Palm vitamin E is comparable to α-tocopherol in maintaining bone mineral density in ovariectomised female rats

M. Norazlina; S. Ima-Nirwana; M. T. Gapor; B. A. K. Khalid

doi:10.1055/s-2000-7758

Experimental and Clinical Endocrinology & Diabetes, Table of Contents

Exp Clin Endocrinol Diabetes 2000; Vol. 108(4): 305-310
DOI: 10.1055/s-2000-7758

Articles

Palm vitamin E is comparable to α-tocopherol in maintaining bone mineral density in ovariectomised female rats

M. Norazlina ¹ , S. Ima-Nirwana ¹ , M. T. Gapor ³ , B. A. K. Khalid ²

¹ Department of Pharmacology, Faculty of Medicine, Universiti Kebangsaan, Malaysia
² Department of Medicine, Faculty of Medicine, Universiti Kebangsaan, Malaysia
³ Palm Oil Research Institute of Malaysia, Kuala Lumpur, Malaysia

Abstract

Summary:

Vitamin E has been shown to affect bone metabolism. In this study we determined the effects of palm vitamin E and α-tocopherol on bone metabolism. Sprague-Dawley female rats fed with normal rat chow were divided into 4 groups and supplemented with either palm vitamin E 30 mg/kg rat weight, palm vitamin E 60 mg/kg rat weight or α-tocopherol 30 mg/kg rat weight. One group was not supplemented. Half of these rats were ovariectomised before supplementation was given for 10 months. As expected, bone mineral density of the ovariectomised rats fed on normal rat chow diet was lower compared to the intact rats. However, these changes were not seen in the supplemented group of rats. Both intact and ovariectomised rats supplemented with palm vitamin E 30 mg/kg rat weight had a lower bone calcium content in both femoral and vertebral bones whilst rats fed palm vitamin E 60 mg/kg rat weight or α-tocopherol 30 mg/kg rat weight were able to maintain bone calcium content. Alkaline phosphatase activity was elevated in ovariectomised rats supplemented with palm vitamin E 30 mg/kg rat weight and α-tocopherol 30 mg/kg rat weight compared to the intact rats. Alpha-tocopherol also reduced the activity of tartrate-resistant acid phosphatase post-ovariectomy. These findings indicate that both palm vitamin E and α-tocopherol maintained bone mineral density in ovariectomised rats but caused conflicting effects on bone calcium content. Further study is needed in order to determine the mechanisms involved.

Key words:

Vitamin E - bone mineral density - ovariectomy - rats

Full Text

References

1 Asma H. The effects of different types of palm oil on plasma lipid profile and erythrocyte anti-oxidant activity. Thesis (Hons), Universiti Kebangsaan Malaysia 58 1996
2 Bodine P V, Harris H A, Komm B S. Suppression of ligand-dependent estrogen receptor activity by bone-resorbing cytokines in human osteoblasts. Endocrinol.. 140 2439-2451 1999;
3 Delmas P D. Biochemical markers for the assessment of bone turnover. In: Riggs BL, Melton LJ (eds) Osteoporosis: Etiology, diagnosis and management, 2nd edn pp. 319-333 Lippincott-Raven Publishers, Philadelphia 1995
4 Elson C E. Tropical oils: Nutritional and scientific issues. Critical Rev Food Sci Nutr. 31 79-102 1992;
5 Flescher E, Tripoli H, Salnikow K, Burns F J. Oxidative stress suppresses transcription factor activities in stimulated lymphocytes. Clin. Exp. Immunol.. 112 242-247 1998;
6 Garrett I R, Boyce B F, Oreffo R OC, Bonewald L, Poser J, Mundy G R. Oxygen-derived free radicals stimulate osteoclastic bone resorption in rodent bone in vitro and in vivo. J Clin Invest. 85 632-639 1990;
7 Gilsanz V, Boechat M I, Gilsanz R, Loro M L, Roe T F, Goodman W G. Gender differences in vertebral sizes in adults: biomechanical implications. Radiology. 190 678-682 1994;
8 Goh S H, Hew N F, Norhanom A W, Yadav M. Inhibition of tumour promotion by various palm-oil tocotrienols. Int J Cancer. 57 529-531 1994;
9 Griffin M G, Kimble R, Hopfer W, Pacifici R. Dual-energy X-ray absorptiometry of the rat: accuracy, precision, and measurement of bone loss. J Bone Mineral Res. 8 795-800 1993;
10 Imai T, Omoto M, Seki K, Harada T. The effects of long-term intake of restricted calcium, vitamin D, and vitamin E and cadmium added diets on various organs and bones of mice: a histological and the roentgenological study. Nippon Eiseigaku Zasshi. 50 660-682 1995;
11 Ima-Nirwana S, Norazlina M, Khalid B AK. Pattern of bone mineral density in growing male and female rats after gonadectomy. J ASEAN Fed Endoc Soc. 16 21-36 1998;
12 Kalu D N, Liu C C, Hardin R R, Hollis B W. The aged rat model of ovarian hormone deficiency bone loss. Endocrinology. 124 7-16 1989;
13 Melhus H, Michaelsson K, Holmberg L, Wolk A, Ljunghall S. Smoking, antioxidant vitamins, and the risk of hip fracture. J Bone Mineral. Res.. 14 129-135 1999;
14 Miwa K, Miyagi Y, Igawa A, Nakagawa K, Inoue H. Vitamin E deficiency in variant angina. Circulation. 94 14-18 1996;
15 Moreau M F, Chappard D, Lesourd M, Montheard J P, Basle M F. Free radicals and side products released during methylmethacrylate polymerization are cytotoxic for osteoblastic cells. J Biomedical Materials Research. 40 124-131 1998;
16 Mosekilde L, Mosekulde L. Sex differences in age-related changes in vertebral body size, density and biomechanical competence in normal individuals. Bone. 11 67-73 1990;
17 Nesarethnam K, Stephen R, Dils R, Darbre P. Tocotrienols inhibits the growth of human breast cancer cells irrespective of estrogen receptor status. Lipids. 33 461-469 1998;
18 Omi N, Ezawa I. The effect of ovariectomy on bone metabolism in rats. Bone. 17 163S-168S 1995;
19 Ozer N K, Sirikci O, Taha S, San T, Moser U, Azzi A. Effect of vitamin E and probucol on dietary cholesterol-induced atherosclerosis in rabbits. Free Radic Biol Med. 24 226-233 1998;
20 Packer L. Protective role of vitamin E in biological systems. Am J Clin Nutr. 53 1050S-1055S 1991;
21 Passeri M, Provvedini D. Vitamin E in geriatric physiopathology. Acta Vitaminol Enzymol. 5 53-63 1983;
22 Rifici V A, Khachadurian A K. The inhibition of low-density lipoprotein oxidation by 17-beta estradiol. Metabolism: Clinical & Experimental. 41 1110-1114 1992;
23 Sarma U, Edwards M, Motoyoshi K, Flanagan A M. Inhibition of bone resorption by 17 beta-estradiol in human bone marrow cultures. J Cell Physiol. 175 99-108 1998;
24 Subbiah M T, Kessel B, Agrawal M, Rajan R, Abplanalp W, Rymaszewski Z. Antioxidant potential of specific estrogens on lipid peroxidation. J Clin Endocrinol Metabolism. 77 1095-1097 1993;
25 Suda N. Role of free radicals in bone resorption. Kokubyo Gakkai Zasshi. 58 603-612 1991;
26 Tanyel M C, Mancano L D. Neurologic findings in vitamin E deficiency. Am Fam Physician. 55 197-201 1997;
27 Tomeo A, Geller M, Watkins T R, Gapor A, Bierenbaum M L. Antioxidant effects of tocotrienols in patients with hyperlipidemia and carotid stenosis. Lipids. 30 1179-1183 1995;
28 Xu H, Watkins B A, Seifert M F. Vitamin E stimulates trabecular bone formation and alters epiphyseal cartilage morphometry. Calcif Tissue Int. 57 293-300 1995;
29 Yee J K, Ima-Nirwana S. Palm vitamin E protects against ferric nitrilotriacetate-induced impairment of bone calcification. Asia Pacific J Pharmacology. 13 1-7 1998;

1 Ovx = ovariectomised; L3-L5 = 3^rd lumbar to 5^th lumbar vertebrae; L4 = 4^th lumbar vertebra; RC = normal rat chow; PVE30 = palm vitamin E 30 mg/kg rat weight; PVE60 = palm vitamin E 60 mg/kg rat weight; ATF = α-tocopherol 30 mg/kg rat weigh; * indicate significant difference between the intact and ovariectomised group of rats (p < 0.05)

2 Ovx = ovariectomised; L3-L5 = 3^rd lumbar to 5^th lumbar vertebrae; L4 = 4^th lumbar vertebra; RC = normal rat chow; PVE30 = palm vitamin E 30 mg/kg rat weight; PVE60 = palm vitamin E 60 mg/kg rat weight; ATF = α-tocopherol 30 mg/kg rat weight; Groups which share the common alphabet indicate significant difference (p < 0.05)

3 Ovx = ovariectomised; L3-L5 = 3^rd lumbar to 5^th lumbar vertebrae; L4 = 4^th lumbar vertebra; RC = normal rat chow; PVE30 = palm vitamin E 30 mg/kg rat weight; PVE60 = palm vitamin E 60 mg/kg rat weight; ATF = α-tocopherol 30 mg/kg rat weight; Groups which share the common alphabet indicate significant difference (p < 0.05). **,* indicate significant difference between the intact and ovariectomised group of rats (p < 0.01 and p < 0.05 respectively) ALP = alkaline phosphatase; TRAP = tartrate-resistant acid phosphatase

Assoc. Prof. Dr. Ima Nirwana Soelaiman

Department of Pharmacology

Faculty of Medicine

Universiti Kebangsaan Malaysia

Jln. Raja Muda Abdul Aziz

50300 Kuala Lumpur

Malaysia

Phone: 6 03-4 40 55 14

Fax: 6 03-2 93 82 05

Email: imasoel@pksun5.medic.ukm.my