Inflammatory Regulation Effect and Action Mechanism of Anti-Inflammatory Effective Parts of Housefly (Musca domestica) Larvae on Atherosclerosis.

The protein-enriched extracts of housefly larvae were segregated by gel-filtration chromatography (GFC) and then anti-inflammatory activity screening in RAW264.7 (induced by LPS) was carried out. After acquire the anti-inflammatory effective parts, its anti-atherosclerotic properties in vivo were then evaluated. Results showed that the anti-inflammatory effective parts of housefly larvae were low-molecular-weight parts. After treated with the effective parts oral gavaged for 4 weeks, the atherosclerotic lesions of the mouse were significantly decreased. The inflammatory and lipid parameters were also reduced (except HDL which was increased). Western blot analysis demonstrated that the effective parts exerted potent inhibitory effect on expression of p65 in nucleus and cytoplasm. The results of immunofluorescence microscopy analysis also showed that the expressions of p65 both in cytoplasm and nucleus were significantly reduced. The hypothesis that the anti-inflammatory effective parts of housefly larvae possessed anti-atherosclerosis activity in mouse and the possible mechanism could be associated with the inhibition of expression and nuclear transfer of NF- κ B p65 could be derived.

Effect of lipopolysaccharide mediating early- and late- activated THP-1 macrophages on ECV304 endothelial cell dysfunction: dysregulation of secretion of VEGF and proliferation and migration of ECV304.

OBJECTIVE: To investigate the different effects of lipopolysaccharide (LPS) mediating early and late activated THP-1 macrophages (Mφ) on ECV304 endothelial cell dysfunction: dysregulation of secretion of VEGF and proliferation, and migration of ECV304. METHODS: The inflammatory Mφ was divided into early phase (2 h) group and late phase (24 h) group according the different exposure time to LPS. Then the inflammatory Mφ and ECV304 were co-cultured via transwell chambers in both non-contacting and contacting systems. The levels of VEGF were determined by ELISA, and the proliferation index and apoptosis of ECV304 were analyzed by FACSCalibur. The migration of ECV304 was tested by modified Boyden chamber assay. RESULTS: The level of VEGF and the proliferation of ECV304 cell were increased more apparently in early-phase Mφ-treated group. But the proportion of early apoptotic and late apoptotic/necrotic cells in late-phase Mφ-treated group were higher than that of the former. Migration rate of ECV304 was enhanced in early-phase Mφ-treated group. All those effects were more significant in contacting system comparing with no-contacting system. CONCLUSION: Early-activated macrophages (mediated by LPS) could increase the secretion of VEGF and promote the proliferation and migration of ECV304; while the late-activated macrophages could promote/enhance the apoptosis of ECV304 more significant in contacting system when (it was) compared with no-contacting system.

[Comparison of the effects of traditional and modern processing methods on antibacterial and anti-inflammatory effects of Musca domestica].

OBJECTIVE: To investigate the different effects of traditional and modern processing methods onantibacterial and anti-inflammatory effects of Musca domestica. METHODS: Antibacterial and anti-inflammatory effects of traditional and modem processing products were carried out on Staphylococcus aureus, Escherichia coli and macrophage RAW264.7 which activated by LPS. RESULTS: The antibacterial and anti-inflammatory effects were more pronounced in modern processing product treatment group than those of traditional processing product treatment group. CONCLUSION: Modern processing technology can protect the substances in Musca domestica which have antibacterial and anti-inflammatory effects.