Peptides
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Calcitonin gene-related peptide (CGRP) exerts its diverse effects on vasodilation, nociception, secretion, and motor function through a heterodimeric receptor comprising of calcitonin receptor-like receptor (CLR) and receptor activity-modifying protein 1 (RAMP1). Despite the importance of CLR·RAMP1 in human disease, little is known about its distribution in the human gastrointestinal (GI) tract, where it participates in inflammation and pain. In this study, we determined that CLR and RAMP1 mRNAs are expressed in normal human stomach, ileum and colon by RT-PCR. ⋯ However, CLR and RAMP1, the two subunits of a functional CGRP receptor were clearly localized in myenteric plexus, where they may form functional cell-surface receptors. IMD, another member of calcitonin peptide family was also found in close proximity to CLR, and like CGRP, did not co-localize with either CLR or RAMP1 receptors. Thus, CGRP and IMD appear to be released locally, where they can mediate their effect on their receptors regulating diverse functions such as inflammation, pain and motility.
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Relationship between plasma leptin levels and clinical outcomes of pediatric traumatic brain injury.
High plasma leptin level has been associated with mortality after adult intracerebral hemorrhage. The present study was undertaken to investigate the plasma leptin concentrations in children with traumatic brain injury and to analyze the correlation of leptin with pediatric traumatic brain injury outcome. Plasma leptin concentration of eighty-nine healthy children and 142 children with acute severe traumatic brain injury was measured by enzyme-linked immunosorbent assay. ⋯ A receiver operating characteristic curve analysis showed plasma leptin level better predicted 6-month mortality and unfavorable outcome. The prognostic value of leptin was similar to that of Glasgow Coma scale score for 6-month clinical outcomes. Thus, plasma leptin level represents a novel biomarker for predicting 6-month clinical outcome in children with traumatic brain injury.
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Brain inflammation is sustained by chronic activation of microglia and the over-production of pro-inflammatory cytokines and nitric oxide (NO), which in turn can be highly neurotoxic. Microglial activation can be regulated by neuropeptides such as bradykinin (BK) and other members of the kinin family. Kinins are well known inflammatory regulators outside the CNS. ⋯ In addition, all kinin agonists reduced the expression of iNOS and TNF-α protein and mRNA levels in LPS-stimulated BV2 cells. Also, while LPS activated the nuclear factor-κB (NF-κB) pathway, BK inhibited NF-κB activation by preventing degradation of the κB protein (IκB) inhibitor, abolishing translocation of p65 and p50 subunits to the nucleus and inhibiting NF-κB transcription activity. These results suggest a role for bradykinin in modulation of glial inflammation, as evidenced by attenuation of NO and TNF-α synthesis pathways in activated microglial cells.