartIII. Ståhlberg A, Andersson D, Aurelius J, Faiz M, Pekna M, Kubista M, Pekny M. Defining cell populations with single-cell gene expression profiling: correlations and identification of astrocyte subpopulations. Nucleic Acids Res. 2011 Mar;39(4):e24.::PMID::21112872sv
dc.relation.haspartIV. Andersson D, Wilhelmsson U, Nilsson M, Kubista M, Ståhlberg A, Pekna M, Pekny M. Plasticity response in the contralesional hemisphere after subtle neurotrauma: gene expression profiling after partial deafferentation of the hippocampus. Submittedsv
dc.relation.haspartV. Andersson D, Wilhelmsson U, Möllerström E, de Pablo Y, Puschmann P, Nilsson M, Pekna M, Ståhlberg A, Pekny M. Molecular definition of astrocytes in unchallenged and injured hippocampus, a single-cell gene expression study. Manuscriptsv
dc.subjectastrocytessv
dc.subjectreactive gliosissv
dc.subjectstrokesv
dc.subjectneurotraumasv
dc.subjectbrain plasticitysv
dc.subjectintermediate filamentssv
dc.subjectnanofilamentssv
dc.subjectGFAPsv
dc.subjectvimentinsv
dc.subjectneurogenesissv
dc.subjectneural stem/progenitor cellsv
dc.subjectsingle-cell gene expression profilingsv
dc.titleThe role of astrocytes in stroke, brain plasticity and neurogenesissv
dc.typetexteng
dc.type.svepDoctoral thesiseng
dc.gup.maildaniel.andersson@neuro.gu.sesv
dc.type.degreeDoctor of Philosophy (Medicine)sv
dc.gup.originUniversity of Gothenburg. Sahlgrenska Academysv
dc.gup.departmentInstitute of Neuroscience and Physiology. Department of Clinical Neuroscience and Rehabilitationsv
dc.gup.defenceplaceTorsdagen den 30 maj 2013, kl. 13.00, Hörsal Karl Kylberg, Medicinaregatan 7, Göteborgsv
dc.gup.defencedate2013-05-30
dc.gup.dissdb-fakultetSA


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