Age-related accumulation of Reelin in amyloid-like deposits

Knuesel, Irène; Nyffeler, Myriel; Mormède, Cécile; Muhia, Mary; Meyer, Urs; Pietropaolo, Susanna; Yee, Benjamin K.; Pryce, Christopher R.; LaFerla, Frank M.; Marighetto, Aline; Feldon, Joram

doi:10.1016/j.neurobiolaging.2007.08.011

Cited by 83 publications

(107 citation statements)

References 72 publications

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“…However, Nomura et al (1996) found no evidence of deposits or granular structures in SAMP8 brain although they reported an increase in APP-like immunoreactivity. From their description, the Aβ-LI and reelin deposits containing Aβ reported by Knuesel et al (2009) would appear to be the pathological granules that we have investigated further in the present study. Given that we found that they do not stain with Thioflavin S or with Hylite-AF488, and that Aβ-staining is a mistake due to the presence of the contaminant IgM, we conclude that there is no deposition of Aβ in these granular structures.…”

Section: Discussionmentioning

confidence: 75%

“…The deposits described have included, among others, β/A4 protein-like immunoreactivity granular structures (β-LIGS) (Takemura et al 1993), amyloid β-peptide-like immunoreactivity deposits (Aβ-LI) (Fukunari et al 1994), reelin deposits that contained Aβ (Knuesel et al 2009) and the hippocampal granules containing Aβ(1-40) and Aβ(1-42) (Del Valle et al 2010;Currais et al 2012;Porquet et al 2013;Yamaguchi et al 2012). Morley et al (2000) found Aβ plaques that were not discernible before 16 months of age and became more prevalent at 22 months of age.…”

Section: Discussionmentioning

confidence: 99%

“…In fact, they have been found to contain glycogen, glycoproteins and proteoglycans (Akiyama et al 1986;Kuo et al 1996;Manich et al 2011;Takemura et al 1993). Extracellular matrix-related proteins such as heparan sulphate proteoglycan, laminin (Jucker et al 1994;Kuo et al 1996) and reelin (Knuesel et al 2009) have been detected in C57BL/6 granules, and polyglucosans have been described as the major components of granules in the AKR strain (Mitsuno et al 1999).…”

Section: Introductionmentioning

confidence: 99%

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Presence of a neo-epitope and absence of amyloid beta and tau protein in degenerative hippocampal granules of aged mice

Manich

Valle

Cabezón

et al. 2013

AGE

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Clustered pathological granules related to a degenerative process appear and increase progressively with age in the hippocampus of numerous mouse strains. We describe herein the presence of a neoepitope of carbohydrate nature in these granules, which is not present in other brain areas and thus constitutes a new marker of these degenerative structures. We also found that this epitope is recognised by a contaminant IgM present in several antibodies obtained from mouse ascites and from both mouse and rabbit sera. These findings entail the need to revise the high number of components that are thought to be present in the granules, such as the controversial β-amyloid peptides described in the granules of senescence-accelerated mouse prone-8 (SAMP8) mice. Characterisation of the composition of SAMP8 granules, taking into account the presence of the neo-epitope and the contaminant IgM, showed that granules do not contain either β-amyloid peptides or tau protein. The presence of the neo-epitope in the granules but not in other brain areas opens up a new direction in the study of the neurodegenerative processes associated with age. The SAMP8 strain, in which the progression of the granules is enhanced, may be a useful model for this purpose.

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Section: Discussionmentioning

confidence: 75%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Presence of a neo-epitope and absence of amyloid beta and tau protein in degenerative hippocampal granules of aged mice

Manich

Valle

Cabezón

et al. 2013

AGE

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“…On the other hand, an in utero immune challenge at GD17 preferentially affected the expression levels of the hippocampal NR1 subunit of the NMDA receptor as compared to GD9 and control treatments, which were paralleled by impairments in working memory performance. These studies revealed also that a prenatal immune challenge during late gestation resulted in acceleration of aging, as indicated by the earlier formation of Reelin-positive extracellular amyloid-like deposits, a neuropathological feature detected in the hippocampal formation in several species that is accompanied by a reduction in Reelin-expressing neurons (Knuesel et al, 2009;Knuesel, 2010). Both neuropathological alterations significantly correlated with hippocampusdependent episodic-like memory deficits (Knuesel et al, 2009).…”

Section: Prenatal Polyi:c Model Of Accelerated Agingmentioning

confidence: 87%

“…These studies revealed also that a prenatal immune challenge during late gestation resulted in acceleration of aging, as indicated by the earlier formation of Reelin-positive extracellular amyloid-like deposits, a neuropathological feature detected in the hippocampal formation in several species that is accompanied by a reduction in Reelin-expressing neurons (Knuesel et al, 2009;Knuesel, 2010). Both neuropathological alterations significantly correlated with hippocampusdependent episodic-like memory deficits (Knuesel et al, 2009). We found that healthy and cognitively normal subjects were able to sufficiently clear and degrade these deposits, whereas cognitively impaired aged mice failed to do so.…”

Section: Prenatal Polyi:c Model Of Accelerated Agingmentioning

confidence: 92%

Impact of Prenatal Immune System Disturbances on Brain Development

Madhusudan

Vogel

Knuesel

2012

J Neuroimmune Pharmacol

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As research into various aging-associated neurodegenerative disorders reveals their immense pathophysiological complexity, the focus is currently shifting from studying changes in an advanced disease state to investigations involving pre-symptomatic periods, possible aberrations in early life, and even abnormalities in brain development. Recent studies on the etiology of schizophrenia and autism spectrum disorders revealed a profound impact of neurodevelopmental disturbances on disease predisposition, onset and progression. Here, we discuss how a prenatal immune challenge can affect the developing brain-with a selective focus on the impact on microglia, the brain's immune cells-and the implications for brain aging and its associated risk of developing Alzheimer's disease. ABSTRACTAs research into various aging-associated neurodegenerative disorders reveals their immense

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Impact of the Reelin signaling cascade (Ligands–Receptors–Adaptor Complex) on cognition in schizophrenia

Verbrugghe

Bouwer

Wiltshire

et al. 2012

American J of Med Genetics Pt B

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Our previous neurocognitive studies of schizophrenia outlined two clusters of affected subjects--cognitively spared (CS) and cognitive deficit (CD), the latter's characteristics pointing to developmental origins and impaired synaptic plasticity. Here we investigate the contribution of polymorphisms in major regulators of these processes to susceptibility to schizophrenia and to CD in patients. We examine variation in genes encoding proteins at the gateway of Reelin signaling: ligands RELN and APOE, their common receptors APOER2 and VLDLR, and adaptor DAB1. Association analysis with disease outcome and cognitive performance in the Western Australian Family Study of Schizophrenia (WAFSS) was followed by replication analysis in the Australian Schizophrenia Research Bank (ASRB) and in the Health in Men Study (HIMS) of normal aging males. In the WAFSS sample, we observed significant association of APOE, APOER2, VLDLR, and DAB1 SNPs with disease outcome in the case-control and CD-control datasets, and with pre-morbid intelligence and verbal memory in cases. HIMS replication analysis supported rs439401 (APOE regulatory region), and rs2297660 and rs3737983 (APOER2), with an effect on memory performance in normal aging subjects consistent with the findings in schizophrenia cases. APOER2 gene expression analysis revealed lower transcript levels in lymphoblastoid cells from cognitively impaired schizophrenia patients of the alternatively spliced exon 19, mediating Reelin signaling and synaptic plasticity in the adult brain. ASRB replication analysis produced marginally significant results, possibly reflecting a recruitment strategy biased toward CS patients. The data suggest a contribution of neurodevelopmental/synaptic plasticity genes to cognitive impairment in schizophrenia.

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Age-related accumulation of Reelin in amyloid-like deposits

Cited by 83 publications

References 72 publications

Presence of a neo-epitope and absence of amyloid beta and tau protein in degenerative hippocampal granules of aged mice

Presence of a neo-epitope and absence of amyloid beta and tau protein in degenerative hippocampal granules of aged mice

Impact of Prenatal Immune System Disturbances on Brain Development

Impact of the Reelin signaling cascade (Ligands–Receptors–Adaptor Complex) on cognition in schizophrenia

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