Current pharmaceutical design
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New compounds having affinity to various melanocortin receptors have recently been identified as possible neuroprotective agents. This review is focused on the role of neuroprotective effects of melanocortins in CNS injury and repair mechanisms. ⋯ This effect of the compounds is related with their ability to attenuate blood-spinal cord barrier permeability. The functional significance and possible therapeutic strategies of these compounds in CNS injury are discussed.
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Malignant glioma represents one of the most lethal and angiogenic cancers. Angiogenesis is a fundamental process of blood vessel growth that is a hallmark of cancer. Although several molecular mechanisms contribute to tumor angiogenesis in gliomas, the vascular endothelial growth factor (VEGF) pathway appears particularly important and has been a prominent therapeutic target in cancer treatment. ⋯ Identification of biomarkers to predict response or resistance and to monitor antiangiogenic effects is important to enrich for patients who are likely to respond to therapy and to define the optimal biological dose. At present, antiangiogenic therapies remain palliative suggesting that overcoming antiangiogenic resistance may require multi-targeted agents, combination of agents targeting different angiogenic pathways or multi-modality combination with radiation, chemotherapy, other targeted therapeutics or immunotherapy. In this review, we will discuss the current development, promise and challenge of antiangiogenic therapy in malignant glioma.
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Neither any neuroprotective drug has been shown to be beneficial in improving the outcome of severe traumatic brain injury (TBI) nor has any prophylactically-induced moderate hypothermia shown any beneficial effect on outcome in severe TBI, despite the optimism generated by preclinical studies. This contrasts with the paradox that hypothermia still is the most powerful neuroprotective method in experimental models because of its ability to influence the multiple biochemical cascades that are set in motion after TBI. The aim of this short review is to highlight the most recent developments concerning the pathophysiology of severe TBI, to review new data on thermoregulation and induced hypothermia, the regulation of core and brain temperature in mammals and the multiplicity of effects of hypothermia in the pathophysiology of TBI. ⋯ The new developments discussed in this review indicate that, by targeting many of the abnormal neurochemical cascades initiated after TBI, induced hypothermia may modulate neurotoxicity and, consequently, may play a unique role in opening up new therapeutic avenues for treating severe TBI and improving its devastating effects. Furthermore, greater understanding of the pathophysiology of TBI, new data from both basic and clinical research, the good clinical results obtained in randomized clinical trials in cardiac arrest and better and more reliable cooling methods have given hypothermia a second chance in treating TBI patients. A critical evaluation of hypothermia is therefore mandatory to elucidate the reasons for previous failures and to design further multicenter randomized clinical trials that would definitively confirm or refute the potential of this therapeutic modality in the management of severe traumatic brain injuries.
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Angiotensin II (ANGII) has been identified as a proapoptotic and profibrotic factor in experimental lung fibrosis models, and patients with the ID/DD polymorphism of ANG converting enzyme (ACE), which confers higher levels of ACE, are predisposed to lung fibrosis (Hum. Pathol. 32:521-528, 2001). Previous work from this laboratory has shown that human lung myofibroblasts isolated from patients with Idiopathic Pulmonary Fibrosis (IPF) synthesize the ANGII precursor angiotensinogen (AGT) constitutively. ⋯ Together, these data support the existence of an angiotensin/TGF-beta1 "autocrine loop" in human lung myofibroblasts and also suggest ANG peptide expression by epithelia and macrophages in the IPF lung. These findings may explain the ability of ACE inhibitors and ANG receptor antagonists to block experimental lung fibrosis in animals, and support the need for evaluation of these agents for potential treatment of human IPF. This manuscript discusses the data described above and their implications regarding IPF pathogenesis.
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The importance of pharmacogenetics in medicine is growing with the identification of genetic variability by faster screening methods using automatic sequencers. A particularly interesting finding is that apart from environmental and psychological factors, drug response may be influenced by several biological factors as a result of genetic determinants leading to interindividual variability. Several mutations in genes coding for enzymes of the drug metabolizing system, as well as for neurotransmitter receptors or degrading enzymes and monoamine transport proteins, have been identified and investigated in psychiatry. ⋯ In the first an overview is given of CYP450 characteristics and the genetic polymorphisms of interest to psychiatry. In the second the clinical implications of the CYP2D6 polymorphism are reviewed and in the third part other aspects on pharmacogenetic research in psychiatry are discussed. The aim of our review is to promote the application of pharmacogenetics in everyday clinical practice.