Suchergebnisse

Alzheimer's disease is a major neurodegenerative disorder that leads to severe cognitive deficits in the elderly population. Over the past two decades, multiple studies have focused on elucidating the causative factors underlying memory defects in Alzheimer's patients. In this regard, new evidence linking Alzheimer's disease-related pathology and neuronal stem cells suggests that hippocampal neurogenesis impairment is an important factor underlying these cognitive deficits. However, because of conflicting results, the impact of Aβ pathology on neurogenesis/gliogenesis remains unclear. Here, we investigated the effect of Aβ on neuronal and glial proliferation by using an APP/PS1 transgenic model and in vitro assays. Specifically, we showed that neurogenesis is affected early in the APP/PS1 hippocampus, as evidenced by a significant decrease in the proliferative activity due to a reduced number of both radial glia-like neural stem cells (type-1 cells) and intermediate progenitor cells (type-2 cells). Moreover, we demonstrated that soluble Aβ from APP/PS1 mice impairs neuronal cell proliferation using neurosphere cultures. On the other hand, we showed that oligomeric Aβ stimulates microglial proliferation, whereas no effect was observed on astrocytes. These findings indicate that Aβ has a differential effect on hippocampal proliferative cells by inhibiting neuronal proliferation and triggering the formation of microglial cells. ; This study was supported by Institute of Health Carlos III (ISCiii, Spain) through grants PI12/01431, PI15/00796 (to AG) and PI12/01439, PI15/00957 (to JV) that were co-financed by FEDER funds from European Union, by Junta de Andalucia Proyecto de Excelencia CTS-2035 (to JV and AG), Alzheimer's Association NIRG-15-363477 (to DBV) and The Larry Hillblom Foundation #2013-A-016-FEL (to DBV). ; Peer reviewed

Transcriptomic data of dermal cell fractions are deposited in NCBI's Gene Expression Omnibus (Edgar et al., 2002) under accession number GEO: GSE67693. ; The dermal Panniculus carnosus (PC) muscle is important for wound contraction in lower mammals and represents an interesting model of muscle regeneration due to its high cell turnover. The resident satellite cells (the bona fide muscle stem cells) remain poorly characterized. Here we analyzed PC satellite cells with regard to developmental origin and purported function. Lineage tracing shows that they originate in Myf5(+), Pax3/Pax7(+) cell populations. Skin and muscle wounding increased PC myofiber turnover, with the satellite cell progeny being involved in muscle regeneration but with no detectable contribution to the wound-bed myofibroblasts. Since hematopoietic stem cells fuse to PC myofibers in the absence of injury, we also studied the contribution of bone marrow-derived cells to the PC satellite cell compartment, demonstrating that cells of donor origin are capable of repopulating the PC muscle stem cell niche after irradiation and bone marrow transplantation but may not fully acquire the relevant myogenic commitment. ; We thank investigators for monoclonal antibodies A4.1025 (H.M. Blau) and F5D (W.E. Wright), which were obtained from the Developmental Studies Hybridoma Bank (developed under the auspices of the NICHD and maintained by The University of Iowa, Department of Biology, Iowa City, IA). Special thanks to G. Cossu for critical reading of the manuscript. We are also grateful to F. Costantini, C.-M. Fan, C. Lepper, M.J. Sánchez-Sanz, H. Sakai, and S. Tajbakhsh for kindly providing study materials; S. Lamarre of the GeT-Biochip facility for help in the microarray data; D. Ortiz de Urbina, J.C. Mazabuel, and A. Guisasola for help with irradiation protocol; and A. Aduriz, A. Pavón, and M. P. López-Mato for help with FACS analyses. This work was supported by grants from Instituto de Salud Carlos III (ISCIII; PS09/00660, PI13/02172, and PI14/7436), Gobierno Vasco (SAIO12-PE12BN008) from Spain and the European Union (POCTEFA-INTERREG IV A program; REFBIO13/BIOD/006 and REFBIO13/BIOD/009). N.N.G. received a studentship from the Department of Education, University and Research of the Basque Government (PRE2013-1-1168). P.G.P. received fellowships from the Department of Health of the Basque government (2013011016), EMBO (Short-Term; ASTF 542–2013), and Boehringer Ingelheim Fonds. M.L.M. and J.J.C. were supported by a Marie Curie Career Integration Grant from the European Commission (PEOPLE-CIG/1590). A.I. was supported by the Programa I3SNS (CES09/015) from ISCIII and by Osakidetza-Servicio Vasco de Salud (Spain). M.G. and S.A.M. contributed equally to this work. ; Peer-reviewed ; Publisher Version