Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0155339 (Brown)
 12,436 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chemokines are thought to contribute to the cellular infiltrate characteristic of renal transplant rejection. We show that Met-RANTES, a chemokine receptor antagonist, suppresses recruitment of inflammatory cells into renal allografts. In a renal transplant model (Fisher RT1(lvl) rat kidney into Lewis RT1(l) rat) where no additional immune suppressant was used, Met-RANTES-treated animals showed a significant reduction in vascular injury score (16.10 +/- 5.20 vs. 62.67 +/- 18.64) and tubular damage score (15.70 +/- 5.22 vs. 33.00 +/- 6.44) relative to untreated animals. In a more severe rejection model (Brown-Norway RT1(n) rat kidney into Lewis RT1(1) rat), Met-RANTES significantly augmented low-dose cyclosporin A treatment to reduce all aspects of renal injury including interstitial inflammation (score 71.00 +/- 6.10 vs. 157.30 +/- 21.30). The majority of infiltrating cells in these models (60-70%) consisted of monocytes. Potential mechanisms of action of Met-RANTES were tested using monocyte attachment assays on microvascular endothelium under physiological flow conditions. Preexposure of microvascular endothelium to RANTES resulted in RANTES immobilization and RANTES-induced firm adhesion of monocytes only after prestimulation of the endothelium with IL-1beta. Met-RANTES completely inhibited this RANTES-mediated arrest. Thus, Met-RANTES may counter acute rejection by blocking leukocyte firm adhesion to inflamed endothelium.
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PMID:Met-RANTES reduces vascular and tubular damage during acute renal transplant rejection: blocking monocyte arrest and recruitment. 1042 61

Chemokines contribute to the mononuclear cell infiltrate in vessels and interstitium which is characteristic of renal transplant rejection. By employing the chemokine receptor blocker Met-RANTES it was shown that recruitment of inflammatory cells into renal allografts could be significantly suppressed. In a renal transplant model (Fisher RT1(1v1) rat kidney into Lewis RT1(1) rat) Met-RANTES-treated animals showed a significant reduction in vascular injury score (16.10 +/- 5.20 vs. 62.67 +/- 18.64) and tubular damage score (15.70 +/- 5.22 vs. 33.00 +/- 6.44) relative to untreated animals. In a severe rejection model (Brown-Norway RT1n rat kidney into Lewis RT1(1) rat), Met-RANTES significantly augmented low-dose cyclosporin A treatment to reduce all aspects of renal injury including interstitial inflammation (score 71.00 +/- 6.10 vs. 157.30 +/- 21.30). In a monocyte attachment assay on microvascular endothelium under physiological flow conditions exposure of microvascular endothelium to RANTES resulted in RANTES immobilization and RANTES-induced firm adhesion of monocytes only after prestimulation of the endothelium with IL-1 beta. Met-RANTES completely inhibited this RANTES-mediated arrest. Thus, Met-RANTES can reduce acute rejection by impeding leukocyte arrest to inflamed endothelium.
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PMID:[Reduction of acute kidney transplantation rejection by the chemokine receptor antagonist Met-RANTES]. 1071 11

Asthma is characterized by inflammation and hyperresponsiveness related to the accumulation of inflammatory cells, particularly eosinophils, within the airways. We tested the hypothesis that a multitargeted approach is better than a single-targeted approach in a rat model of asthma. We simultaneously delivered oligonucleotides (ODNs) targeting the chemokine receptor CCR3 and the common beta chain subunit of the receptors for IL-3, IL-5, and GM-CSF at the time of ovalbumin challenge in sensitized Brown Norway rats. Fewer eosinophils were detected in bronchoalveolar lavage (BAL) of rats treated with both ODNs as compared to each ODN alone. Moreover, airway responsiveness to LTD(4) was significantly decreased at lower doses in the 2 ODN-treated groups compared to a single ODN. As ODN therapy has raised concerns of toxicity we therefore examined ODNs prepared with modified DNA bases, specifically 2'amino, 2'deoxyadenosine (DAP) in place of adenosine. In vivo, administration of individual DAP-ODN was efficacious in inhibiting airway hyperresponsiveness, whereas delivery of 2 DAP-ODNs (targeting CCR3 and common beta chain) reduced the influx not only of eosinophils but also lymphocytes and macrophages in the lungs of rats as compared to the unmodified ODNs. Blocking multiple inflammatory pathways simultaneously is more effective in preventing eosinophilia and airway hyperresponsiveness than inhibiting either pathway alone. The challenges associated with the development of a product containing two oligonucleotides in humans are discussed.
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PMID:Multitargeted approach using antisense oligonucleotides for the treatment of asthma. 1714 27