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DOI: 10.1055/s-0031-1271621
© Georg Thieme Verlag KG Stuttgart · New York
Periplogenin, Isolated from Lagenaria siceraria, Ameliorates L-T4-induced Hyperthyroidism and Associated Cardiovascular Problems
Publikationsverlauf
received 02.08.2010
accepted after second revision 22.12.2010
Publikationsdatum:
01. Februar 2011 (online)
Abstract
The importance of glycoside in the regulation of thyroid dysfunction is not well understood. In the present investigation, effects of periplogenin-3-O-D-glucopyranosyl (1→6)(1→4)-D-cymaropyranoside, isolated from the vegetable, Lagenaria siceraria, in L-thyroxine (L-T4)-induced hyperthyroidism and in related cardiovascular abnormalities have been revealed in Wistar albino rats. L-T4 (500 μg/kg, s. c./d) administration for 12 days significantly increased serum concentrations of thyroxine (T4), triidothyronine (T3), and hepatic 5′-deiodinase I (5′-DI) activity with a parallel increase in lipid peroxidation (LPO) in different organs such as heart, liver and kidney; serum glucose and insulin concentrations and a decrease in cardiac Na+-K+-ATPase activity as well as serum total cholesterol, high-density lipoprotein cholesterol, low-density lipoprotein cholesterol, very low-density lipoprotein cholesterol and triglycerides. Most of these adverse effects were reversed following the administration of isolated periplogenin. However, out of its 3 different concentrations (5.0, 10, and 25 mg/kg), 5 mg/kg appeared to be the most effective one as it could nearly normalize the level of T3, glucose, insulin, Na+-K+-ATPase activity, tissue LPO and different serum lipids suggesting the protective role of periplogenin against thyrotoxicosis and associated cardiovascular problems. It appears that the periplogenin actions are mediated through its direct antithyroidal and/or LPO inhibiting properties.
Key words
Lagenaria siceraria - periplogenin - hyperthyroidism - 5′-DI - cardiac protection - rat
References
- 1 Ganong WF. Review of Medical Physiology. 22 nd ed. Connecticut: Appleton and Lange; 2005: 290-293
MissingFormLabel
- 2 Katzung BG. Thyroid and antithyroid drugs. In: Basic and Clinical Pharmacology, 7th ed. Stamford, Connecticut: Appleton and Lange; 1998: 619-634
MissingFormLabel
- 3
Klein I, Danzi S.
Thyroid disease and the heart.
Circulation.
2008;
22
18-25
MissingFormLabel
- 4
Fater-Debska A, Gworys P, Brzezinski J, Gawor Z.
Thyrometabolic disorders and heart failure.
Endokrynol Pol.
2007;
58
228-235
MissingFormLabel
- 5
Prassas I, Diamandis EP.
Novel therapeutic applications of cardiac glycosides.
Nat Rev.
2008;
63
414-434
MissingFormLabel
- 6
Fadel BM, Ellahham S, Ringel MD, Lindsay Jr J, Wartofsky L, Burman KD.
Hyperthyroid and Heart Disease.
Clin Cardiol.
2000;
23
402-408
MissingFormLabel
- 7
Morrow DH, Gaffney TE, Braunwald E.
Studies on digitalis: Effect of autonomic innervations and of myocardial catecholamine
stores upon the cardiac action of ouabain.
J Pharmacol Exp Ther.
1963;
140
236-245
MissingFormLabel
- 8
Ghule BV, Ghante MH, Saoji AN, Yeole PG.
Antihyperlipidemic effect of the methanolic extract from Lagenaria siceraria (Stand) fruit in hyperlipidemic rats.
J Ethnopharmacol.
2009;
124
333-337
MissingFormLabel
- 9
Deshpande JR, Choudhari AA, Mishra MR, Meghre VS, Wadokar SG, Dorle AK.
Beneficial effects of Lagenaria siceraria (Mol.) Standley fruit epicarp in animal models.
J Exp Biol.
2008;
46
234-242
MissingFormLabel
- 10
Dixit Y, Panda S, Kar A.
Lagenaria siceraria Peel Extract in the regulation of Hyperthyroidism, Hyperglycemia and Lipid Peroxidation
in Mice.
Int J Biomed Pharm Sci.
2008;
2
79-83
MissingFormLabel
- 11
Clausen T.
Clinical and therapeutic significance of the Na+-K+ pump.
Clin Sci.
1998;
95
3-17
MissingFormLabel
- 12
Chaudary S, Ismail-Beigi F, Grick GG, Levenson R, Edelman IS.
Effect of thyroid hormone on the abundance of Na-K-ATP-adenosine triphosphatase alpha-subunit
messenger ribonucleic acid.
Mol Endocrinol.
1987;
1
83-89
MissingFormLabel
- 13
Muller MJ, Achesson KJ, Jequir E, Burgrer AG.
Effects of thyroid hormones on oxidative and nonoxidative glucose metabolism in humans.
Am J Physiol.
1988;
18
146-152
MissingFormLabel
- 14
Iossa S, Lionetti L, Mollica M P, Crescenzo R, Barletta A, Liverini G.
Fat balance and serum leptin concentrations in normal, hypothyroid, and hyperthyroid
rats.
Int J Obes Relat Metab Disord.
2001;
25
417-425
MissingFormLabel
- 15
Lei ZH, Jin ZX, Ma YL, Tai BS, Kong Q, Yahara S, Nohara T.
Cardiac glycosides from Erysimum cheirantoides.
Phytochem.
1998;
49
1801-1803
MissingFormLabel
- 16
Panda S, Kar A.
Regulation of hyperthyroidism by R. serpentine root extract in mice.
Phram Pharmacol Commun.
2000;
6
517-520
MissingFormLabel
- 17
Li PW, Ho CS, Swaminathan R.
The chronic effects of long-term digoxin administration on Na-K-ATPase activity in
rat tissues.
Int J Cardiol.
1993;
40
95-100
MissingFormLabel
- 18
Panda S, Kar A.
Periplogenin-3-O-D-glucopyranosyl (1→6)-D-glucopyaranosyl-(14)-D-cymaropyranoside,
isolated from Aegle marmelos protects doxorubicin induced cardiovascular problems and hepatotoxicity in rats.
Cardiovasc Therapeut.
2009;
27
108-116
MissingFormLabel
- 19
Ohkawa H, Ohishi N, Yagi K.
Assays of lipid peroxides in animal tissues by thiobarbituric acid reaction.
Anal Biochem.
1979;
95
351-358
MissingFormLabel
- 20
Le Bel D, Porier GC, Beaudoin AR.
A convenient method for the ATPase assay.
Anal Biochem.
1978;
85
86-89
MissingFormLabel
- 21
Lowry OH, Rosebrough NJ, Farr AL, Randall RJ.
Protein measurement with the Folin-phenol reagent.
J Biochem.
1951;
193
265-275
MissingFormLabel
- 22
Panda S, Kar A, Patil S.
Soy sterols in the regulation of thyroid functions, glucose homeostasis and hepatic
lipid peroxidation in mice.
Food Res Internat.
2009;
42
1087-1092
MissingFormLabel
- 23
Panda S, Kar A.
Inhibition of T3 production in Levothyroxine-Treated female mice by the root extract of Convolvulus pluricaulis.
Horm Metab Res.
2001;
33
16-18
MissingFormLabel
- 24
Panda S, Kar A.
Piperine lowers the serum concentrations of thyroid hormones, glucose and hepatic
5’D activity in adult male mice.
Horm Metab Res.
2003;
35
523-526
MissingFormLabel
- 25
Allian CC, Poon LS, Chan CS, Richmond W, Fu PC.
Enzymatic determination of total serum cholesterol.
Clin Chem.
1974;
20
470-475
MissingFormLabel
- 26
Fossati P, Lorenzo P.
Serum triglycerides determination colorimetrically with an enzyme that produces hydrogen
peroxide.
Clin Chem.
1982;
28
2077-2080
MissingFormLabel
- 27
Friedwald WT, Levy RI, Fredrickson DC.
Estimation of the concentration of low density lipoprotein cholesterol in plasma without
use of the preparative ultracentrifuge.
Clin Chem.
1972;
18
499-502
MissingFormLabel
- 28
Trinder P.
Determination of blood glucose using an oxidase-peroxidase system with non-carcinogenic
chromogen.
J Clin Pathol.
1969;
22
158-161
MissingFormLabel
- 29
Yamauchi T, Yujiro M, Yasuko O.
16-Dehydroadynerigenin glycosides of Nerium odorum.
Phytochem.
1973;
12
2737-2739
MissingFormLabel
- 30
Zhang L, Xu L Z, Yang SL.
Two new cardenolides from the roots of Streptocaulon griffithii.
J Asian Nat Prod Res.
2006;
8
613-617
MissingFormLabel
- 31
Tan XG, Zhang XR, Wang MK, Peng SL, Ding LS.
Two new cardenolide glycosides from Biondia hemsleyana.
Chem Lett.
2002;
13
547-548
MissingFormLabel
- 32
Jennings AS, Crutchfield FL, Dratman MB.
Effect of hypothyroidism and hyperthyroidism on triidothyronine production in rat
liver.
Endocrinol.
1984;
114
992-997
MissingFormLabel
- 33
Panda S, Kar A.
A.squamosa seed extract in the regulation of hyperthyroidism and LPO in mice: Possible involvement
of quercetin.
Phyto Med.
2006;
14
799-805
MissingFormLabel
- 34
Panda S, Kar A.
Amelioration of L-thyroxine induced hyperthyroidism by Coumarin (1,2-Benzopyrone)
in female rats.
Clin Exp Pharmacol Physiol.
2007;
34
1217-1219
MissingFormLabel
- 35
Chopra IJ, Solomon DH, Chopra U, Wu SY, Fisher DA, Nakamura Y.
Pathways of metabolism of thyroid hormones.
Recent Prog Horm Res.
1978;
34
521-567
MissingFormLabel
- 36 Gubdjorson S, Hallgrimson J, Skuldottir G. Properties of transport adenosine triphosphatase. In: Peter H, Geshaw GA, Paoethi R (eds). Arterial pollution, New York: Plenum; 1983: 101-155
MissingFormLabel
- 37
LeGrow AB, Fielding DC, Pressley TA.
Stimulation of Na-K-ATPase by hypothyroidism in the thyroid gland.
J Endocrinol.
1999;
160
453-460
MissingFormLabel
- 38 Greenspan FS. The thyroid gland. In: Greenspan FS, Baxter JD eds, Englewood Cliffs, NewJersy: Prentice Hall International Inc; 1994: 160-226
MissingFormLabel
- 39
Cortizo AM, Chazenbalk GD, de-Gagliardino EE, Garcia ME, Pisarev MA, Gagliardino JJ.
Thyroid hormone binding and deiodination by pancreatic islets: relationship with the
in vitro effect upon insulin secretion.
Acta Endocrinol.
1987;
116
66-72
MissingFormLabel
- 40
Parmar HS, Kar A.
Antiperoxidative, antithyroidal, antihyperglycemic and cardioprotective role of Citrus sinensis peel extract in male mice.
Phytother Res 22.
2007;
22
791-795
MissingFormLabel
- 41
Duntas LH.
Thyroid disease and lipids.
Thyroid.
2002;
12
287-293
MissingFormLabel
- 42 Halliwell B, Gutteridge JMC. Free radicals in Biology and Medicine. 1st ed. Oxford: Clarendon Press; 1989: 88-276
MissingFormLabel
- 43
Araujo AS, Ribeiro MF, Enzveiler A, Schenkel P, Fernandes TR, Partata WA.
Myocardial antioxidant enzyme activities and concentration and glutathione metabolism
in experimental hyperthyroidism.
Mol Cell Endocrinol.
2006;
249
133-139
MissingFormLabel
- 44
Venditti P, Di Meo S.
Thyroid hormone-induced oxidative stress.
Cell Mol Life Sci.
2006;
63
414-434
MissingFormLabel
Correspondence
Dr. S. Panda
School of Life Sciences
D. A. University
Takhshila Campus
452017 Indore
India
Telefon: +91/731/247 7166
Fax: +91/731/246 0830
eMail: sppsunanda9@gmail.com