Assist.-Prof. Isabella Anderson-Wagner
Assistant Professor, joint professorship with the Centre for Microbiology and Environmental Systems Science and the Faculty of Psychology
☎ +43 1 4277 47151
✉ isabella.wagner(at)univie.ac.at
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Publications Overview
Isabella’s research group studies the microbiome-brain axis in relation to neural plasticity, learning, and memory. The group integrates neuroimaging techniques (mainly functional magnetic resonance imaging, among others), gut microbial profiling, and behavioural-cognitive assessments to track microbiome-brain interactions in healthy humans and animal models, as well as in conditions of reduced neural plasticity (due to genetic risk for dementia, perturbed neurodevelopment, or stress).
Isabella has a joint professorship with the Faculty of Psychology and the Centre for Microbiology and Environmental Systems Science. She was awarded the Cortex Prize for her early career achievements in neuroscience by the Federation of European Neuroscience Societies (2023), received a Veni Grant from the Dutch Research Council (2020), a FWF Principal Investigator Project (2021), a Young Investigator Grant from the Brain & Behaviour Research Foundation (2024), and was awarded an ERC Starting Grant (2025). She is also part of an FWF-funded Research Group (2023) and the Cluster of Excellence “Microbiomes drive planetary health” (2023).
Research Topics
Gut microbiome-brain interplay for neural plasticity
The fact that the brain is influenced by the microorganisms that make up the gut microbiome substantially widens the scope of how we need to view neural plasticity, cognition and behaviour. Neural plasticity describes the brain’s capacity for reorganisation, and the hippocampus in particular is a brain structure key to learning and memory. A major part of our work is dedicated to understanding the microbial effects on hippocampal function, network topology, and related cognition (ERC Starting Grant “MemoryLane”).
Recent work also demonstrated that fluctuations in the constellation of specific gut microbial networks are associated with the structure and function of brain networks relevant to neural plasticity and flexible cognition (Wagner et al., 2026 — new preprint to be posted asap!). Moreover, we are currently assessing neurotransmitter production in synthetic microbial communities in vitro, and their impact in vivo using a novel line of animal research (FWF Cluster of Excellence “Microbiomes drive planetary health”).
Profiles of altered neural plasticity
The hippocampus and adjacent medial temporal lobe structures are critically implicated in ageing and dementia. Exciting discoveries suggest that gut microbial signalling may contribute to dementia as well — highlighting the microbiome-brain axis as a promising target for preventing or attenuating neurodegenerative disease progression. In several ongoing projects, we focus on the role of the apolipoprotein E e4 allele, which is the strongest known genetic risk factor for Alzheimer’s disease, and its impact on the gut microbiome and neurocognition (ERC Starting Grant “MemoryLane”, BBRF Young Investigator Grant).
Besides dementia risk, gut microbes may also mediate the (often) detrimental effects of stress on brain function. In a recent paper, we demonstrated that the rise of stress hormones after acute stress (induced with a standardised laboratory measure) depends on one’s gut microbial diversity and inferred capacity to produce short-chain fatty acids (Karner et al., 2025) – microbially-synthesised metabolites that can cross the blood-brain barrier and impact hippocampus-dependent cognition.
Finally, we are interested in the early stages of life. In a currently ongoing project, we are investigating the effects of early gut microbiome-immune perturbation due to extremely premature birth on the development of brain networks and neurocognition in children (FWF Research Group “NeoGIBA”).
Cognitive neuroscience of memory and spatial navigation
Microbiome-brain interactions lie at the heart of our research endeavours, but we have been devoting much time and effort to understanding the basic principles of neurocognition, particularly hippocampus-dependent memory and spatial navigation.
Prior work investigated the neural correlates of episodic memory formation and retrieval (Wagner et al., 2015, 2016, 2017, 2019), the beneficial effect of memory training (Ren et al., 2025; Wagner et al., 2021; Dresler et al., 2017) and exercise (van Dongen et al., 2016) on neurocognition, and the involvement of spatially-tuned cells in the entorhinal cortex that may contribute to our “internal compass”, allowing for successful orientation and navigation through space (Graichen et al., 2025; Wagner et al., 2023 — funded by an FWF Principal Investigator Project).
Group Members
Patrick Adelsberger
Master's Student
Philip Brucker
Student Assistant
Klara Draxlbauer
Master's Student
Ioanna Freri
PhD Student
Luise Graichen
PhD Student
Thomas Karner
PhD Student
Andreja Ketiš Radič
Student Assistant
Lea Schenk
PhD Student
Regina Ori Stöckl
PhD Student
Arianna Turello
Master's Student
Fabian Wehrmann
Master's Student
Publications
Boch M, Karl S, Wagner IC, Lengersdorff LL, Huber L, Lamm C. Action observation reveals a network with divergent temporal and parietal cortex engagement in dogs compared with humans. Imaging Neuroscience. 2024 Dec 11;2:1-29. Epub 2024 Nov 20. doi: 10.1162/imag_a_00385
Graichen LP, Linder MS, Keuter L, Jensen O, Doeller CF, Lamm C et al. Entorhinal grid-like codes for visual space during memory formation. 2024 Sept 27. doi: 10.1101/2024.09.27.615339
Forbes PAG, Aydogan G, Braunstein J, Todorova B, Wagner IC, Lockwood PL et al. Acute stress reduces effortful prosocial behaviour. eLife. 2024 Jan 5;12:RP87271. Epub 2024 Jan 5. doi: 10.7554/eLife.87271
Forbes P, Aydogan G, Braunstein JT, Todorova B, Wagner I, Lockwood PL et al. Acute stress reduces effortful prosocial behaviour. ELIFE SCIENCES PUBLICATIONS LTD. 2023 Dec 11. doi: 10.7554/eLife.87271
Lengersdorff LL, Wagner IC, Mittmann G, Sastre-Yagüe D, Lüttig A, Olsson A et al. Neuroimaging and behavioral evidence that violent video games exert no negative effect on human empathy for pain and emotional reactivity to violence. eLife. 2023 Nov 17;12. doi: 10.7554/eLife.84951
Microbiomes Drive Planetary Health
Isabella Anderson-Wagner is part of the FWF-funded Cluster of Excellence (CoE)
