Objective: Renal and hepato-protective effects of Irvingia gabonensis juice on sodium fluoride-induced toxicity was assessed in twenty-four male Wistar albino rats. Methodology:The rats were divided into 4 groups of 6 animals each. All except normal control (NC), were intoxicated with 20 mg.Kg -1 body weight of sodium fluoride (NaF) daily by gavage for 35 days. Sodium fluoride control group (NaFC) received only the toxicant. Test group (IG) received I. gabonensis juice concurrently with the toxicant, while the standard control (Q+Vit. E) received concurrently, 15 mg.Kg -1 body weight of Quercetin+100 mg.Kg -1 body weight of α-tocopherol throughout the 35 days. Normal control (NC) group received only standard pelletized diet and water. Serum aspartate aminotransferase (AST), alanine aminotransferase (ALT), total protein, albumin, total cholesterol, serum creatinine and electrolyte levels were assessed among test, standard and control animals.Result: Irvingia gabonensis significantly (p<0.05) reduced AST activity in the IG group (137.68 ± 12.66 U/L) compared to NaFC group (175.12 ± 10.63 U/L). This compares to the reduction in the AST activity in standard (Q +Vit. E) group (135.69 ± 10.66 U/L). ALT activity was also reduced in the IG group. Effects of I. gabonensis on albumin and cholesterol levels were similar to that of the standard group. Administration of I. gabonensis also significantly (p<0.002) reduced elevated creatinine and Clconcentrations, while significantly (p<0.05) elevating serum Ca 2+ and Mg 2+ ion levels.Conclusion: Irvingia gabonensis fruit juice has some renal and hepato-protective potential which may be due to the presence of secondary plant metabolites like flavonoids, tannins and alkaloids found in the plant. The fruit is also rich in Ca 2+ and Mg 2+ . Increased domestication is encouraged.
Effect of Irvingia gabonensis fruit juice administration on serum lipid profile of sodium fluoride (NaF)-intoxicated rats was investigated. Twenty-four (24) male Wistar rats divided into four groups of six (6) animals each -one control and three intoxicated groups were used. The normal control (NC) group received only standard pelletized diet and water. All three intoxicated groups received 20 mgkg -1 bodyweight of NaF daily by gavage for 35 days. While the first group (NaFC group) received only NaF, the second in addition was treated with I. gabonensis fruit juice (I. gabonensis group). The third received NaF plus 15 mgkg -1 body weight Quercetin + 100 mgkg -1 bodyweight vitamin E (Q+Vit E group). Result showed that LDL-C was significantly elevated, while HDL-C was markedly reduced in the NaFC group. In the I. gabonensis-treated group, lipoprotein phenotypes were normalized, with HDL-C increasing from 38.92±9.28 mgdl -1 in NaF intoxicated group (NaFC) to 65.14±5.33 mgdl -1 , which was even higher than 60.83±4.56 mgdl -1 obtained in the standard (Q+Vit E) group. Low density lipoproteincholesterol concentration also reduced from 17.3±3.2 mgdl -1 in NaF-intoxicated group to 7.5±1.0 mgdl -1 in I. gabonensis-treated group, which compared favourably with that of the standard. Furthermore, NaF toxicity resulted in the elevation of atherogenic index in the NaFC group. This was significantly (p<0.05) lowered in all other groups. The total non-HDLcholesterol and LDL/HDL ratio were significantly reduced in I. gabonensis-treated rats. This tends to suggest that the juice of I. gabonensis may be useful in alleviating and preventing cardiovascular diseases.
Aims: To characterize the chemical composition of Bryophyllum pinnatum leaf ethyl acetate fraction. Methodology: Quantitative phytochemical composition was assessed using gas chromatography fitted with flame ionization detector (GC-FID), while chemical characterization was via gas chromatography-mass spectrophotometry (GC-MS) analysis. The mass spectra peaks were matched with those found in the National Institute of Standard and Technology (NIST) spectral database. Results: Results revealed a rich presence of proanthocyanin, rutin, quinine, flavan-3-ol, anthocyanin, lunamarin, sapogenin, phenol, flavonones, steroids, epicatechin, kaempferol, phytate, oxalate, resveratol, catechin, flavones, tannin, ribalinidine, naringin, and spartein in varying proportion in B. pinnatum leaves ethylacetate fractions. GC-MS analysis of the fractions revealed the presence of at least 50 constituents. The major constituents were Hexadecanoic acid, methyl ester (24.88%), 10,13-Octadecadienoic acid, methyl ester (29.69%), Tetracosanoic acid, methyl ester (7.84%), Methyl stearate (6.97%), cis-Methyl 11-eicosenoate (6.26%), Methyl 18-methylnonadecanoate (4.99%), Docosanoic acid, methyl ester (3.71%) and 4,7-Methano-1H-indene, octahydro- (2.43%). Conclusion: This rich array of chemical compounds presents B. pinnatum leaves as an important source of potential lead compounds with biological and pharmacological benefits and hence a potential candidate for drug discovery.
Aims: Persea americana (P. americana) dubbed ‘green gold’ is a highly sought after fruit today, with insatiable export market. Different parts of avocadoes have been consumed both for nutritional and health benefits across regions of the world. Therefore, this study investigates the bioactive composition of P. americana seed ethyl acetate fraction and acute toxicological effects. Place and duration of study: Department of Biochemistry, Federal University of Technology Owerri, Imo State, Nigeria; between May 2019 and October, 2019. Methodology: Quantitative phytochemical composition was assessed using gas chromatography fitted with flame ionization detector (GC-FID) and acute toxicity determined using standard method. Results: Result of quantitative phytochemical composition of P. americana seed fraction shows a rich presence of phytochemicals such as epicatechin, kaempferol, proanthocyanin, rutin, resveratrol, ribalinidine, naringin, spartein, quinine, flavan-3-ol, anthocyanin, lunamarin, sapogenin, flavonones, flavones. The quantitative phytochemical composition of P. americana seed shows that among other phytochemicals, the seed is relatively rich in anthocyanin, quinine, epicatechin, tannin and proanthocyanin with concentrations of 69.39 ± 8.33 µg/g, 22.16 ±1.77 µg/g, 21.88 ± 2.53 µg/g, 19.86 ± 1.19 µg/g and 10.98 ± 0.55 µg/g respectively. The acute toxicity studies on the seed reveal that the ethyl acetate fraction of P. americana seed did not elicit any lethal signs of morbidity and mortality at doses up to 5000mg/Kgb.wt. and are therefore considered generally safe. Conclusion: P. americana seed ethyl acetate fraction contains essential phytochemicals with useful phyto-medicinal and nutraceutical benefits. The implications of these findings are further discussed.
Toxicity of Cadmium (Cd), 4-chlorophenol (4-CP), and 2,4-dichlorophenol (2,4-DCP) as single compounds and binary mixtures on Bacillus sp and Pseudomonas sp isolated from garden soil was assessed using inhibition of total dehydrogenase as toxicity response. Binary mixtures of metal and chlorophenol were composed using arbitrary concentration ratios (%) corresponding to metal/phenol mixtures of 20/80; 40/60; 50/50 and 30/70; 45/55, 50/50 for the chemical pairs: Cd/4-CP and Cd/2,4-DCP respectively. Results obtained showed that the binary mixtures of Cd/4-CP and Cd/2,4-DCP all exhibited a dose-dependent inhibition of dehydrogenase activity in the test isolates. The binary mixture of CD/4-CP exhibited higher toxicity in ratio 40/60 and 20/80 for the isolates Bacillus sp and Pseudomonas sp with IC50 values of 0.212±0.002 and 0.158± 0.008mM respectively. While for the mixture of Cd/2,4-DCP, toxicity was highest at the 50/50 and 45/55 ratio for Bacillus sp and Pseudomonas sp with IC50 values of 0.069±0.001mM and 0.068±0.001mM respectively. The binary mixtures of the chemicals evaluated showed a progressive inhibition of dehydrogenase activity with Pseudomonas sp showing a higher susceptibility. Isobolographic analysis of binary mixture interaction against Bacillus sp and Pseudomonas sp showed largely synergistic interactions. The combination of Cd with the chlorophenols resulted in a synergistic increase in the toxicity of the compounds to the test isolates. The toxicity of Cd/4-CP binary mixture ratios to dehydrogenase activity of Bacillus sp and Pseudomonas sp was in the order 40:60>50:50>20:80 and 20:80>50:50>40:60 respectively; similarly that of Cd/2,4-DCP mixtures were 50:50>45:55>30:70 and 45:55>50:50>30:70 for Bacillus and Pseudomonas sp respectively. The trend and implications of the toxicity interactions are further discussed.
The influence of mixtures of metals and pesticide on the activity of algal hydrolytic enzyme alkaline phosphatase was investigated. Toxicity of unary and ternary combinations of Copper (Cu2+), Zinc (Zn2+), Lead (Pb2+), Chromium (Cr2+), Cadmium (Cd2+) ions and 2,4-dichlorophenoxyacetic acid (2,4-D) was assessed via inhibition of phosphatase enzyme activity of Chlorella vulgaris. The effects of the amalgamated ternary mixtures were studied in their fixed percentage ratio of 20:40:40 and 40:30:30. Results obtained showed that all the unary heavy metal ions were toxic to algal phosphatase activity, with a concentration dependent inhibition of alkaline phosphatase activity. The analysis of eco-toxicity concentration (EC50) of toxicant ternary mixtures of metals/ pesticides mixtures in 20:40:40 ratios show that the ternary mixtures 2,4-D/Pb2+/Cd2+and 2,4-D/Zn2+/Cd2+ were more toxic, followed by 2,4-D/Cu2+/Cr2+, 2,4-D/Pb2+/Zn2+, 2,4-D/Cu2+/Zn2+ and 2,4-D/Cu2+/Cd2+. Whereas among the 40:30:30 mixture ratios 2,4-D/Pb2+/Cd2+ and 2,4-D/Zn2+/Cd2+ were most toxic. The decline in the trend of their toxicity strength was followed by 2,4-D/Cu2+/Cr2+, 2,4-D/Cu2+/Zn2+, 2,4-D/Cu2+/Cd2+, 2,4-D/Cu2+/Pb2+ and 2,4-D/Pb2+/Zn2+. In addition, the least toxic amongst them were the 2,4-D/Pb2+/Cr2+, 2,4-D/Zn2+/Cr2+ and 2,4-D/Cr2+/Cd2+ ternary mixtures. Toxicity index analysis of the mixture interaction effect showed that the mixtures of heavy metals with 2,4, D were mostly antagonistic with toxic index (TI) >>1, However, exceptions were the 2,4-D/Pb2+/Cd2+ and 2,4-D/Pb2+/Cd2+mixture which were additive and synergistic with TI=1 and TI<1 respectively. From the foregoing study, the toxicity of the mixtures exhibited largely sigmoidal relationship, increased composition of heavy metal in the mixture resulted in a potentiation of 2,4-D toxicity. These results indicate that mixtures of heavy metals with largely non-toxic 2,4-D may pose ecological risk to freshwater microalgae Chlorella vulgaris, presenting antagonistic, additive and synergistic toxicity interactions based on their relative occurrence in the mixture.
The in vitro toxicity of glyphosate (Gly) and 2, 2 Dichlorovinyl dimethyl phosphate (DDVP) single compound and binary mixtures was assessed against Pseudomonas sp. and Bacillus sp. isolated from Otamiri River, Imo state, Nigeria was investigated. The toxicity response was assessed using the inhibitory effect of the single and binary mixtures on isolates dehydrogenase activity; and 2,3,5 triphenyltetrazolium chloride (TTC) was used as the artificial electron acceptor. The binary mixtures were composed using fixed ratios of glyphosate and 2, 2 Dichlorovinyl dimethyl phosphate in ratios of 20% Gly:80% DDVP, 40% Gly: 60% DDVP, 50% Gly: 50% DDVP, 60% Gly: 40% DDVP and 80% Gly: 20% DDVP. Results obtained showed that the isolates exhibited different degrees of logistic and sigmoidal toxicity trends with areas of hormesis at low concentrations of the toxicants. Furthermore, isobolographic analysis on the toxic interaction of the mixtures presented both synergism and antagonism, based on the relative ratio of the component mixtures. Increasing concentration of glyphosate in the binary mixture caused a shift in the interaction effect from antagonism to synergism. Our findings showed that isolates exhibited tolerance to glyphosate and 2,2 dichlorovinyl dimethyl phosphate and their binary mixtures exposure at concentration range of 0-1000mg/L; above which has deleterious effects on the aquatic organisms. It is evident that there are considerable differences in pesticide sensitivity among the bacterial species and that the presence of glyphosate and 2, 2-dichlorovinyl dimethyl phosphate in the aquatic environment may present toxicological risk to microbial diversity.
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