Reelin supplementation enhances cognitive ability, synaptic plasticity, and dendritic spine density

Rogers, Justin T.; Rusiana, Ian; Trotter, Justin H.; Zhao, Lisa; Donaldson, Erika; Pak, Daniel T.S.; Babus, Lenard W.; Peters, Melinda; Banko, Jessica L.; Chavis, Pascale; Rebeck, G. William; Hoe, Hyang‐Sook; Weeber, Edwin J.

doi:10.1101/lm.2153511

Cited by 153 publications

(154 citation statements)

References 38 publications

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“…An association between spine and spine-synapse density, hippocampal LTP and memory impairments has been observed in other animal models. For instance, a single intraventricular injection of Reelin, a modulator of synaptic function implicated in several cognitive disorders including autism and schizophrenia, leads to an increase in dendritic spine density, enhanced hippocampal CA1 LTP and improved associative and spatial learning and memory, whereas lack of its receptors VLDLR and apoER2 is responsible for deficits in LTP and contextual fear conditioning (Weeber et al 2002;Rogers et al 2011). In contrast to this postsynaptic phenotype, our data do not indicate alterations in presynaptic PPF.…”

Section: Discussioncontrasting

confidence: 51%

The serine protease inhibitor neuroserpin is required for normal synaptic plasticity and regulates learning and social behavior

et al. 2017

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The serine protease inhibitor neuroserpin regulates the activity of tissue-type plasminogen activator (tPA) in the nervous system. Neuroserpin expression is particularly prominent at late stages of neuronal development in most regions of the central nervous system (CNS), whereas it is restricted to regions related to learning and memory in the adult brain. The physiological expression pattern of neuroserpin, its high degree of colocalization with tPA within the CNS, together with its dysregulation in neuropsychiatric disorders, suggest a role in formation and refinement of synapses. In fact, studies in cell culture and mice point to a role for neuroserpin in dendritic branching, spine morphology, and modulation of behavior. In this study, we investigated the physiological role of neuroserpin in the regulation of synaptic density, synaptic plasticity, and behavior in neuroserpin-deficient mice. In the absence of neuroserpin, mice show a significant decrease in spine-synapse density in the CA1 region of the hippocampus, while expression of the key postsynaptic scaffold protein PSD-95 is increased in this region. Neuroserpin-deficient mice show decreased synaptic potentiation, as indicated by reduced long-term potentiation (LTP), whereas presynaptic paired-pulse facilitation (PPF) is unaffected. Consistent with altered synaptic plasticity, neuroserpin-deficient mice exhibit cognitive and sociability deficits in behavioral assays. However, although synaptic dysfunction is implicated in neuropsychiatric disorders, we do not detect alterations in expression of neuroserpin in fusiform gyrus of autism patients or in dorsolateral prefrontal cortex of schizophrenia patients. Our results identify neuroserpin as a modulator of synaptic plasticity, and point to a role for neuroserpin in learning and memory.

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Section: Discussioncontrasting

confidence: 51%

The serine protease inhibitor neuroserpin is required for normal synaptic plasticity and regulates learning and social behavior

et al. 2017

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“…Moreover, behavioral and memory deficits are also observed after Reelin knock-down in the prefrontal cortex in adult rats (Brosda et al, 2011). The important role of Reelin in modulating synaptic functions has also been highlighted by the enhancing effect of intraventricular infusions of recombinant Reelin on cognitive performance, synaptic plasticity, and dendritic spine density in wild-type (Rogers et al, 2011) and Reelin heterozygous mice (Rogers et al, 2012). Interestingly, also exercise during pregnancy induces Reelin expression in offspring and mitigates plaque pathology in AD-mice (Herring et al, 2012b).…”

Section: And Promotesmentioning

confidence: 91%

Decisive role of Reelin signaling during early stages of Alzheimer’s disease

et al. 2013

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Alzheimer's disease (AD) is one of the largest unmet medical concerns of our society. Around 25 million patients worldwide together with their families are still waiting for an effective treatment. We have recently initiated a re-evaluation of our knowledge of the molecular and cellular mechanisms underlying sporadic AD. Based on the existing literature, we have proposed a mechanistic explanation of how the late-onset form of the disease may evolve on the cellular level. Here, we expand this hypothesis by addressing the pathophysiological changes underlying the early and almost invariant appearance of the neurofibrillary tangles, the only reliable correlate of the cognitive status, in distinct brain areas and their consistent "spread" along interconnected neurons as the disease advances. In this review we present and discuss novel evidence that the extracellular signaling protein Reelin, expressed along the olfactory and limbic pathways in the adult brain, might hold a key to understand the earliest steps of the disease, highlighting the olfactory pathway as the brain's Achilles heel involved in the initiation of the pathophysiological characteristic of late-onset AD. AbstractAlzheimer`s disease (AD) is one of the largest unmet medical needs of our society. Around 25 million patients worldwide together with their families are still waiting for an effective treatment. We have recently initiated a re-evaluation of our knowledge of the molecular and cellular mechanisms underlying sporadic AD. Based on the existing literature, we have proposed a mechanistic explanation of how the late-onset form of the disease may evolve on the cellular level. Here, we expand this hypothesis by addressing the pathophysiological changes underlying the early and almost invariant appearance of the neurofibrillary tangles (NFTs), the only reliable correlate of the cognitive status, in distinct brain areas and their consistent "spread" along interconnected neurons as the disease advances. In this review we present and discuss novel evidence that the extracellular signaling protein Reelin, expressed along the olfactory and limbic pathways in the adult brain, might hold a key to understand the earliest steps of the disease, highlighting the olfactory pathway as the brain's Achilles heel involved in the initiation of the pathophysiology characteristic of late-onset AD.3

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“…Incubation with Reelin-PD keeps Dab1 levels low for as long as 24 h, indicating that N-t cleavage plays a major role in inactivating the Reelin-Dab1 pathway. In recent years, up-regulation of this pathway has been suggested to be beneficial for the treatment of neuropsychiatric diseases (19,21,53,54). In particular, a single injection of Reelin protein into the ventricle has been shown to have a beneficial effect on synaptic transmission, learning, and memory (19).…”

Section: Discussionmentioning

confidence: 99%

“…However, the mechanisms involved in regulating Reelin activity are largely unknown. Furthermore, there have been no methods developed to augment Reelin activity except for the direct injection of partially purified Reelin protein into the brain (19).…”

mentioning

confidence: 99%

Cleavage within Reelin Repeat 3 Regulates the Duration and Range of the Signaling Activity of Reelin Protein

Koie¹,

Okumura²,

Hisanaga

et al. 2014

Journal of Biological Chemistry

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Background:The physiological role of Reelin proteolysis is largely uncharacterized. Results: An "uncleavable" Reelin mutant remains active for a long time, and the cleaved Reelin fragment localizes differently than full-length Reelin. Conclusion: Extracellular and intracellular Reelin cleavage is required for halting downstream signaling and transport of the cleaved product. Significance: Inhibition of Reelin cleavage will be beneficial for treating neuropsychiatric diseases.

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Reelin supplementation enhances cognitive ability, synaptic plasticity, and dendritic spine density

Cited by 153 publications

References 38 publications

The serine protease inhibitor neuroserpin is required for normal synaptic plasticity and regulates learning and social behavior

The serine protease inhibitor neuroserpin is required for normal synaptic plasticity and regulates learning and social behavior

Decisive role of Reelin signaling during early stages of Alzheimer’s disease

Cleavage within Reelin Repeat 3 Regulates the Duration and Range of the Signaling Activity of Reelin Protein

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