Current pharmaceutical biotechnology
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Opioids have long been thought to act exclusively within the central nervous system. An increasing number of studies recently reported the existence of opioid receptors outside the central nervous system and therefore suggested that opioids are also able to produce analgesic effects in the periphery. Such effects are particularly prominent under painful inflammatory conditions, both in animals and in humans. ⋯ Environmental stimuli (e.g. stress) as well as releasing agents (e.g. corticotropin releasing factor, cytokines) can liberate these opioid peptides to interact with the neuronal opioid receptors and elicit local analgesia. The inflammation-induced activation of opioid production and the release of endogenous opioids from immune cells may lead to novel approaches for the development of peripherally acting analgesics. Clinical investigation now focuses on the development of new peripheral opioid agonists as well as on ways to stimulate the endogenous analgesic system in order to induce effective peripheral analgesia with reduced central side effects typically associated with opioids.
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Curr Pharm Biotechnol · Sep 2002
ReviewDrugs that inhibit mycolic acid biosynthesis in Mycobacterium tuberculosis.
Tuberculosis resurged in the late 1980s and now kills more than 2 million people a year. The reemergence of tuberculosis as a potential public health threat, the high susceptibility of human immunodeficiency virus-infected persons to the disease, and the proliferation of multi-drug-resistant (MDR) strains have created much scientific interest in developing new antimycobacterial agents to both treat Mycobacterium tuberculosis strains resistant to existing drugs, and shorten the duration of short-course treatment to improve patient compliance. Bacterial cell-wall biosynthesis is a proven target for new antibacterial drugs. ⋯ In addition, pyrazinamide was shown to inhibit fatty acid synthase type I which, in turn, provides precursors for fatty acid elongation to long-chain mycolic acids by fatty acid synthase II. Here we review the biosynthesis of mycolic acids and the mechanism of action of antimicrobial agents that act upon this pathway. In addition, we describe molecular modeling studies on InhA, the bona-fide target for isoniazid, which should improve our understanding of the amino acid residues involved in the enzyme's mechanism of action and, accordingly, provide a rational approach to the design of new drugs.
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Curr Pharm Biotechnol · Jul 2000
ReviewGrowth velocity, final height and bone mineral metabolism of short children treated long term with growth hormone.
Since human recombinant growth hormone (GH) became available a large number of short GH deficient and GH-sufficient children have been treated with growth hormone. Growth hormone deficient patients have been followed to final height and several studies have shown that even when treated with GH from very early on in life they tend to end up shorter than their target height. There is, however, a clear increase in their growth velocities particularly during the first 4-5 years of GH therapy so that patients end up with a height-SD score of aproximately -0.8. ⋯ Some 10-20% of children born with intrauterine growth retardation (IUGR) end up short and we had already demonstrated 20 years ago how 2 years of GH therapy were capable of increasing their growth velocities significantly with an improvement of their height-SD scores. Recent studies mainly from Europe have corroborated this data long term, so that IUGR children have been shown by de Zegher et al. to increase their growth velocities and their height for age after 6 years of treatment, entering into the low normal centiles of their growth curves for age. Long term studies of these children to final height will be necessary to determine the usefulness and safety of this form of therapy.