Disrupted AMPA Receptor Function upon Genetic- or Antibody-Mediated Loss of Autism-Associated CASPR2

Fernandes, Dominique; Santos, Sandra D.; Coutinho, Estér; Whitt, Jessica L.; Beltrão, Nuno; Rondão, Tiago; Leite, Maria Isabel; Buckley, Camilla; Lee, Hey Kyoung; Carvalho, Ana Luı́sa

doi:10.1093/cercor/bhz032

Cited by 47 publications

(49 citation statements)

References 58 publications

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“…Finally, CASPR2-antibodies may also exert their pathogenicity by altering the protein's known function in AMPAR synaptic traffic. A recent study showed significant synaptic loss of AMPARs in cortical neurons incubated with IgG1 and IgG4 CASPR2 antibodies, while in vivo injection of the same antibodies in the mouse visual cortex significantly decreased AMPAR-mediated currents 67 .…”

Section: Mechanisms Underlying Cognitive Impairmentmentioning

confidence: 97%

“…Components of this figure were created using Servier Medical Art templates, which are licensed under a Creative Commons Attribution 3.0 Unported License; https://smart.servier.com . The shapes of the electrophysiological traces were modelled on data published in 47 , 61 , 147 . …”

Section: Autoimmune Encephalitismentioning

confidence: 99%

“…The role of CASPR2 at the CNS synapse, however, is not well known, but the bulk of data suggests important functions in synaptic processes and neuronal activity. CASPR2 was implicated in the trafficking of AMPA receptors to the synaptic membrane 60 , 61 , suggesting that glutamatergic transmission dysfunction could underpin the cognitive impairment seen in CASPR2-mediated CNS disease. Others suggest that CASPR2 has a role in inhibitory hippocampal synapses, and that the antibody-mediated perturbation of inhibitory interneuron activity could lead to increased neuronal hyperexcitability and ultimately to the seizures suffered by these patients 62 , 63 .…”

Section: Autoimmune Encephalitismentioning

confidence: 99%

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Cognitive impact of neuronal antibodies: encephalitis and beyond

et al. 2020

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Cognitive dysfunction is a common feature of autoimmune encephalitis. Pathogenic neuronal surface antibodies are thought to mediate distinct profiles of cognitive impairment in both the acute and chronic phases of encephalitis. In this review, we describe the cognitive impairment associated with each antibody-mediated syndrome and, using evidence from imaging and animal studies, examine how the nature of the impairment relates to the underlying neuroimmunological and receptor-based mechanisms. Neuronal surface antibodies, particularly serum NMDA receptor antibodies, are also found outside of encephalitis although the clinical significance of this has yet to be fully determined. We discuss evidence highlighting their prevalence, and association with cognitive outcomes, in a number of common disorders including cancer and schizophrenia. We consider mechanisms, including blood-brain barrier dysfunction, which could determine the impact of these antibodies outside encephalitis and account for much of the clinical heterogeneity observed.

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Section: Mechanisms Underlying Cognitive Impairmentmentioning

confidence: 97%

Section: Autoimmune Encephalitismentioning

confidence: 99%

Section: Autoimmune Encephalitismentioning

confidence: 99%

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Cognitive impact of neuronal antibodies: encephalitis and beyond

et al. 2020

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“…Injection of a mixture of CASPR2-Abs in mouse visual cortex produced impaired localization of mouse Caspr2 to excitatory synapses and significantly decreased AMPAR-mediated currents in layer 2/3 pyramidal neurons; this implied a dysfunction of glutamatergic transmission in the pathogenesis of CASPR2-Ab encephalitis (52). Future studies should evaluate in parallel the effects of CASPR2-Abs on its partner protein network and on neuronal activity.…”

Section: Passive Transfer Modelsmentioning

confidence: 98%

In vivo Mechanisms of Antibody-Mediated Neurological Disorders: Animal Models and Potential Implications

2020

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Over the last two decades, the discovery of antibodies directed against neuronal surface antigens (NSA-Abs) in patients with different forms of encephalitis has provided a basis for immunotherapies in previously undefined disorders. Nevertheless, despite the circumstantial clinical evidence of the pathogenic role of these antibodies in classical autoimmune encephalitis, specific criteria need to be applied in order to establish the autoimmune nature of a disease. A growing number of studies have begun to provide proof of the pathogenicity of NSA-Abs and insights into their pathogenic mechanisms through passive transfer or, more rarely, through active immunization animal models. Moreover, the increasing evidence that NSA-Abs in the maternal circulation can reach the fetal brain parenchyma during gestation, causing long-term effects, has led to models of antibody-induced neurodevelopmental disorders. This review summarizes different methodological approaches and the results of the animal models of N-methyl-d-aspartate receptor (NMDAR), leucine-rich glioma-inactivated 1 (LGI1), contactin-associated protein 2 (CASPR2), and α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR) antibody-mediated disorders and discuss the results and the limitations. We also summarize recent experiments that demonstrate that maternal antibodies to NMDAR and CASPR2 can alter development in the offspring with potential lifelong susceptibility to neurological or psychiatric disorders.

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“…Today, numerous autism-related proteins have been identified and are object of intensive research efforts in order to understand the phenotypic risks for autism. Examples are MeCP2 protein [ 7 ], reelin protein [ 8 ], CASPR2 protein [ 9 ] and CNTNAP2 protein [ 10 ]. Immune activation and prenatal exposure to toxins such as thalidomide and valproic acid have been considered environmental factors contributing to idiopathic ASD [ 11 ].…”

Section: Introductionmentioning

confidence: 99%

Analyzing the Potential Biological Determinants of Autism Spectrum Disorders: From Neuroinflammation to Kynurenines Pathway

Savino¹,

Carotenuto²,

Polito³

et al. 2020

Preprint

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Autism Spectrum Disorder etiopathogenesis is still unclear and no effective preventive and treatment measures have been identified. Research has focused on the potential role of neuroinflammation and kynurenine pathway. Here we review the nature of these interactions. Pre-natal or neonatal infections would induce microglial activation, with secondary consequences on behavior, cognition and neurotransmitter networks. Peripherally, higher levels of pro-inflammatory cytokines and anti-brain antibodies have been identified. Increased frequency of autoimmune diseases, allergies, and recurring infections have been demonstrated both in autistic patients and in their relatives. Genetic studies, also, have identified some important polymorphisms in chromosome loci related to human leukocyte antigen (HLA) system. The persistence of immune-inflammatory deregulation would lead to mitochondrial dysfunction and oxidative stress, creating a self-sustaining cytotoxic loop. Chronic inflammation activates kynurenine pathway with increase in neurotoxic metabolites and excitotoxicity, causing long-term changes in glutamatergic system, trophic support and synaptic function. Furthermore, overactivation of kynurenine’s branch induces depletion of melatonin and serotonin worsening ASD symptoms. In this scenario, kynurenine pathway appears as a pharmacological target to treat and prevent ASD. Thus, in genetically predisposed subjects aberrant neurodevelopment may derives from a complex interplay between inflammatory process, mitochondrial dysfunction, oxidative stress and kynurenine pathway overexpression. To validate previous hypothesis a new translational research approach is necessary.

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Disrupted AMPA Receptor Function upon Genetic- or Antibody-Mediated Loss of Autism-Associated CASPR2

Cited by 47 publications

References 58 publications

Cognitive impact of neuronal antibodies: encephalitis and beyond

Cognitive impact of neuronal antibodies: encephalitis and beyond

In vivo Mechanisms of Antibody-Mediated Neurological Disorders: Animal Models and Potential Implications

Analyzing the Potential Biological Determinants of Autism Spectrum Disorders: From Neuroinflammation to Kynurenines Pathway

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