Astrocytes in Neuropathologies Affecting the Frontal Cortex

To an increasing extent, astrocytes are connected with various neuropathologies. Astrocytes comprise of a heterogeneous population of cells with region- and species-specific properties. The frontal cortex exhibits high levels of plasticity that is required for high cognitive functions and memory making this region especially susceptible to damage. Aberrations in the frontal cortex are involved with several cognitive disorders, including Alzheimer's disease, Huntington's disease and frontotemporal dementia. Human induced pluripotent stem cells (iPSCs) provide an alternative for disease modeling and offer possibilities for studies to investigate pathological mechanisms in a cell type-specific manner. Patient-specific iPSC-derived astrocytes have been shown to recapitulate several disease phenotypes. Addressing astrocyte heterogeneity may provide an improved understanding of the mechanisms underlying neurodegenerative diseases.Peer reviewe

Autistisen käyttäytymisen monitekijäinen tausta

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The Val66Met polymorphism in the BDNF gene is associated with epilepsy in fragile X syndrome

The Val66Met polymorphism in the brain-derived neurotrophic factor (BDNF) gene may modulate the epilepsy phenotype. We investigated the impact of polymorphisms in the BDNF gene on clinical features in fragile X syndrome (FXS). In our study sample, the Met66 allele associated with epilepsy of finnish FXS men. Abnormalities in BDNF-mediated plasticity are shown in FXS and the present data suggest that the Met66 allele might predispose FXS mates to epilepsy. (C) 2009 Published by Elsevier B.V.The Val66Met polymorphism in the brain-derived neurotrophic factor (BDNF) gene may modulate the epilepsy phenotype. We investigated the impact of polymorphisms in the BDNF gene on clinical features in fragile X syndrome (FXS). In our study sample, the Met66 allele associated with epilepsy of finnish FXS men. Abnormalities in BDNF-mediated plasticity are shown in FXS and the present data suggest that the Met66 allele might predispose FXS mates to epilepsy. (C) 2009 Published by Elsevier B.V.The Val66Met polymorphism in the brain-derived neurotrophic factor (BDNF) gene may modulate the epilepsy phenotype. We investigated the impact of polymorphisms in the BDNF gene on clinical features in fragile X syndrome (FXS). In our study sample, the Met66 allele associated with epilepsy of finnish FXS men. Abnormalities in BDNF-mediated plasticity are shown in FXS and the present data suggest that the Met66 allele might predispose FXS mates to epilepsy. (C) 2009 Published by Elsevier B.V.Peer reviewe

Increased iron content in the heart of the Fmr1 knockout mouse

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Etuaivoidentiteetillisten ihmisen monikykyisistä kantasoluista johdettujen astrosyyttien tuottaminen

Astrosyytit ovat hermoston tukisoluja, joiden toiminnalliset ja morfologiset ominaisuudet vaihtelevat eri aivoalueilla. Astrosyyttien ominaisuuksien vaihtelun on todettu olevan erityisen suurta ihmisen aivoissa. Ihmisen pluripotentit kantasolut (hPS-solut) mahdollistavat astroglian monimuotoisuutta säätelevien mekanismien tutkimisen. Olemme luoneet menetelmän, joka tuottaa hPS-soluista ihmisen etuaivojen astrosyyttejä, ja kuvanneet tuotettujen astrosyyttien erityispiirteitä. Määritimme hPS-soluista erilaistettujen solujen geenien ilmentymisprofiilin päivänä 0 (D0), neuronaalisen induktion jälkeen D12 sekä solujen kasvutekijöillä monistamisen jälkeen D30 ja D60. Astrosyyttien lopullinen määräytyminen toteutettiin siliaarisella neurotrofisella tekijällä (ciliary neurotrophic factor; CNTF) ja D95-ikäisien astrosyyttien osoitettiin ilmentävän lähes 100 prosenttisesti yleisesti käytössä olevia astrosyyttimarkkereita. Erilaistamisen aikana tehty geeniprofilointi vahvisti solujen etuaivojen identiteetin. Kuvasimme solunsisäisen kalsiumkuvantamisen avulla, että erilaistamamme astrosyytit olivat elinkykyisiä ja antoivat toiminnallisia vasteita ATP:lle. Lisäksi määritimme astrosyyttien perustehtävää eli kykyä säädellä immuunivasteita aivoissa tutkimalla niistä erittyvien sytokiinien määriä. Totesimme D95-astrosyyttien viljelynesteessä merkittäviä pitoisuuksia MCP-1- ja TIMP-2-proteiinia yhteneväisesti näitä proteiineja ilmentävien geenien kohonneisiin mRNA-määriin. Astrosyyttien erilaistamismenetelmä oli toistettavissa usealla hPSC-linjalla, ja tutkimuksemme osoitti, että erilaistamamme etuaivojen astrosyytit tarjoavat uudenlaisen keinon sekä astrosyyttien soluspesifisten ominaisuuksien että yhteisviljelmissä muiden hermoston solujen kanssa hermoston solujen yhteisvaikutusten tutkimiseen. Potilaskohtaisista hPS-soluista erilaistettujen astrosyyttien avulla voidaan selvittää ihmisen astrosyyttien toimintaa myös sairaustiloissa

Generation of the Human Pluripotent Stem-Cell-Derived Astrocyte Model with Forebrain Identity

Astrocytes form functionally and morphologically distinct populations of cells with brainregion-specific properties. Human pluripotent stem cells (hPSCs) offer possibilities to generate astroglia for studies investigating mechanisms governing the emergence of astrocytic diversity. We established a method to generate human astrocytes from hPSCs with forebrain patterning and final specification with ciliary neurotrophic factor (CNTF). Transcriptome profiling and gene enrichment analysis monitored the sequential expression of genes determining astrocyte differentiation and confirmed activation of forebrain differentiation pathways at Day 30 (D30) and D60 of differentiation in vitro. More than 90% of astrocytes aged D95 in vitro co-expressed the astrocytic markers glial fibrillary acidic protein (GFAP) and S100 beta. Intracellular calcium responses to ATP indicated differentiation of the functional astrocyte population with constitutive monocyte chemoattractant protein-1 (MCP-1/CCL2) and tissue inhibitor of metalloproteinases-2 (TIMP-2) expression. The method was reproducible across several hPSC lines, and the data demonstrated the usefulness of forebrain astrocyte modeling in research investigating forebrain pathology.Peer reviewe

Urokinase plasminogen activator mediates changes in human astrocytes modeling fragile X syndrome

Astrocyte function intertwines with the extracellular matrix, whose glial cell-derived components shape neuronal plasticity. Astrocyte abnormalities are found in the brain of the mouse model for fragile X syndrome (FXS), the most common cause of inherited intellectual disability, and a monogenic cause of autism spectrum disorder. We generated human induced pluripotent stem cell-derived FXS and control astrocytes and we found that several pathways associated with urokinase plasminogen activator (uPA) that modulates degradation of extracellular matrix were activated in FXS astrocytes compared with controls. Expression of uPA was increased in FXS astrocytes and levels of uPA were also increased in conditioned medium collected from FXS astrocyte cultures. Levels of uPA correlated inversely with intracellular Ca2+ responses to activation of L-type voltage-gated calcium channels in human astrocytes. Increased uPA augmented neuronal phosphorylation of TrkB, indicating effects of uPA on neuronal plasticity. FXS-specific changes of gene expression during neuronal differentiation preceding astrogenesis likely contributed to altered properties of FXS astrocytes. Our results identified uPA as an important regulator of astrocyte function and demonstrated that increased uPA in human FXS astrocytes modulated astrocytic responses and neuronal plasticity.Peer reviewe

The phylodynamics of SARS-CoV-2 during 2020 in Finland

Finland has had a low incidence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV2) infections as compared to most European countries. Here we report the origins and turnover of SARS-CoV-2 lineages circulating in Finland in 2020. SARS-CoV-2 introduced to Finland in January 2020 and spread rapidly across southern Finland during spring. We observed rapid turnover among Finnish lineages during this period. Clade 20C became the most prevalent among sequenced cases and was replaced by other strains in fall 2020. Bayesian phylogeographic reconstructions suggested 42 independent introductions into Finland during spring 2020, mainly from Italy, Austria, and Spain, which might have been the source for a third of cases. The investigations of the original introductions of SARS-CoV-2 to Finland during the early stages of the pandemic and of the subsequent lineage dynamics could be utilized to assess the role of transboundary movements and effects of early intervention and public health measures.Peer reviewe