Oligomer-prone E57K-mutant alpha-synuclein exacerbates integration deficit of adult hippocampal newborn neurons in transgenic mice

Regensburger M, Schreglmann SR, Stoll S, Rockenstein E, Loskarn S, Xiang W, Masliah E, Winner B (2017)

Publication Type: Journal article

Publication year: 2017

Journal

Brain Structure & Function Springer Verlag (Germany)

Abstract

In the adult mammalian hippocampus, new neurons are constantly added to the dentate gyrus. Adult neurogenesis is impaired in several neurodegenerative mouse models including ?-synuclein (a-syn) transgenic mice. Among different a-syn species, a-syn oligomers were reported to be the most toxic species for neurons. Here, we studied the impact of wild-type vs. oligomer-prone a-syn on neurogenesis. We compared the wild-type a-syn transgenic mouse model (Thy1-WTS) to its equivalent transgenic for oligomer-prone E57K-mutant a-syn (Thy1-E57K). Transgenic a-syn was highly expressed within the hippocampus of both models, but was not present within adult neural stem cells and neuroblasts. Proliferation and survival of newly generated neurons were unchanged in both transgenic models. Thy1-WTS showed a minor integration deficit regarding mushroom spine density of newborn neurons, whereas Thy1-E57K exhibited a severe reduction of all spines. We conclude that cell-extrinsic a-syn impairs mushroom spine formation of adult newborn neurons and that oligomer-prone a-syn exacerbates this integration deficit. Moreover, our data suggest that a-syn reduces the survival of newborn neurons by a cell-intrinsic mechanism during the early neuroblast development. The finding of increased spine pathology in Thy1-E57K is a new pathogenic function of oligomeric a-syn and precedes overt neurodegeneration. Thus, it may constitute a readout for therapeutic approaches.

Authors with CRIS profile

Martin Regensburger Interdisziplinäres Zentrum für Klinische Forschung IZKF-Förderlinien Svenja Kremer Professur für Stammzell-Modelle seltener neuraler Erkrankungen Wei Xiang Lehrstuhl für Biochemie und Molekulare Medizin Beate Winner Professur für Stammzell-Modelle seltener neuraler Erkrankungen

Additional Organisation(s)

Interdisziplinäres Zentrum für Klinische Forschung

Involved external institutions

University of California, San Diego

United States (USA) (US) UCL Institute of Neurology

United Kingdom (GB)

How to cite

APA:

Regensburger, M., Schreglmann, S.R., Stoll, S., Rockenstein, E., Loskarn, S., Xiang, W.,... Winner, B. (2017). Oligomer-prone E57K-mutant alpha-synuclein exacerbates integration deficit of adult hippocampal newborn neurons in transgenic mice. Brain Structure & Function. https://dx.doi.org/10.1007/s00429-017-1561-5

MLA:

Regensburger, Martin, et al. "Oligomer-prone E57K-mutant alpha-synuclein exacerbates integration deficit of adult hippocampal newborn neurons in transgenic mice." Brain Structure & Function (2017).

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