Abstract
Autoimmune inflammation of the limbic gray matter structures of the human brain has recently been identified as major cause of mesial temporal lobe epilepsy with interictal temporal epileptiform activity and slowing of the electroencephalogram, progressive memory disturbances, as well as a variety of other behavioral, emotional, and cognitive changes. Magnetic resonance imaging exhibits volume and signal changes of the amygdala and hippocampus, and specific anti-neuronal antibodies binding to either intracellular or plasma membrane neuronal antigens can be detected in serum and cerebrospinal fluid. While effects of plasma cell-derived antibodies on neuronal function and integrity are increasingly becoming characterized, potentially contributing effects of T cell-mediated immune mechanisms remain poorly understood. CD8+ T cells are known to directly interact with major histocompatibility complex class I-expressing neurons in an antigen-specific manner. Here, we summarize current knowledge on how such direct CD8+ T cell–neuron interactions may impact neuronal excitability, plasticity, and integrity on a single cell and network level and provide an overview on methods to further corroborate the in vivo relevance of these mechanisms mainly obtained from in vitro studies.
Highlights
In terms of relevant effector mechanisms, plasma cell-derived antibodies bind to extracellular conformational epitopes of neuronal plasma membrane antigens and impact their function, expression, and localization
An ever increasing number of endogenous neuronal plasma membrane auto-antigens have been identified as targets of specific auto-antibodies in limbic encephalitis (LE) and other autoimmune encephalitides
Pathogenic effects of auto-antibodies on neuronal excitability and integrity are increasingly becoming recognized on the single cell, network, and systems level
Summary
In terms of relevant effector mechanisms, plasma cell-derived antibodies bind to extracellular conformational epitopes of neuronal plasma membrane antigens and impact their function, expression, and localization. Impact of CD8+ T Cells on Neuronal Excitability and Neuronal Network Activity Besides the induction of cell death, effector molecules of cytotoxic CD8+ T cells are capable of disturbing electrical signaling in excitable target cells.
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