Abstract
Not much is known about how the dentate gyrus (DG) and hippocampal CA3 networks, critical for memory and spatial processing, malfunction in Alzheimer's disease (AD). While studies of associative memory deficits in AD have focused mainly on behavior, here, we directly measured neurophysiological network dysfunction. We asked what the pattern of deterioration of different networks is during disease progression. We investigated how the associative memory-processing capabilities in different hippocampal subfields are affected by familial AD (fAD) mutations leading to amyloid-β dyshomeostasis. Specifically, we focused on the DG and CA3, which are known to be involved in pattern completion and separation and are susceptible to pathological alterations in AD. To identify AD-related deficits in neural-ensemble dynamics, we recorded single-unit activity in wild-type (WT) and fAD model mice (APPSwe+PSEN1/ΔE9) in a novel tactile morph task, which utilizes the extremely developed somatosensory modality of mice. As expected from the sub-network regional specialization, we found that tactile changes induced lower rate map correlations in the DG than in CA3 of WT mice. This reflects DG pattern separation and CA3 pattern completion. In contrast, in fAD model mice, we observed pattern separation deficits in the DG and pattern completion deficits in CA3. This demonstration of region-dependent impairments in fAD model mice contributes to understanding of brain networks deterioration during fAD progression. Furthermore, it implies that the deterioration cannot be studied generally throughout the hippocampus but must be researched at a finer resolution of microcircuits. This opens novel systems-level approaches for analyzing AD-related neural network deficits.
| Original language | English |
|---|---|
| Pages (from-to) | 3292-3302.e6 |
| Journal | Current Biology |
| Volume | 31 |
| Issue number | 15 |
| DOIs | |
| State | Published - 9 Aug 2021 |
| Externally published | Yes |
Bibliographical note
Funding Information:We thank Edith Suss-Toby, Ximena Velasquez, Sanaa Abu-Elhija, and Maya Holdenberger for histological procedures; Paul Zannou and the vivarium staff for animal care; Liat Linde and Doron Fogel for help with setting up genotyping procedures; Eitan Okun and Shai Berlin for reading and commenting on the manuscript; Cindy Cohen for proofreading; Derdikman lab members (especially Sophie Rapoport, Gilad Tocker, and Shahaf Weiss for comments and discussions; Muhammed Zoabi, Miriam Omar, and Muhammed Tibi for help with experimental procedures; and Irina Reiter for genotyping validation); the Slutsky lab (Tatiana Fedorova and Neta Gazith); the Kahn lab (Nadav Cohen and Guenady Yudkovsky); and the Schiller lab (Yael Lamfrom). The research was supported by the Allen and Jewel Prince Center for Neurodegenerative Disorders of the Brain grant, by Israel Science Foundation grants no. 2344/16 and no. 2655/18 , by the German-Israeli Foundation for Scientific Research and Development , by a CRCNS US-Israel NIMH-BSF grant ( 1R01 MH125544-01 ) with Vijay Balasubramanian, by a Rappaport Institute grant, by a joint Technion -Weizmann Adelis Foundation grant, and by the Irving and Branna Sisenwein Fund.
Funding Information:
We thank Edith Suss-Toby, Ximena Velasquez, Sanaa Abu-Elhija, and Maya Holdenberger for histological procedures; Paul Zannou and the vivarium staff for animal care; Liat Linde and Doron Fogel for help with setting up genotyping procedures; Eitan Okun and Shai Berlin for reading and commenting on the manuscript; Cindy Cohen for proofreading; Derdikman lab members (especially Sophie Rapoport, Gilad Tocker, and Shahaf Weiss for comments and discussions; Muhammed Zoabi, Miriam Omar, and Muhammed Tibi for help with experimental procedures; and Irina Reiter for genotyping validation); the Slutsky lab (Tatiana Fedorova and Neta Gazith); the Kahn lab (Nadav Cohen and Guenady Yudkovsky); and the Schiller lab (Yael Lamfrom). The research was supported by the Allen and Jewel Prince Center for Neurodegenerative Disorders of the Brain grant, by Israel Science Foundation grants no. 2344/16 and no. 2655/18, by the German-Israeli Foundation for Scientific Research and Development, by a CRCNS US-Israel NIMH-BSF grant (1R01 MH125544-01) with Vijay Balasubramanian, by a Rappaport Institute grant, by a joint Technion-Weizmann Adelis Foundation grant, and by the Irving and Branna Sisenwein Fund. O.R. I.S. and D.D. conceived and designed the study. D.D. raised funding for the project; O.R. conducted the experiments; O.R. analyzed the data; G.M. and D.D. supervised the experiments and analysis; and O.R. I.S. G.M. and D.D. wrote the manuscript. The authors declare no competing interests.
Publisher Copyright:
© 2021 Elsevier Inc.
Keywords
- Alzheimer's disease
- attractor dynamics
- dentate gyrus
- hippocampus
- pattern completion
- pattern separation
- place cells
- remapping
- somatosensory
- spatial representation
ASJC Scopus subject areas
- Neuroscience (all)
- Biochemistry, Genetics and Molecular Biology (all)
- Agricultural and Biological Sciences (all)