Enhanced synaptic connectivity and epilepsy in C1q knockout mice

Chu, Yan; Jin, Xiaoming; Parada, Isabel; Pesic, Alexei; Stevens, Beth; Barres, Ben A.; Prince, David A.

doi:10.1073/pnas.0913449107

Cited by 319 publications

(269 citation statements)

References 32 publications

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“…It is known from post-natal studies that complement proteins mediate microglia-dependent pruning of synapses within neuronal circuits. As such, C1q-deficient mice display abnormal neocortical excitatory synaptic connectivity, as well as enhanced epileptiform activity (Chu et al, 2010). These evidences suggest a possible reactivation of developmental pathways also in adult CNS disorders (Stevens et al, 2007).…”

Section: Neuronal Functional Plasticitymentioning

confidence: 87%

The role of the immune system in central nervous system plasticity after acute injury

Peruzzotti-Jametti¹,

Donegá²,

Giusto³

et al. 2014

Neuroscience

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Acute brain injuries cause rapid cell death that activates bidirectional crosstalks between the injured brain and the immune system.In the acute phase, the damaged central nervous system (CNS) activates resident and circulating immune cells via the local and systemic release of soluble mediators. This early immune activation is necessary to confine the injured tissue and foster the clearance of cellular debris, which would ultimately bring the inflammatory reaction to a close. In the chronic phase, a sustained immune activation is described in many CNS disorders, and the degree of this prolonged response has variable effects on the spontaneous brain regenerative processes. The challenge for treating acute CNS damages is to understand how to optimally engage and modify these immune responses, thus providing new strategies that will compensate for tissue lost to injury.Here we have reviewed the available information about the role and function of the innate and adaptive immune responses in influencing CNS plasticity during the acute and chronic phases of recovery after injury. We have examined how CNS damage evolves along the activation of main Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. Europe PMC Funders Group

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Section: Neuronal Functional Plasticitymentioning

confidence: 87%

The role of the immune system in central nervous system plasticity after acute injury

Peruzzotti-Jametti¹,

Donegá²,

Giusto³

et al. 2014

Neuroscience

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“…Synaptic, neuronal and axonal pruning is an essential step during brain development, starting early after birth and completed around the time of sexual maturation [for review see: (Luo and O'Leary 2005)] and has been found in rats (Andersen and Teicher 2004) as well as in humans (Glantz et al 2007). Failure to prune excessive excitatory synapses during development has been linked to epileptogenesis in a C1q knockout mice model (Chu et al 2010), but it is unknown whether a pruning dysregulation plays a role in the tetanus toxin epilepsy model.…”

Section: Normal Brain Developmentmentioning

confidence: 99%

Experimental focal neocortical epilepsy is associated with reduced white matter volume growth: results from multiparametric MRI analysis

et al. 2013

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Focal epilepsy has recently been associated with remote white matter damage, including reduced white matter volume. Longitudinal assessment of these white matter changes, in relation to functional mechanisms and consequences, may be ideally done by in vivo neuroimaging in well-controlled experimental animal models. We assessed whether advanced machine learning algorithm models could accurately detect volumetric changes in white matter from multiparametric MR images, longitudinally collected in a neocortical focal epilepsy rat model. We measured classification accuracy in two supervised segmentation models: i.e. the generalized linear model and the nonlinear random forest model-by comparing computed white matter probabilities with actual neuroanatomically identified white matter. We found excellent overall discriminatory power for both models. However, the random forest model demonstrated a superior goodness-of-fit calibration plot that was close to the ideal calibration line. Based on this model, we measured that total white matter volume increased in young adult control and epileptic rats over a period of 10 weeks, but the average white matter volume was significantly lower in the focal epilepsy group. Changes in gray matter volume were not significantly different between control and epileptic rats. Our results (1) indicate that recurrent spontaneous seizures have an adverse effect on global white matter growth and (2) show that individual whole brain white matter volume can be accurately determined using a combination of multiparametric MRI and supervised segmentation models, offering a powerful tool to assess white matter volume changes in preclinical studies of neurological disease.

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“…Recently, C1q was found to participate in synapses remodeling and in the clearance of damaged CNS neurons after neuronal injury and neurodegenerative disorders (36)(37)(38). Again, both C1q and C3 binding to damaged neurons is required for efficient silent phagocytosis of apoptotic cells (16).…”

Section: Discussionmentioning

confidence: 99%

Functional Complement C1q Abnormality Leads to Impaired Immune Complexes and Apoptotic Cell Clearance

Roumenina

Sène

Radanova

et al. 2011

The Journal of Immunology

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C1q plays a key role in apoptotic cell and immune complex removal. Its absence contributes to the loss of tolerance toward self structures and development of autoimmunity. C1q deficiencies are extremely rare and are associated with complete lack of C1q or with secretion of surrogate C1q fragments. To our knowledge, we report the first case of a functional C1q abnormality, associated with the presence of a normal C1q molecule. Homozygous GlyB63Ser mutation was found in a patient suffering from lupus with neurologic manifestations and multiple infections. The GlyB63Ser C1q bound to Igs, pentraxins, LPSs, and apoptotic cells, similarly to C1q from healthy donors. However, the interaction of C1r2C1s2 and C1 complex formation was abolished, preventing further complement activation and opsonization by C3. The mutation is located between LysB61 and LysB65 of C1q, suggested to form the C1r binding site. Our data infer that the binding of C1q to apoptotic cells in humans is insufficient to assure self-tolerance. The opsonization capacity of C4 and C3 fragments has to be intact to fight infections and to prevent autoimmunity.

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Enhanced synaptic connectivity and epilepsy in C1q knockout mice

Cited by 319 publications

References 32 publications

The role of the immune system in central nervous system plasticity after acute injury

The role of the immune system in central nervous system plasticity after acute injury

Experimental focal neocortical epilepsy is associated with reduced white matter volume growth: results from multiparametric MRI analysis

Functional Complement C1q Abnormality Leads to Impaired Immune Complexes and Apoptotic Cell Clearance

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