Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Kupffer cells (KC) play an important role in the pathogenesis of inflammatory liver diseases leading to fibrosis. Anti-inflammatory drugs are only effective when administered at high doses that may cause side effects. Therefore, dexamethasone coupled to mannosylated albumin (Dexa(5)-Man(10)-HSA) was designed by us to selectively deliver this anti-inflammatory drug to the KC. The effectiveness of Dexa(5)-Man(10)-HSA was studied both in organ cultures and fibrosis induced by bile duct ligation (BDL) in rats. Dexa(5)-Man(10)-HSA accumulated in livers of both healthy and fibrotic rats (67% +/- 5% and 70% +/- 9% of the dose, respectively) and uptake was found almost exclusively in KC. Active dexamethasone was liberated from its carrier, because Dexa(5)-Man(10)-HSA could effectively inhibit nitric oxide (NO) and tumor necrosis factor alpha (TNF-alpha) release in endotoxin-activated liver slices. In vivo, however, this was associated with increased collagen I and III depositions and enhanced tissue inhibitor of metalloproteinase-1 (TIMP-1) mRNA expression. This was accompanied by a decreased influx of reactive oxygen species (ROS) producing cells in the livers of BDL animals treated with Dexa(5)-Man(10)-HSA as compared with untreated BDL rats. Dexa(5)-Man(10)-HSA treatment also replenished the depleted glycogen stores in hepatocytes of BDL livers. In conclusion, our studies showed selective delivery of dexamethasone to KC with Dexa(5)-Man(10)-HSA. This conjugate reduced intrahepatic ROS in vivo and TNF-alpha production in vitro and prevented glycogen depletion in vivo, indicating effective pharmacologic targeting. Dexa(5)-Man(10)-HSA, however, also accelerated fibrogenesis, which was paralleled by TIMP-1 mRNA induction. Targeting of dexamethasone to KC provides evidence for a dual role of this cell type in fibrogenesis of BDL rats.
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PMID:Targeting dexamethasone to Kupffer cells: effects on liver inflammation and fibrosis in rats. 1158 68

Hyperthyroid patients develop left ventricular hypertrophy associated with alterations of several cardiac parameters such as heart rate, cardiac output, cardiac contraction and hemodynamic overload leading to cardiac complications. Although cardiac hypertrophy and contractile abnormality occur, interstitial fibrosis in the heart usually does not take place in hyperthyroid condition. Therefore, in the present study, the mechanism regulating myocardial extracellular matrix (ECM) remodeling in hyperthyroid condition was investigated. Cardiac hypertrophy was developed in Sprague-Dawley rats by administration of 3,5,3'-triiodo-L-thyronine (triiodothyronine, 8 microg/100g BW, ip, SID) and glucocorticosteroid, dexamethasone (DEX, 35 microg/100g BW, po, SID), which is also an inducer of hypertrophy for 15 days. Heart/Body weight ratio and atrial and brain natriuretic peptide mRNAs were significantly increased in both triiodothyronine- and DEX-treated rats compared to control. Collagens-I and -III deposition in the left ventricular sections was reduced in triiodothyronine-treated rats, whereas in DEX-treated animals those were increased compared to control. While mRNA and protein levels of procollagens-I and -III were increased with triiodothyronine (p<0.01), the levels of mature collagens-I and -III were decreased. The levels of the mature collagens were increased with DEX compared to control. MMP-1 activity in the serum and left ventricle was higher with reduced levels of TIMPs-3 and -4 in the left ventricle of triiodothyronine-treated rats. The results suggest that accelerated breakdown of collagens-I and -III by MMP-1 due to suppression of the endogenous TIMPs plays an important role in regulating the ECM in myocardium of hyperthyroid rat.
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PMID:Thyroid hormone induces myocardial matrix degradation by activating matrix metalloproteinase-1. 1727 72