Phycocyanin (Pc) is a phycobiliprotein that has been recently reported to exhibit a variety of pharmacological properties. In this regard, antioxidant, anti-inflammatory, neuroprotective and hepatoprotective effects have been experimentally attributed to Pc. When it was evaluated as an antioxidant in vitro, it was able to scavenge alkoxyl, hydroxyl and peroxyl radicals and to react with peroxinitrite (ONOO(-);) and hypochlorous acid (HOCl). Pc also inhibits microsomal lipid peroxidation induced by Fe(+2)-ascorbic acid or the free radical initiator 2,2' azobis (2-amidinopropane) hydrochloride (AAPH). Furthermore, it reduces carbon tetrachloride (CCl(4))-induced lipid peroxidation in vivo. Pc has been evaluated in twelve experimental models of inflammation and exerted anti-inflammatory effects in a dose-dependent fashion in all of these. Thus, Pc reduced edema, histamine (Hi) release, myeloperoxidase (MPO) activity and the levels of prostaglandin (PGE(2)) and leukotriene (LTB(4)) in the inflamed tissues. These anti-inflammatory effects of Pc can be due to its scavenging properties toward oxygen reactive species (ROS) and its inhibitory effects on cyclooxygenase 2 (COX-2) activity and on Hi release from mast cells. Pc also reduced the levels of tumor necrosis factor (TNF-alpha) in the blood serum of mice treated with endotoxin and it showed neuroprotective effects in rat cerebellar granule cell cultures and in kainate-induced brain injury in rats.
Aqueous, ethanol and chloroform extracts from Corrigiliola telephiifolia, Echinops spinosus, Kundmannia sicula, Tamarindus indica and Zygophyllum gaetulum were evaluated for antiinflammatory properties in mice (ear oedema induced by arachidonic acid) and rats (subplantar oedema induced by carrageenan) after topical or i.p. administration, respectively. Our results showed that all the plants exhibit antiinflammatory activity, since at least one extract from each plant was active in one of the experimental models. Whereas all the extracts of Corrigiliola telephiifolia and Echinops spinosus were highly active on all the experimental models assayed (values of inflammation inhibition well above 50%), poorer activity profiles were recorded in Kundmannia sicula, Tamarindus indica and Zygophyllum gaetulum. These results support the traditional uses for these plants but indicate that the active principles in the chloroform extracts are probably more active and/or are contained in larger concentrations than the principles in the polar extracts used in the traditional medicine of North-African countries.
Aqueous, ethanol and chloroform extracts from five plants were administered either topically (oedema induced by arachidonic acid in mouse ear) or i.p. (subplantar oedema induced by carrageenan in rats). Our results show that Anacyclus pyrethrum, Armeria alliacea, Asphodelus ramosus, Capparis spinosa and Rhaponticum acaule possess antiinflammatory activity, since at least one extract of each plant was active in one of the experimental models. The three extracts from Anacyclus pyrethrum showed significant activity in both experimental models, but the highest antiinflammatory activity was exhibited by the polar extracts of Armeria alliacea. The ethanol extract of the latter produced 100% inhibition of the inflammation induced by carrageenan and this inhibition was highly significant (p<0.001) with reference to values found in both active (indomethacin 3 mg/kg) and vehicle administered control groups.
We tested the potential cytoprotective role of C-phycocyanin in rat cerebellar granule cell cultures. Cell death was induced by potassium and serum (K/S) withdrawal. Cell viability was studied using the neutral red assay and laser scanning cytometry with propidium iodide as fluorochrome. C-phycocyanin (1-3 mg/ml) showed a neuroprotective effect against 24 h of K/S deprivation in cerebellar granule cells. After 4 h K/S deprivation this compound (3 mg/ml) inhibited formation of reactive oxygen species, measured as 2',7'-dichlorofluorescein fluorescence, showing its scavenger capability. Pre-treatment with C-phycocyanin reduced thymidine incorporation into DNA below control values and reduced dramatically apoptotic bodies as visualized by propidium iodide, indicating inhibition of apoptosis induced by K/S deprivation. Flow cytometry studies, using propidium iodide in TritonX100 permeabilized cells, indicated that 24 h K/S deprivation acts as a proliferative signal for cerebellar granule cells, which show an increase in S-phase percentage and cells progressed into the apoptotic pathway. C-phycocyanin protected cerebellar granule cells from the apoptosis induced by deprivation. These results suggest that C-phycocyanin prevents apoptosis in cerebellar granule cells probably through the antioxidant activity. It is proposed that K/S deprivation-induced apoptosis could be due, in part, to an alteration in the cell cycle mediated by an oxidative stress mechanism.
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