TY - JOUR
T1 - A common computational and neural anomaly across mouse models of autism
AU - The International Brain Laboratory
AU - Noel, Jean Paul
AU - Balzani, Edoardo
AU - Acerbi, Luigi
AU - Benson, Julius
AU - Witten, Ilana B.
AU - Winter, Olivier
AU - Whiteway, Matthew R.
AU - West, Steven Jon
AU - Wells, Miles J.
AU - Urai, Anne E.
AU - Svoboda, Karel
AU - Steinmetz, Nicholas A.
AU - Socha, Karolina Z.
AU - Schartner, Michael
AU - Roth, Noam
AU - Rossant, Cyrille
AU - Pouget, Alexandre
AU - Paninski, Liam
AU - Pan-Vazquez, Alejandro
AU - Mrsic-Flogel, Thomas D.
AU - Miska, Nathaniel J.
AU - Meijer, Guido T.
AU - Mainen, Zachary F.
AU - Krasniak, Christopher
AU - Khanal, Anup
AU - Huntenburg, Julia M.
AU - Hu, Fei
AU - Hofer, Sonja B.
AU - Hausser, Michael
AU - Harris, Kenneth D.
AU - Gercek, Berk
AU - Freitas-Silva, Laura
AU - Fiete, Ila Rani
AU - Faulkner, Mayo
AU - Engel, Tatiana A.
AU - DeWitt, Eric E.J.
AU - Dayan, Peter
AU - Davatolhagh, Felicia
AU - Dan, Yang
AU - Churchland, Anne K.
AU - Chapuis, Gaelle A.
AU - Catarino, Joana A.
AU - Carandini, Matteo
AU - Bonacchi, Niccolo
AU - Birman, Daniel
AU - Angelaki, Dora
AU - Savin, Cristina
AU - Angelaki, Dora E.
N1 - Publisher Copyright:
© The Author(s), under exclusive licence to Springer Nature America, Inc. 2025.
PY - 2025/7
Y1 - 2025/7
N2 - Computational psychiatry studies suggest that individuals with autism spectrum disorder (ASD) inflexibly update their expectations. Here we leveraged high-yield rodent psychophysics, extensive behavioral modeling and brain-wide single-cell extracellular recordings to assess whether mice with different genetic perturbations associated with ASD show this same computational anomaly, and if so, what neurophysiological features are shared across genotypes. Mice harboring mutations in Fmr1, Cntnap2 or Shank3B show a blunted update of priors during decision-making. Compared with mice that flexibly updated their priors, inflexible updating of priors was associated with a shift in the weighting of prior encoding from sensory to frontal cortices. Furthermore, frontal areas in mouse models of ASD showed more units encoding deviations from the animals’ long-run prior, and sensory responses did not differentiate between expected and unexpected observations. These findings suggest that distinct genetic instantiations of ASD may yield common neurophysiological and behavioral phenotypes.
AB - Computational psychiatry studies suggest that individuals with autism spectrum disorder (ASD) inflexibly update their expectations. Here we leveraged high-yield rodent psychophysics, extensive behavioral modeling and brain-wide single-cell extracellular recordings to assess whether mice with different genetic perturbations associated with ASD show this same computational anomaly, and if so, what neurophysiological features are shared across genotypes. Mice harboring mutations in Fmr1, Cntnap2 or Shank3B show a blunted update of priors during decision-making. Compared with mice that flexibly updated their priors, inflexible updating of priors was associated with a shift in the weighting of prior encoding from sensory to frontal cortices. Furthermore, frontal areas in mouse models of ASD showed more units encoding deviations from the animals’ long-run prior, and sensory responses did not differentiate between expected and unexpected observations. These findings suggest that distinct genetic instantiations of ASD may yield common neurophysiological and behavioral phenotypes.
UR - https://www.scopus.com/pages/publications/105007820367
UR - https://www.scopus.com/inward/citedby.url?scp=105007820367&partnerID=8YFLogxK
U2 - 10.1038/s41593-025-01965-8
DO - 10.1038/s41593-025-01965-8
M3 - Article
C2 - 40461847
AN - SCOPUS:105007820367
SN - 1097-6256
VL - 28
SP - 1519
EP - 1532
JO - Nature neuroscience
JF - Nature neuroscience
IS - 7
ER -