Abstract
This article describes the antihyperglycemic activity, in vivo antioxidant potential, effect on hemoglobin glycosylation, estimation of liver glycogen content, and in vitro peripheral glucose utilization of bacosine, a triterpene isolated from the ethyl acetate fraction (EAF) of the ethanolic extract of Bacopa monnieri. Bacosine produced a significant decrease in the blood glucose level when compared with the diabetic control rats both in the single administration as well as in the multiple administration study. It was observed that the compound reversed the weight loss of the diabetic rats, returning the values to near normal. Bacosine also prevented elevation of glycosylated hemoglobin in vitro with an IC50 value of 7.44 µg/mL, comparable with the one for the reference drug α-tocopherol. Administration of bacosine and glibenclamide significantly decreased the levels of malondialdehyde (MDA), and increased the levels of reduced glutathione (GSH) and the activities of superoxide dismutase (SOD) and catalase (CAT) in the liver of diabetic rats. Bacosine increased glycogen content in the liver of diabetic rats and peripheral glucose utilization in the diaphragm of diabetic rats in vitro, which is comparable with the action of insulin. Thus, bacosine might have insulin-like activity and its antihyperglycemic effect might be due to an increase in peripheral glucose consumption as well as protection against oxidative damage in alloxanized diabetes.
Key words
Bacopa monnieri
- Scrophulariaceae - bacosine - alloxan - antidiabetic activity - antioxidant activity
References
-
1
Vetrichelvan T, Jagadeesan M, Uma Devi B A.
Antidiabetic activity of alcohol extract of Celosia argentea Linn. seeds in rats.
Biol Pharm Bull.
2002;
25
526-528
-
2 Pickup J, Williams G. Text book of diabetes. Blackwell; Oxford 1991: 467-469
-
3 Nagarajan S, Jain H C, Aulakh G S. Indigenous plants used in the control of diabetes. New Delhi; CSIR 1987: 586-590
-
4 Anonymous. Indian herbal pharmacopoeia, Vol. I. Mumbai; IDMA 1998: 3037
-
5 Kiritikar K R, Basu B D. Indian Medicinal plants, Vol. I. Dehradun; Bishen Singh Mahendrapal Singh 1994: 1816-1817
-
6 Chopra R N, Nayar S L, Chopra I C. Glossary of Indian medicinal plants. New Delhi, India; National Institute of Science and Communication (CSIR) 1986: 32-34
-
7
Ghosh T, Maity T K, Sengupta P, Dash D K, Bose A.
Antidiabetic and in vivo antioxidant activity of ethanolic extract of Bacopa monnieri Linn. aerial parts: a possible mechanism of action.
Iranian J Pharm Res.
2008;
7
61-68
-
8
Tan M J, Ye J, Turner N, Hohnen-Behrens C, Ke C Q, Tang C P, Chen T, Weiss H C, Gesing E R, Rowland A, James D E, Ye Y.
Antidiabetic activities of triterpenoids isolated from bitter melon associated with activation of the AMPK pathway.
Chem Biol.
2008;
15
263-273
-
9
Ahmed B, Rahman A.
Bacosterol, a new 13,14-seco-steroid and Bacosine, a new triterpene from Bacopa monniera.
Indian J Chem.
2000;
39B
620-625
-
10
Joy K L, Kuttan R.
Antidiabetic activity of Picrorrhiza kurroa extract.
J Ethnopharmacol.
1999;
67
143-148
-
11
Vohra S B, Khanna T, Athar M.
Analgesic activity of bacosine a new triterpene isolated from B. monniera.
Fitoterapia.
1997;
68
361-365
-
12
Fraga C G, Leibovitz B E, Toppel A L.
Lipid peroxidation measured as thiobarbituric acid-reactive substances in tissue slices: characterization and comparison with homogenates and microsomes.
Free Radic Biol Med.
1988;
4
155-161
-
13
Ellman G L.
Tissue sulfhydryl groups.
Arch Biochem Biophys.
1959;
82
70-77
-
14
Kakkar P, Das B, Viswanathan P N.
A modified spectroscopic assay of superoxide dismutase.
Indian J Biochem Biophys.
1984;
21
130-132
-
15 Maehly A C, Chance B. The assay of catalases and peroxidases. Glick D Methods of biochemical analysis, Vol I. New York; Interscience 1954: 357-358
-
16 Fluckiger R, Winterhalter K H. Biochemical and clinical aspects of hemoglobin abnormalities. New York; Academic Press 1978: 208-209
-
17
Chattopadhyay R R, Sarkar S K, Ganguly S, Banerjee R N, Basu T K.
Effect of extract of leaves of Vinca rosea Linn. on glucose utilization and glycogen deposition by isolated rat hemidiaphragm.
Indian J Physiol Pharmacol.
1992;
36
137-138
-
18
Carroll N V, Longley R W, Roe J H.
The determination of glycogen in liver and muscle by use of anthrone reagent.
J Biol Chem.
1956;
220
583-596
-
19 Guyton A C, Hall J E. Text book of medical physiology, 10th edition. New Delhi; Elsevier 2000: 894-897
-
20
Monnier V K, Cerami A.
Non-enzymatic glycosylation and browning in diabetes and aging.
Diabetes.
1982;
31
57-66
-
21
Chang A T, Nobel J.
Estimation of HbA1c like glycosylated proteins in kidneys of streptozotocin diabetes and controlled rats.
Diabetes.
1979;
28
408-415
-
22
Yadav S B, Tripathi V, Singh R K, Pandey H P.
Antioxidant activity of Cusuta reflexa stem.
Indian J Pharm Sci.
2000;
62
477-478
-
23
Winterbourn C C, Munday R.
Glutathion-mediated redox cycling of alloxan.
Biochem Pharmacol.
1989;
38
271-274
-
24
Lu S C.
Regulation of hepatic glutathion synthesis: current concepts and controversies.
FASEB J.
1999;
13
1169-1183
-
25
Mc Lennan S V, Heffernan S, Wright L, Rae C, Fisher E, Yue D K, Turtle J R.
Changes in hepatic glutathion metabolism in diabetes.
Diabetes.
1991;
40
344-349
-
26
Lee S E, Ju E M, Kim J H.
Free radical scavenging and antioxidant enzyme fortifying activities of extracts from smilax china roots.
Exp Mol Med.
2001;
34
263-268
-
27
Liby K T, Yore M M, Sporn M B.
Triterpenoids and rexinoids as multifunctional agents for the prevention and treatment of cancer.
Nat Rev Cancer.
2007;
7
357-369
-
28
Pari L, Uma Maheswari J.
Hypoglycemic activity of Musa sapientum L. in alloxan-induced diabetic rats.
J Ethnopharmacol.
1999;
68
321-325
-
29
Bollen M, Keppens S, Stalmans W.
Specific features of glycogen metabolism in the liver.
Biochem J.
1998;
336
19-31
Tirtha Ghosh
Department of Pharmacy, Contai Polytechnic
P. O.-Darua, Dist-Purba Medinipur
721401 West Bengal
India
Phone: +91 94 75 20 17 91
Fax: +91 32 20 25 54 62
Email: tghosh75@yahoo.co.in
