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Neural Stem Cells of Parkinson's Disease Patients Exhibit Aberrant Mitochondrial Morphology and Functionality

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https://www.cell.com/stem-cell-reports/fulltext/S2213-6711(19)30089-X Emerging evidence suggests that Parkinson's disease (PD), besides being an age-associated disorder, might also have a neurodevelopment component. Disruption of mitochondrial homeostasis has been highlighted as a crucial cofactor in its etiology. Here, we show that PD patient-specific human neuroepithelial stem cells (NESCs), carrying the LRRK2-G2019S mutation, recapitulate key mitochondrial defects previously described only in differentiated dopaminergic neurons. By combining high-content imaging approaches, 3D image analysis, and functional mitochondrial readouts we show that LRRK2-G2019S mutation causes aberrations in mitochondrial morphology and functionality compared with isogenic controls. LRRK2-G2019S NESCs display an increased number of mitochondria compared with isogenic control lines. However, these mitochondria are more fragmented and exhibit decreased membrane potential. Functional alte...
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Lifestyle Factors, Family History Linked to Overall Risk for Parkinson Disease

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“…The investigators concluded that the results of this study show that PD risk is very low among individuals with multiple protective risk factors, thus supporting the protective synergism between caffeine intake and physical activity in women, and between caffeine intake and family history of PD in men….” https://www.neurologyadvisor.com/movement-disorders/parkinson-disease-risk-influenced-by-family-history-lifestyle/article/764976/
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See a Single Stem Cell Grow Into a Complete Creature

From the National Geographic: “Scientists have created a genetic roadmap for how lone cells develop into complex life….” https://news.nationalgeographic.com/2018/05/embryo-stem-cells-genetic-roadmap-development-science-spd/ Video Player 00:00 00:10
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Good read for a Sunday afternoon - 29.04.2018

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This is a super interesting article, perfect for a Sunday afternoon: https://physicsworld.com/a/laser-bioprints-stem-cells/
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Some links to interesting articles

Parkinson's breakthrough: Scientists one step closer to making a BRAIN out of stem cells https://www.express.co.uk/life-style/health/792013/Parkinsons-breakthrough-stem-cells-brain-science-research-medical-study Kampf gegen Parkinson: Ein Wirkstoff ist noch keine Lösung http://www.badische-zeitung.de/gesundheit-ernaehrung/kampf-gegen-parkinson-ein-wirkstoff-ist-noch-keine-loesung--96415822.html Replacing animal testing with cultured human cells http://www.euronews.com/2016/10/10/replacing-animal-testing-with-cultured-human-cells Durchbruch für Luxemburger Forscher: Gehirngewebe aus der Versuchsschale https://www.wort.lu/de/panorama/durchbruch-fuer-luxemburger-forscher-gehirngewebe-aus-der-versuchsschale-58f87b49a5e74263e13adb68 Ihre Forschung könnte Tierleben retten https://www.volksfreund.de/region/trierer-land/forschung-preis-parkinson_aid-7710265
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News about our work on the University of Luxembourg page

BTech and HuMiX awarded at Luxembourg Healthcare Summit https://wwwen.uni.lu/lcsb/news_events/btech_and_humix_awarded_at_luxembourg_healthcare_summit LCSB scientist receives Lush Young Researcher Prize https://wwwen.uni.lu/lcsb/news_events/lcsb_scientist_receives_lush_young_researcher_prize Brain tissue from a petri dish https://wwwen.uni.lu/lcsb/news_events/brain_tissue_from_a_petri_dish
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Jens Schwamborn in Russian (Йенс Шумборн на русском)

Jens Schwamborn  имеет опыт в исследованиях стволовых клеток, нейронауки и in vitro моделирования болезни Паркинсона. В поле стволовых клеток он опубликовал рукописи, касающиеся спецификации судьбы клеток в нервных стволовых клетках (Schwamborn et al., 2009, Cell), прямое перепрограммирование фибробластов в нервные стволовые клетки (Han et al., 2012, Cell Stem Cell), функции микроРНК при поддержании нервных стволовых клеток (Palm et al., 2013, Nucleic Acids Research), а также функциональной интеграции трансплантированных стволовых клеток в мозг мыши (Hemmer et al., 2014, Stem Cell Reports). В области нейронауки Йенс Шваборн опубликовал около образования неокортекса у приматов (Kelava et al., 2012, Cerebral Cortex), установление фенотипического анализа на основе стволовых клеток для нейротоксичности (Hoening et al., 2012, Cell Stem Cell) как молекулярные механизмы, которые вносят вклад в спецификацию олигодендроцитов (Bunk et al., 2016, Stem Cells). Наконец, в области моделировани...
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