Vascular structures adapt to changes in blood flow by adjusting their diameter accordingly. The factors mediating this process are only beginning to be identified. We have recently established a mouse model of arterial remodeling in which flow in the common carotid artery is interrupted by ligation of the vessel near the carotid bifurcation, resulting in a dramatic reduction in vessel diameter as a consequence of inward remodeling and intimal lesion formation. In the present study, we used this model to determine the role of fibroblast growth factor-2 (FGF-2) in the remodeling response by maintaining neutralizing serum levels of a mouse monoclonal antibody against FGF-2 for 4 weeks. Morphometric analysis revealed that intimal lesion formation was not affected by the antibody. However, lumen narrowing was significantly inhibited, resulting in a greater than 3-fold increase in lumen area in anti-FGF-2-treated animals compared with controls. Treatment with anti-FGF-2 antibody significantly inhibited the reduction in vessel diameter (inward remodeling) and shortening of the internal elastic lamina in the ligated vessel. In addition, anti-FGF-2 treatment also caused outward remodeling of the contralateral carotid artery. These findings identify FGF-2 as an important factor in vascular remodeling, and its effects are likely to be mediated by increasing vascular tone. The results are consistent with the recent observation of reduced vascular tone in the FGF-2-deficient mouse.
We fabricated poly(DL-lactic-co-glycolic acid) (PLGA) 50:50 microparticles loaded with an antisense (AS) oligodeoxy-nucleotide (ODN) against the rat tenascin mRNA and determined the effect in vitro of the AS-ODN released on smooth muscle cell (SMC) proliferation and migration. AS-ODN was entrapped using a double-emulsion-solvent-extraction technique with high efficiency. Release of AS-ODN was characterized by a small initial-burst effect followed by a period of controlled AS-ODN release for up to 20 days. SMC proliferation studies exhibited dose-dependent growth inhibition with AS-ODN-loaded microparticles. Microparticles loaded with scrambled (SC) ODN showed less growth inhibition than AS-ODN. Moreover, only the AS-ODN-loaded microparticles inhibited migration. These results demonstrate the feasibility of entrapping an AS-ODN to rat tenascin in PLGA microparticles for controlled delivery to inhibit SMC proliferation and migration.
Proteinase activity was detected in the culture medium of transforming miracidia and in detergent extracts of Schistosoma mansoni miracidia and primary sporocysts using a fluorescent substrate, carbobenzoxy-phenylalanyl-arginyl-7-amino-4- trifluoromethylcoumarin. Medium collected after the first 24 hr of miracidial cultivation (transformation medium; TM) contained most (80%) of the activity released during 5 days of in vitro culture. Based on proteinase activity contained in Triton X-100 extracts of whole larvae, miriacidia and primary sporocysts exhibited a similar amount of total activity per organism, whereas specific activity was about 2-fold greater in miracidia. Approximately 10% of total miracidial activity was released during the first 24 hr of transformation. This early release of proteinase is consistent with possible involvement of these enzymes in miracidial snail penetration. Proteinase activities from larval extracts and culture media were identical when characterized for thiol-dependence, inhibitor profile, and pH optimum and indicate that the proteinase(s) belongs to the cysteine class of acidic endopeptidases. Further studies with TM revealed a substrate preference for a hydrophobic amino acid in the P2 position. High performance liquid chromatography gel filtration showed 2 peaks of activity at 19,000 and 36,000 Da, whereas specific inhibitor labeling yielded heterogeneous banding in the molecular weight range of 33,000-44,000 Da. Lastly, sporocyst extracts incubated with snail plasma (cell-free hemolymph) revealed degradation of high molecular weight hemolymph proteins, including hemoglobin. The finding of significant cysteine proteinase activity in miracidia and primary sporocysts and the continued low level of secretion by sporocysts suggest a functional role of these proteinases in the establishment and/or maintenance of infections within the snail host.
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