Brain, behavior, and immunity
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Brain Behav. Immun. · Nov 2015
ReviewMast cell activation disease: An underappreciated cause of neurologic and psychiatric symptoms and diseases.
Neurologists and psychiatrists frequently encounter patients whose central and/or peripheral neurologic and/or psychiatric symptoms (NPS) are accompanied by other symptoms for which investigation finds no unifying cause and for which empiric therapy often provides little to no benefit. Systemic mast cell activation disease (MCAD) has rarely been considered in the differential diagnosis in such situations. Traditionally, MCAD has been considered as just one rare (neoplastic) disease, mastocytosis, generally focusing on the mast cell (MC) mediators tryptase and histamine and the suggestive, blatant symptoms of flushing and anaphylaxis. ⋯ Significantly helpful treatment--including for neuropsychiatric issues--usually can be identified once MCAD is accurately diagnosed. We describe MCAD's pathogenesis, presentation (focusing on NPS), and therapy, especially vis-à-vis neuropsychotropes. Since MCAD patients often present NPS, neurologists and psychiatrists have the opportunity, in recognizing the diagnostic possibility of MCAD, to short-circuit the often decades-long delay in establishing the correct diagnosis required to identify optimal therapy.
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Brain Behav. Immun. · Nov 2015
Nuclear factor-kappa B regulates pain and COMT expression in a rodent model of inflammation.
Nuclear factor-kappa B (NF-κB) is a ubiquitously expressed protein complex regulating the transcription of genes involved in inflammation and pain. Increased NF-κB activity in immune and nervous system cells is linked to several chronic pain conditions in humans as well as inflammation and nerve injury-evoked pain in animals. A recent in vitro study further demonstrates that increased NF-κB activity in astrocytes decreases transcription of catechol-o-methyltransferase (COMT), an enzyme that inactivates catecholamines that cause pain. ⋯ CFA-evoked pain was blocked in rats receiving a pre-emptive systemic dose of the NF-κB inhibitor MG132 and exacerbated in IKKca mice with constitutive NF-κB activity in astrocytes. Furthermore, we observed NF-κB-linked reductions in COMT expression in midbrain at 6h and 1d following CFA in rats and at 1h and 1d in forebrain and midbrain following CFA in IKKca mice. Collectively, these results demonstrate that systemic and astrocytic NF-κB activity drive inflammatory pain and regulate the expression of COMT in forebrain and midbrain structures.
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Brain Behav. Immun. · Nov 2015
Tissue Transglutaminase contributes to experimental multiple sclerosis pathogenesis and clinical outcome by promoting macrophage migration.
Multiple sclerosis is a serious neurological disorder, resulting in e.g., sensory, motor and cognitive deficits. A critical pathological aspect of multiple sclerosis (MS) is the influx of immunomodulatory cells into the central nervous system (CNS). Identification of key players that regulate cellular trafficking into the CNS may lead to the development of more selective treatment to halt this process. ⋯ The mechanism underlying these beneficial effects pointed toward a reduction in macrophage migration into the CNS due to attenuated cytoskeletal flexibility and RhoA GTPase activity. Moreover, iNOS and TNFα levels were selectively reduced in the CNS of cr-EAE rats treated with a TG2 activity inhibitor, whereas other relevant inflammatory mediators were not affected in CNS or spleen by reducing TG2 activity. We conclude that modulating TG2 activity opens new avenues for therapeutic intervention in MS which does not affect peripheral levels of inflammatory mediators.