Current pharmaceutical design
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Pain is a complex phenomenon involving both a peripheral innate immune response and a CNS response as well as activation of the hypothalamic-pituitary-adrenal axis. The peripheral innate immune response to injury involves the rapid production and local release of proinflammatory cytokines such as tumor necrosis factor-alpha (TNF-/alpha), interleukin-1 (IL-1) and IL-6. Recent studies into the CNS response to peripheral chronic inflammatory pain strongly implicates a role for glia, and local synthesis of proinflammatory cytokines and growth factors. ⋯ In addition, inflammatory pain induces changes in blood-brain barrier (BBB) permeability and alters transport of clinically relevant drugs used to treat pain into the brain. Despite the increasing body of evidence for the involvement of glia in chronic pain and the role of glia in maintaining the BBB, few studies have addressed glial/endothelial interactions and the mechanisms by which glia may regulate the BBB during inflammatory pain. Further studies into the cellular mechanisms of glial/endothelial interactions may identify novel therapeutic targets for reversing chronic inflammatory induced BBB dysfunction and innovate therapies for modulating the severity of chronic inflammatory pain.
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Advanced glycation end products (AGEs) are a heterogeneous group of molecules, formed in vivo both by non-oxidative and oxidative reactions of sugars and their adducts to proteins and lipids. It is now well established that formation and accumulation of AGEs progress during normal aging, and at an extremely accelerated rate under diabetes, thus being implicated in various types of AGEs-related disorders such as diabetic vascular complications, neurodegenerative diseases and cancers. There is a growing body of evidence that activation of RAGE (receptor for AGEs) system is also implicated in these devastating disorders. ⋯ Liver is not only a target organ, but also an important site for clearance and catabolism of circulating AGEs. Although there are several papers to suggest the involvement of AGEs-RAGE system in various types of liver diseases such as non-alcoholic steatohepatitis, liver cirrhosis and cancers, as far as we know, there are few comprehensive reviews to deal with this issue. Therefore, in this paper, we shortly review the pathological role of AGEs and RAGE in various liver diseases.
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The host's inflammatory response to sepsis can be divided into two phases, the initial detection and response to the pathogen initiated by the innate immune response, and the persistent inflammatory state characterized by multiple organ dysfunction syndrome (MODS). New therapies aimed at pathogen recognition receptors (PRRs) particularly the TLRs and the NOD-like receptors offer hope to suppress the initial inflammatory response in early sepsis and to bolster this response in late sepsis. The persistence of MODS after the initial inflammatory surge can also be a determining factor to host survival. ⋯ In addition. severe loss of mitochondria results in low cell energy stores, necrotic cell death, and increased inflammation driven by the release of cell components such as HMGB1. Therapies, which aim at improving cellular energy reserves such as the promotion of mitochondrial biogenesis by insulin, may have a role in future sepsis therapies. Finally, both the inflammatory responses and the susceptibility to organ failure may be modulated by nutritional status and micronutrients, such as zinc, Therapies aimed at micronutrient repletion may further augment approaches targeting PRR function and mitochondrial viability.
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Antithrombotic and powerful antiplatelet therapies, in addition to early percutaneous coronary intervention (PCI) are considered the treatment of choice for moderate- to high-risk patients with acute coronary syndromes (ACS; unstable angina and non-ST-segment elevation myocardial infarction). However, despite the integration of newer therapies including stents, glycoprotein IIb/IIIa inhibitors (GPI), and thienopyridines, the rate of adverse ischemic events still remains unacceptably high. Intensive pharmacologic regimens used to stabilize the disrupted atherosclerotic plaque and support angioplasty as well as surgical revascularization procedures, elicit a high rate of bleeding complications. ⋯ It remains to be a matter of discussion whether there are still patient subgroups being in need of more aggressive treatment strategies including GPI. In practice, it might be reasonable to perform a baseline assessment of hemorrhagic risk facilitating the choice of an antithrombotic regimen with a favourable safety and efficacy profile. With this tailored therapy it might be possible to further improve outcomes for individual patients with ACS.
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The often fatal sepsis syndrome is characterized by the systemic release of inflammatory mediators, which is regulated and counterbalanced by the coordinated expression of anti-inflammatory molecules. The magnitude of sepsis-induced tissue injury and subsequent risk of infectious complications is dictated by the balance between the expression of pro- and anti-inflammatory mediators. ⋯ Functional defects in leukocytes isolated from patients with sepsis include diminished expression of important cell surface molecules, dysregulated cytokine production, alterations in antigen-presenting ability, and accelerated apoptosis. In this article, we review the current literature supporting the notion that dysregulation of host immunity occurs during sepsis syndrome, and describe novel therapeutic interventions directed at augmenting host immunity during sepsis.