The effect of the ethanolic extract Khaya senegalensis on some biochemical parameters was tested in rabbits with normal glucose and glucose overload. Phytochemical screening after three batches of 6 rabbits race (TBD) were treated with the extract in oral doses of respectively 10, 25 and 50 mg/kg body weight for 30 days; three other groups receiving respectively these doses of the extract were placed under a priori temporary overload of glucose; a control group received instead distilled water treatment. Blood glucose, triglycerides and total cholesterol were measured by spectrophotometry and weight gain of the animals was performed at the beginning of the experiment and every 2 weeks during the study period. The phytochemical screening revealed the presence of polyphenolic compounds (majority) of saponins of anthracene derivatives and steroids in the extract. The test results indicate that under the dose of 50 mg/kg body weight (BW) there was a significant decrease (p < 0.05) in blood glucose after 24 hours. The extract had no effect on the lipid profile or body weight of rabbits.
The use of bioactive plant became popular more particularly in poor regions such as Africa and Asia [
The study was conducted at the Laboratory of Biomembranes and Cell Signaling, Faculty of Sciences and Techniques, University of Abomey Calavi, south of Benin, between July 2011 and March 2012. The extraction were performed at the Laboratory of Pharmacognosy and Essential Oils at the Institute of Applied Biomedical Sciences (ISBA), Cotonou, Benin.
Plant material. The barks of Khaya senegalensis were collected in July 2011 in the town of Abomey Calavi, agro-ecological zone VI, in southern Benin. This area has a climate Guinean type with two rainy seasons (April- July, September-November) rainfall varies from 1000 to 1400 mm and the soil is lateritic, ferruginous or hydro morph. The plant material was air-dried and milled into powder [
Dry bark of Khaya senegalensis were cut into small pieces and then ground in mill knives. 100 g of the resulting powder, weighed using an analytical balance Sartorius® and placed in a jar prepared for this purpose, were soaked in 500 ml of 96% ethanol for 72 hours. Then the macerate was filtered through cotton wool fiber. The obtained filtrate was evaporated at 40˚C using the evaporator ROTAVAPOR®. The paste deposited at the bottom of the evaporator ball was recovered in jars and put to dry in an oven at 45˚C. After complete drying, the solids fused to the bottom of the jars were scraped, crushed and kept in jars.
Twenty-four rabbits (Oryctolagus cuniculus) of body weight between 1.155 and 1.370 kg, provided by the animal production department of the University of Abomey Calavi were used for the test.
The 24 rabbits were fed exclusively on fodder and water to drink, and they received no other medication at the time outside of the extract. They were randomly divided into three groups of 06 rabbits treated as follows:
-Lot 1 (L1) was the control group receiving oral administration of distilled water in place of ethyl extract of Khaya senegalensis,
-Lot 2 (L2) was the group treated by oral administration at a dose of 10 mg/kg body weight/day of ethyl extract of Khaya senegalensis, for 15 days.
-Lot 3 (L3) was the group treated by oral administration at a dose of 25 mg/kg body weight/day of ethyl extract of Khaya senegalensis, for 15 days.
-Lot 4 (L4) was batch treated by oral administration at a dose of 50 mg/kg body weight/day of ethyl extract of Khaya senegalensis, for 15 days.
It is based on the reactions (color and precipitation) Differential major groups of chemical compounds in plants according to the method of Houghton PJ and A. RAMAN (1998) [
To assay blood glucose, triglycerides and cholesterol in rabbits, we collected vacuum blood of these animals from the marginal ear vein, and the blood is collected in dry test tubes (for triglycerides and cholesterol) and anticoagulant (EDTA for glucose), and is then centrifuged at 3000 rpm for 5 minutes and the supernatant serum or plasma were decanted and stored for the determination of these parameters.
We measured blood glucose by the enzymatic method with GOD-PAP reagent® (Bio Lab Lot: 021101A/2013/ 02 SCI) with T0, T0 + 6 hours, 12 hours and T0 + 18 hours, 24 hours T0, T0 + 15 days and 30 days, T0 corresponds to the sampling time at the end of 12 hours of fasting before administration of distilled water and ethyl extract of Khaya senegalensis.
Trinder method: In aqueous medium and in the presence of oxygen, glucose oxidase (GOD) catalyses the oxidation of glucose to gluconic acid and hydrogen peroxide (H2O2) in the reaction.
Glucose + ½ O2 + 2H2O + H2O2 gluconic acid
In the presence of peroxidase (POD), hydrogen peroxide reacts with 4-chloro-phenol and 4-aminoantipyrine (PAP) which is colorless in the reduced state to form a quinoneimine. Quinoneimine formed has a pink color whose intensity is proportional to the glucose concentration. This intensity is measured with a spectrophotometer at 500 nm [
Kit BIOLABO TRIGLYCERIDES GPO lot 071106B method of ref 80019 is used to determine blood levels trigycérides.
The assay principle is based on the method and Fossati Prencipe coupled to a Trinder reaction: the triglycerides are hydrolyzed enzymatically by lipase to free fatty acids and glycerol. The glycerol is phosphorylated by adenosine triphosphate (ATP) and glycerol kinase (GK) to produce glycerol-3-phosphate and adenosine diphosphate (ADP). Glycerol-3-phosphate is oxidized to dihydroxyacetone phosphate (DAP) with glycerol phosphate oxidase (GPO) to produce hydrogen peroxide (H2O2). In a color reaction catalyzed by peroxidase, H2O2 reacts with 4-aminoantipyrine (PAP) and 4-chlorophenol ((4-CP) to produce quinoneimine (pink) and water. Reaction scheme is as follows:
LIPASE Triglycerides Glycerol + free fatty acids
GK Glycerol + ATP glycerol-3-phosphate + ADP
Glycerol-3-phosphate Dihydroxyacetone phosphate + O2 + H2O2 GPO
H2O2 + 4-chlorophenol + PAP quinoneimine POD (pink) + H2O
The absorbance of the colored complex (quinoneimine), proportional to the concentration of triglycerides in the serum sample is measured at 500 nm [
H2O2 + 4-chloro-phenol + 4-aminoantipyrine + 4H2O quinoneimine
Kit BIOLABO CHOLESTEROL CHOD-PAP lot 081104A REF 80106 was used.
The principle of the assay is as follows: cholesterol was determined using the CHOD-PAP enzymatic method described by Allain et al. [
EC + esterified cholesterol Cholesterol Free fatty acids
Cholesterol + O2 CO cholestene-4-one-3 + H2O2
2H2O2 + Phenol + 4-aminoantipyrine + 4H2O POD quinoneimine
Quinoneimine formed has a pink color whose intensity is proportional to the amount of cholesterol present in the serum sample [
The data are processed in the Microsoft Office 2007 software Minitab14 2003 version was used for the different tests comparing average, the T-test was used for comparison of means of biochemical parameters between different batches of rabbits and for changes in biochemical parameters in time to appreciate the statistical significance of the difference of parameters between different batches of rabbits, we used analysis of variance (one-way ± ANOVA). The parameter results are expressed as mean standart deviation.
The screening phytochimic, of the ethanolic extracts of Khaya senegalensis, shows the presence of several molecules. These molecules and their presence rates in the extracts are listed in
Weighed the on different ones periods (T0: beginning of the experiment; “T + 15”: 15 days after the beginning of the experiment; and “T + 30”: 30 days after the beginning of the experiment) of rabbits separated in 4 batches (L50 mg, L25 mg, L10 mg, L0 mg) according to the amount from extracts which was managed to them, showed a variation of weight in the rabbits which is listed in
The impact on the glycemia of the administration to rabbits of the various amounts of extracts of Khaya senegalensis, measured according to time, shows on
Chemical groups | Subgroups | Observation |
---|---|---|
Polyphénolics | Tannins Catechin tannins Anthocyanin Leuco-anthocyanin | +++ +++ ++ +++ |
Saponins | Saponosides Foam index 4 | +++ |
Steroids | Steroids | + |
Anthracene derivatives | O-Hétérosides à génines réduites | ++ |
+++: Abondant; ++: not abundant; +: low.
Times (days) | |||
---|---|---|---|
Doses | T0 | T + 15 days | T + days |
L0 mg | 0.93 ± 0.23 | 1.47 ± 0.27 | 1.53 ± 0.14 |
L10 mg | 1.15 ± 0.41 | 1.49 ± 0.09 | 1.63 ± 0.06 |
L25 mg | 1.03 ± 0.18 | 1.6 ± 0.25 | 1.79 ± 0.23 |
L50 mg | 0.97 ± 0.03 | 1.54 ± 0.20 | 1.65 ± 0.21 |
The impact on the glycemia of the administration to rabbits of the various amounts of extracts of Khaya senegalensis, measured at different hours on 24 hours, does not show any variation of the glycemia on
The impact on the glycemia of the administration to rabbits in temporary hyperglycemia of the various amounts of extracts of Khaya senegalensis, measured at different hours, shows on
The impact on the triglyceridemy of the administration to rabbits of the various amounts of extracts of Khaya senegalensis, measured according to time, shows on
The variation all the 6 hours of the triglyceridemy of hanging rabbits under influences 24 h of the different amounts of extracts of Khaya senegalensis is illustrated on
The triglyceridemy of rabbits in temporary hyperglycemia and under influences of the various amounts of ex- tract of Khaya senengalansis is measured and is illustrated on
The variations of the cholesterolemy of rabbits subjected to the various amounts of extracts of Khaya senega- lensis according to time, is illustrated on
The variation of the cholesterolemy of rabbits subjected to the various amounts of extracts of Khaya senega- lensis during 24 h, is illustrated on
The variation of the cholesterolemy of rabbits in temporary hyperglycemia subjected to the various amounts of extracts of Khaya senegalensis, is illustrated on
The phytochemical analysis revealed the presence of polyphenolic compounds (tannins, anthocyanins, leuco an- thocyanin) of saponins, steroids and anthracene compounds (o-glycosides).
The alcoholic extract of Khaya senegalensis administration for four weeks did not significantly altered the change of body weight of treated rabbits (p < 0.05). Although we have noticed an increase respectively fort- nightly from 1.82% and 6.55%, 8.75% ET17, 25%, 5% and 7.75% for doses of 10 mg/kg, 25 mg/kg and 50 mg/kg body weight.
Blood glucose did not change in the rabbits treated de 10 mg/kg dose of BW extract, 24 hours after administration. For cons, the administration of 25 mg and 50 mg/kg BW extract resulted in a decrease of 12.66%, 25.30% in blood sugar after 24 hours, only the resulting decline in the dose of 50 mg/kg BW extract is significant, one could think of a dose-dependency for this effect. This could be justified by the presence in the extract of glycosides which increases hepatic glucose utilization [
which have been isolated from plants, inhibit glucose transporters in the intestines, decrease the expression of genes that control gluconeogenesis, increase the storage of glucose in the liver and reduce the breakdown of glycogen , for example, which is a catechin tannin inhibits the intestinal absorption of glucose as well as epicatechin gallate increases hepatic glycogen synthesis and quercetin increases insulin synthesis, it has been reported in the literature that Khaya senegalensis bark are rich in these compounds. It is possible that the hypoglycemic action of the plant is related to the presence of these compounds.
Glucose does not appear to vary significantly (p > 0.05) after one month of daily administration of 10 - 25 - 50 mg/kg of extract ethyl BW Khaya senegalensis. There is still that daily administration of 50 mg/kg of BW extract decreased by 25% glucose test after fifteen days, this decrease is not significant.
The hypoglycemic action of the extract is not very remarkable for rabbits even in overload of glucose, because rabbits are not diabetic and that any variation in blood glucose have been standardized by the regulatory systems this parameter.
For cons, the administration of 25 mg of ethyl extract of Khaya senegalensis causes a decrease of 42.05% triglyceride 15 days after the start of the test and increased 48.46% and 52.50% respectively after 12 h, 18 h and action of the extract. In addition, no significant changes were noted on triglycerides with rabbits temporary hyperglycemia. Also, the statistical analysis of these results has revealed no significant difference.
Similarly, in normoglycemic rabbits treatment with the extract Khaya senegalensis, it was found that after a month trial, the daily administration of the extract ethyl 10 - 25 - 50 mg/kg BW Khaya senegalensis not significant changes in serum cholesterol compared to control group. However, cholesterol levels in normoglycemic rabbits after feeding different doses of ethyl extracts of Khaya senegalensis 24 H, 6 H shows that after beginning cholesterol decreased 29.17%, 44.44%, −9.72%, respectively 10 - 25 - 50 mg/kg doses for BW. This decline was accentuated after 12 h and password −9.72% to 29.73% for 50 mg/kg dose, then continues to decline slowly. Statistical analysis of the results showed no significant difference both in rabbits.
Different doses of ethyl extracts of Khaya senegalensis not affect the lipid profile of rabbits (triglycerides and cholesterol) because they are not diabetic. Indeed, insulin deficiency or insulin resistance may be responsible for hyperlipidemia, because insulin has an inhibitory action on the 3-hydroxy-3-methyl-glutaryl coenzyme A reductase (HMG-CoA reductase), a key enzyme for the biosynthesis of cholesterol. On the other hand, glucagon, catecholamines and other hormones increase lipolysis.
Are in the normal physiology of rabbits does not allow a remarkable action of ethyl extract on blood glucose, triglycerides and cholesterol. Thus, rabbits through their regulatory system that works have evacuated the extract and the hypoglycemic effect is more remarkable.
Ethyl bark extract of Khaya senegalensis has an effect on the liver and kidneys of normoglycemic stuffed rabbits for a month. In the liver, hepatocytes are almost normal. However, we note the presence of many cells in the connective tissue of the central vein and dilation space of Disse. This would mean that the ethyl extract of bark of Khaya senegalensis have induced liver cell proliferation that led to an expansion of the space of Disse. Compared to the kidneys, it notes that there are abnormal glomeruli. The renal tubules appeared dilated in places and there are glomeruli being destroyed.
The results from this study have show that oral daily administration of the ethanolic extract of Khaya sene- galensis for lond period has side effect. Therefore, chronic usage of khaya should be avoided.