Katrin Frauenknecht1, Aviva Katzav2, Ronen Weiss Lavi2,3, Avishag Sabag2, Susanne Otten1, Joab Chapman2, Clemens J Sommer1,4. 1. Department of Neuropathology, University Medical Center of the Johannes Gutenberg University Mainz, Mainz, Germany. 2. Department of Neurology, Chaim Sheba Medical Center, Sackler Faculty of Medicine, Tel Aviv University, Tel Hashomer, Israel. 3. Sagol School of Neuroscience, Tel Aviv University, Tel Aviv, Israel. 4. Focus Program Translational Neurosciences (FTN), Rhine Main Neuroscience Network (rmn2), Germany.
Abstract
AIMS: The antiphospholipid syndrome (APS) is an autoimmune disease characterized by high titres of auto-antibodies (aPL) leading to thrombosis and consequent infarcts. However, many affected patients develop neurological symptoms in the absence of stroke. Similarly, in a mouse model of this disease (eAPS), animals consistently develop behavioural abnormalities despite lack of ischemic brain injury. Therefore, the present study was designed to identify structural alterations of hippocampal neurones underlying the neurological symptoms in eAPS. METHODS: Adult female Balb/C mice were subjected to either induction of eAPS by immunization with β2-Glycoprotein 1 or to a control group. After sixteen weeks animals underwent behavioural and cognitive testing using Staircase test (experiment 1 and 2) and Y-maze alternation test (experiment 1) and were tested for serum aPL levels (both experiments). Animals of experiment 1 (n = 7/group) were used for hippocampal neurone analysis using Golgi-Cox staining. Animals of experiment 2 (n = 7/group) were used to analyse molecular markers of total dendritic integrity (MAP2), presynaptic plasticity (synaptobrevin 2/VAMP2) and dendritic spines (synaptopodin) using immunohistochemistry. RESULTS: eAPS mice developed increased aPL titres and presented with abnormal behaviour and impaired short term memory. Further, they revealed a reduction of dendritic complexity of hippocampal CA1 neurones as reflected by decreased dendritic length, arborization and spine density, respectively. Additional decrease of the spine-associated protein expression of Synaptopodin points to dendritic spines as major targets in the pathological process. CONCLUSION: Reduction of hippocampal dendritic complexity may represent the structural basis for the behavioural and cognitive abnormalities of eAPS mice.
AIMS: The antiphospholipid syndrome (APS) is an autoimmune disease characterized by high titres of auto-antibodies (aPL) leading to thrombosis and consequent infarcts. However, many affected patients develop neurological symptoms in the absence of stroke. Similarly, in a mouse model of this disease (eAPS), animals consistently develop behavioural abnormalities despite lack of ischemic brain injury. Therefore, the present study was designed to identify structural alterations of hippocampal neurones underlying the neurological symptoms in eAPS. METHODS: Adult female Balb/C mice were subjected to either induction of eAPS by immunization with β2-Glycoprotein 1 or to a control group. After sixteen weeks animals underwent behavioural and cognitive testing using Staircase test (experiment 1 and 2) and Y-maze alternation test (experiment 1) and were tested for serum aPL levels (both experiments). Animals of experiment 1 (n = 7/group) were used for hippocampal neurone analysis using Golgi-Cox staining. Animals of experiment 2 (n = 7/group) were used to analyse molecular markers of total dendritic integrity (MAP2), presynaptic plasticity (synaptobrevin 2/VAMP2) and dendritic spines (synaptopodin) using immunohistochemistry. RESULTS: eAPS mice developed increased aPL titres and presented with abnormal behaviour and impaired short term memory. Further, they revealed a reduction of dendritic complexity of hippocampal CA1 neurones as reflected by decreased dendritic length, arborization and spine density, respectively. Additional decrease of the spine-associated protein expression of Synaptopodin points to dendritic spines as major targets in the pathological process. CONCLUSION: Reduction of hippocampal dendritic complexity may represent the structural basis for the behavioural and cognitive abnormalities of eAPSmice.
Authors: Patricio T Huerta; Sergio Robbiati; Tomás Salvador Huerta; Anchal Sabharwal; Rose A Berlin; Maya Frankfurt; Bruce T Volpe Journal: Mol Med Date: 2016-11-17 Impact factor: 6.354
Authors: Katrin Frauenknecht; Kai Diederich; Petra Leukel; Henrike Bauer; Wolf-Rüdiger Schäbitz; Clemens J Sommer; Jens Minnerup Journal: PLoS One Date: 2016-01-11 Impact factor: 3.240
Authors: Eric H Chang; Bruce T Volpe; Meggan Mackay; Cynthia Aranow; Philip Watson; Czeslawa Kowal; Justin Storbeck; Paul Mattis; RoseAnn Berlin; Huiyi Chen; Simone Mader; Tomás S Huerta; Patricio T Huerta; Betty Diamond Journal: EBioMedicine Date: 2015-05-30 Impact factor: 8.143