1. What contributions have the authors mentioned in the paper "The role of inflammation in epilepsy" ?
The authors first describe aspects of brain inflammation and immunity, before exploring the evidence from clinical and experimental studies for a relationship between inflammation and epilepsy.. Subsequently, the authors discuss how seizures cause inflammation, and whether such inflammation, in turn, influences the occurrence and severity of seizures, and seizure-related neuronal death.. Competing interests A. Vezzani and J. French declare an association with the following company: Vertex Pharmaceuticals.. T. Z. Baram declares associations with the following companies: Pfizer, Questcor Pharmaceuticals.. See the article online for full details of the relationships.. Author contributions A. Vezzani, J. French, T. Bartfai and T. Z. Baram contributed equally to researching data for the article, discussion of content, writing, and reviewing and/or editing of the manuscript before submission.. Supplementary information Supplementary information is linked to the online version of the paper at www.. Further insight into the complex role of inflammation in the generation and exacerbation of epilepsy should yield new molecular targets for the design of antiepileptic drugs, which might not only inhibit the symptoms of this disorder, but also prevent or abrogate disease pathogenesis.
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2. What is the role of TLRs in the transition between innate and adaptive immunity?
Stimulation of TLRs by pathogens leads to release of cytokines such as IL-12, which are involved in the transition between innate and adaptive immunity.
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3. What is the role of TLRs in innate immunity?
which are transmembrane proteins expressed by immunocompetent cells such as antigen-presenting cells (APCs), share common cytoplasmic domains with the interleukin (IL)-1 receptor family and use partly overlapping signaling molecules with IL-1 receptor type 1.
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4. What is the role of T cells in innate immunity?
A subpopulation of T cells called regulatory T cells (CD4+CD25+) restrict autoimmune activity, thereby helping to maintain immune system homeostasis, and tolerance to selfantigens.
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