Mol Interv
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Nerve Growth Factor (NGF) is produced by and affects a number of immune and inflammatory cells. As part of the inflammatory response, NGF directly or indirectly alters the sensitivity of small diameter sensory neurons that communicate noxious information. ⋯ Thus, both NGF receptors appear to contribute to peripheral sensitization although whether they act independently or together remains to be determined. Furthermore, controversy exists as to the downstream signaling pathways involved in NGF-induced peripheral sensitization.
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Significant recent advances in molecular pharmacology have elucidated the molecular pathways involved in neurogenic inflammation (NI). The release of tachykinins and endothelin-3 (ET-3) from trigeminal neurons induces dural vascular permeability and vasodilatation via activation of tachykinin receptor 1 (Tacr1) and endothelin receptor type B (Ednrb) on endothelial cells. ⋯ The molecular pharmacology of NI is discussed within the context of migraine research and assesses the putative role of the two key physiological components of NI (i.e., PPE and NV) in migraine pathophysiology. The data indicate that the PPE component of NI plays no significant role in migraine but that NV is likely to be involved in migraine pathophysiology.
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Despite great progress in basic schizophrenia research, the conclusive identification of specific etiological factors or pathogenic processes in the illness has remained elusive. The convergence of modern neuroscientific studies in molecular genetics, molecular neuropathology, neurophysiology, in vivo brain imaging, and psychopharmacology, however, indicates that we may be coming much closer to understanding the molecular basis of schizophrenia. ⋯ An understanding of the pathophysiology of schizophrenia will be essential to the discovery of preventive measures and therapeutic intervention. Rapidly advancing research into schizophrenia includes diverse etiological hypotheses, and offers directions for future research and treatments.