Current medicinal chemistry
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The receptor for advanced glycation end products (RAGE) is a cell-bound receptor of the immunoglobulin superfamily which may be activated by a variety of proinflammatory ligands including advanced glycoxidation end products, S100/calgranulins, high mobility group box 1, and amyloid beta-peptide. RAGE has a secretory splice isoform, soluble RAGE (sRAGE), that lacks the transmembrane domain and therefore circulates in plasma. ⋯ Increasing the production of plasma sRAGE is therefore considered to be a promising therapeutic target that has the potential to prevent vascular damage and neurodegeneration. This review presents the state of the art in the use of sRAGE as a disease marker and discusses the therapeutic potential of targeting sRAGE for the treatment of inflammation-related diseases such as atherosclerosis, arthritis and Alzheimer's disease.
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The cytochrome P450 monooxygenase enzyme system is involved in the synthesis and/or degradation of a large number of endogenous compounds and in the biotransformation of drugs and other xenobiotics. 17alpha-Hydroxylase-C17,20-lyase (P450 17, CYP 17) is the key enzyme of the androgen biosynthesis. As androgens have been implicated in the development and progression of prostate cancer, this enzyme has become a promising therapeutic target. This paper will review the possible approaches dealing with P450 17 inhibition as a chemotherapeutic strategy in the struggle against prostate cancer.
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The three isotypes of peroxisome proliferator-activated receptors (PPARs), PPARalpha, beta/delta and gamma, are ligand-inducible transcription factors that belong to the nuclear hormone receptor family. PPARs are implicated in the control of inflammatory responses and in energy homeostasis and thus, can be defined as metabolic and anti-inflammatory transcription factors. ⋯ This review discusses the molecular mechanisms by which PPARs and their ligands modulate the inflammatory response. In addition, it presents recent developments implicating PPAR specific ligands in potential treatments of inflammation-related diseases, such as atherosclerosis, inflammatory bowel diseases, Parkinson's and Alzheimer's diseases.
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Ziconotide (PRIALT) is a neuroactive peptide in the final stages of clinical development as a novel non-opioid treatment for severe chronic pain. It is the synthetic equivalent of omega-MVIIA, a component of the venom of the marine snail, Conus magus. The mechanism of action underlying ziconotide's therapeutic profile derives from its potent and selective blockade of neuronal N-type voltage-sensitive calcium channels (N-VSCCs). ⋯ Contingent on regulatory approval, ziconotide will be the first in a new class of neurological drugs: the N-type calcium channel blockers, or NCCBs. Its novel mechanism of action as a non-opioid analgesic suggests ziconotide has the potential to play a valuable role in treatment regimens for severe chronic pain. If approved for clinical use, ziconotide will further validate the neuroactive venom peptides as a source of new and useful medicines.
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The well known calcium-sensitive phosphatase calcineurin is implicated in many eukaryotic activation and developmental programmes, including lymphocyte activation, heart-valve morphogenesis, angiogenesis, and neural and muscle development. The importance of this phosphatase is graphically illustrated by the observation that the immunosuppressive actions of the microbial drugs Cyclosporin A (CsA) and FK506 arise from their inhibition of calcineurin. As substrates of calcineurin, transcription factors of the NFAT family play an essential role in lymphocyte activation, and it follows that their function is also inhibited by CsA and FK506. ⋯ In a more recent development, specific amino acidic sequences implicated in the interaction between calcineurin and NFAT have been identified. It is of special interest that specific disruption of this pathway has been obtained through the expression of peptides based on some of these sequences. A more profound analysis of these issues could open up new perspectives in immunosuppressive therapy; promising compounds with features of endogenous calcineurin inhibitors (and thus likely to have fewer toxic effects than CsA and FK506), or selective blockers of calcineurin-NFAT interactions that would not alter the functioning of other calcineurin substrates.