Association of vitamin D receptor gene with anthropometric measures in komi ethnic group

Andrey Igorevich Kozlov; Козлов Андрей Игоревич; Galina Grigoryevna Vershubskaya; Вершубская Галина Григорьевна; Yuliya Aleksandrovna Ateyeva; Атеева Юлия Александровна; Pamela Orr; Орр Памела; Linda Larcombe; Лакомб Линда

doi:10.17816/ecogen11241-49

Association of vitamin D receptor gene with anthropometric measures in komi ethnic group

Authors: Kozlov A.I.¹, Vershubskaya G.G.¹, Ateyeva Y.A.², Orr P.³, Larcombe L.³
Affiliations:
1. Moscow State University
2. Perm State Humanitarian-Pedagogical University
3. University of Manitoba
Issue: Vol 11, No 2 (2013)
Pages: 41-49
Section: Articles
URL: https://bakhtiniada.ru/ecolgenet/article/view/2457
DOI: https://doi.org/10.17816/ecogen11241-49
ID: 2457

Cite item

Full Text

Abstract
Full Text
About the authors
References
Supplementary files
Statistics

Abstract

The relationship between vitamin D receptor gene (VDR) variants with serum 25-OHD3 concentration, body height (BH), body weight (BW), and body composition were examined in Komi ethnic group. The FF genotype associates with higher BW (p=0.002), and lower bone mass (BM, p=0.06) in comparison with the Ff subjects. The BB carriers are shorter than those with Bb genotype (p=0.037); BM is lower among having bb than Bb variants (p=0.025). There were no differences in 25-OHD3 content revealed. The results are consistent with the data obtained in populations from North-Western Europe, but not in tropical and subtropical Caucasians, or in non-Caucasian groups.

Keywords

VDR, FokI, BsmI, ApaI, TaqαI, 25-OHD3, VDR, FokI, BsmI, ApaI, TaqαI, 25-hydroxyvitamin D3, 25-OHD3, body height, body mass, body composition, fat tissue, bone tissue, muscle tissue

Full Text

##article.viewOnOriginalSite##

References

Блажеевич Н. В., Спиричев В. Б., Переверзева О. Г. и др., 1983. Особенности кальций-фосфорного обмена и обеспеченности витамином D в условиях Крайнего Севера // Вопр. питания. № 1. С. 17–22.
Бунак В. В. Антропометрия. М.: Учпедгиз, 1941. 367 с.
Козлов А. И., Атеева Ю. А., 2011. Витамин D и особенности питания различных групп коми // Вестн. Моск. ун-та, сер. XXIII Антропология. № 4. С. 25–34.
Козлов А. И., Атеева Ю. А., Вершубская Г. Г., Рыжаенков В. Г., 2012. Содержание витамина D у детей школьного возраста Приуралья и Северо-Запада РФ // Педиатрия. № 1. С. 144–148.
Козлов А. И., Вершубская Г. Г., Лисицын Д. В. и др., 2009. Пермские и волжские финны: медицинская антропология в экологической перспективе. Пермь: ПГПУ, ИЛ «АрктАн-С». 160 с.
Михайлов Е. Е., Короткова Т. А., Демин Н. В., Беневоленская Л. И., 2005. Частота дефицита витамина D среди подростков московской выборки // Научно-практ. ревматол. № 1. С. 85–90.
Мякоткин В. А., Крылов М. Ю., Гусева И. А. и др., 2011. Молекулярно-генетическое тестирование предрасположенности к остеопорозу у женщин в менопаузе в Москве // Научно-практ. ревматол. № 2. С. 15–20.
Потолицына Н. Н., Бойко Е. Р., Орр П., Козлов А. И., 2010. Обеспеченность витамином D коренных жителей европейского Севера России // Вопросы питания. Т. 79. № 4. С. 63–66.
Смирнова Г. Е., Витебская А. В., Шмаков Н. А., 2010. Роль витамина D в развитии детского организма и коррекция его дефицита // Consilium medicum (Педиатрия). № 3. С. 7–12.
Тагиева А. Н., Сметник В. П., Сухих Г. Т. и др., 2005. Изучение роли генов рецептора витамина D (VDR), α-рецептора эстрогенов (ESRα) и α-1-цепи коллагена 1-го типа (COLIAI) в заболеваемости остеопорозом у женщин в постменопаузе // Мед. генетика. Т. 4. № 2. С. 90–95.
Ших Е. В., Сычев Д. А., 2007. Фармакогенетические аспекты профилактики рахитоподобных заболеваний у детей // Русс. мед. ж. Т. 15, № 6. С. 474–476.
Arabi A., Zahed L., Mahfoud Z. et al., 2009. Vitamin D receptor gene polymorphisms modulate the skeletal response to vitamin D supplementation in healthy girls // Bone. Vol. 45. N 6. P. 1091–1097.
Bakhtiyarova S., Lesnyak O., Kyznesova N. et al., 2004. Vitamin D status among patients with hip fracture and elderly control subjects in Yekaterinburg, Russia // Osteoporosis Intern. Vol. 17. N 3. P. 441–446.
Bezerra F. F., Cabello G. M. K., Mendoca L. M. C., Donangelo C. M., 2008. Bone mass and milk calcium concentration are associated with vitamin D receptor gene polymorphisms in adolescent mothers // J. Nutr. N 138. P. 277–281.
Bjorn L. O., Wang T., 2000. Vitamin D in an ecological context // Int. J. Circumpolar Health. Vol. 59. N 1. P. 26–32.
Cooper G. S., Umbach D. M., 1996. Are vitamin D receptor polymorphisms associated with bone mineral density? A meta-analysis // J. Bone Mineral Res. Vol. 11. N 12. P. 1841–1849.
d'Alesio A., Garabedian M., Sabatier J. P. et al., 2005. Two single-nucleotide polymorphisms in the human vitamin D receptor promoter change protein-DNA complex formation and are associated with height and vitamin D status in adolescent girls // Hum. Mol. Genet. Vol. 14. N 22. P. 3539–3548.
Dawson-Hughes B., Harris S., Finneran S., 1995. Calcium absorption on high and low calcium intakes in relation to vitamin D receptor genotype // J. Clin. Endocrinol. Metab. Vol. 80. P. 3657–3661.
Eccleshall T. R., Garnero P., Gross C. et al., 1998. Lack of correlation between start codon polymorphism of the vitamin D receptor gene and bone mineral density in premenopausal French women: the OFELY study // J. Bone Mineral Res. Vol. 13. N 1. P. 31–35.
Fang Y., 2005. Vitamin D receptor gene polymorphisms and bone. Erasmus Medical Center, Rotterdam, The Netherlands. 205 pp.
Fang Y., van Meurs J. B., Rivadeneira F. et al., 2007. Vitamin D receptor gene haplotype is associated with body height and bone size // J. Clin. Endocrinol. Metab. Vol. 92. N 4. P. 1491–1501.
Ferrara M., Matarese S. M. R., Francese M. et al., 2002. Effect of VDR polymorphisms on growth and bone mineral density in homozygous beta thalassaemia // Brit. J. Haematol. N 117. P. 436–440.
Frisancho A. R., 1990. Anthropometric standards for the assessment of growth and nutritional status. The University of Michigan Press, Ann Arbor. 189 pp.
Frost P., 2012. Vitamin D deficiency among northern Native Peoples: a real or apparent problem? // Int. J. Circumpolar Health. Vol. 71. Available at: http:// www.circumpolarhealthjournal.net/index.php/ijch/article/view/18001. Date accessed: 06 Oct. 2012.
Gordon C. M., DePeter K. C., Feldman H. A. et al., 2004. Prevalence of vitamin D deficiency among healthy adolescents // Arch. Pediatr. Adolesc. Med. Vol. 158. N 6. P. 531–537.
Grundberg E., Brandstrom H., Ribom E. L. et al., 2004. Genetic variation in the human vitamin D receptor is associated with muscle strength, fat mass and body weight in Swedish women // Eur. J. Endocrinol. N 150. P. 323–328.
Hayek J. E., Egeland G., Weiler H., 2010. Vitamin D status of Inuit preschoolers reflects season and vitamin D intake // J. Nutr. Vol. 140. N 10. P. 1839–1845.
Hibler E. A., Jurutka P. W., Egan J. B. et al., 2010. Association between polymorphic variation in VDR and RXRA and circulating levels of vitamin D metabolites // J. Ster. Biochem. Molec. Biol. Vol. 121. N 1–2. P. 438–441.
Hodkinson H. M., Stanton B. R., Round P., Morgan C., 1973. Sunlight, vitamin D, and osteomalacia in the elderly // Lancet. N 1. P. 910–912.
Holick M. F., 2004. Sunlight and vitamin D for bone health and prevention of autoimmune diseases, cancers, and cardiovascular disease // Am. J. Clin. Nutr. Vol. 80. P. 1678S–1688S.
Holick M. F., 2007. Vitamin D deficiency // N. Engl. J. Med. Vol. 357. P. 266–281.
Holvik K., Brunvand L., Brustad M., Meyer H. E., 2008. Vitamin D status in the Norwegian population // Solar Radiation and Human Health / Ed. E. Bjertness. Oslo: The Norwegian Academy of Science and Letters. P. 216–228.
Ji G.-R., Yao M., Sun C.-Y. et al., 2010. BsmI, TaqI, ApaI and FokI polymorphisms in the vitamin D receptor (VDR) gene and risk of fracture in Caucasians: A meta-analysis // Bone. Vol. 47. N 3. P. 681–686.
Lebrun J. B., Moffatt M. E., Mundy R. J. et al., 1993. Vitamin D deficiency in a Manitoba community // Can. J. Public. Health. Vol. 84. N 6. P. 394–396.
Lips P., Duong T., Oleksik A. et al., 2001. A global study of vitamin D status and parathyroid function in postmenopausal women with osteoporosis: baseline data from the multiple outcomes of raloxifene evaluation clinical trial // J. Clin. Endocrinol. Metab. Vol. 86. N 3. P. 1212–1221.
Matiegka J., 1921. The testing of physical efficiency // Am. J. Phys. Anthropol. Vol. 4. N 3. P. 223–233.
McKenna M. J., 1992. Differences in vitamin D status between countries in young adults and the elderly // Am. J. Med. Vol. 93. N 1. P. 69–77.
Minamitani K., Takahashi Y., Minagawa M. et al., 1998. Difference in height associated with a translation start site polymorphism in the vitamin D receptor gene // Pediatric Res. Vol. 44. P. 628–632.
Morrison N. A., Qi J. C., Tokita A. et al., 1994. Prediction of bone density from vitamin D receptor alleles // Nature. Vol. 367. N 6460. P. 284–287.
Nelson D. A., Vande Vord P. J., Wooley P. H., 2000. Polymorphism in the vitamin D receptor gene and bone mass in African-American and white mothers and children: a preliminary report // Ann. Rheum. Dis. Vol. 59. N 8. P. 626–630.
Ozaydin E., Dayangac-Erden D., Erdem-Yurter H. et al., 2010. The relationship between vitamin D receptor gene polymorphisms and bone density, osteocalcin level and growth in adolescents // J. Pediatr. Endocrinol. Metab. Vol. 23. N 5. 491–496.
Preece M. A., Tomlinson S., Sibot C. A., Pietrek J. et al., 1975. Studies of vitamin D deficiency in man // Q. J. Med. Vol. 44. P. 575–580.
Rejnmark L., Jørgensen M. E., Pedersen M. B. et al., 2004. Vitamin D insufficiency in Greenlanders on a westernized fare: ethnic differences in calcitropic hormones between Greenlanders and Danes // Calcif. Tissue Int. Vol. 74. N 3. P. 255–263.
Remes T., Vaisanen S. B., Mahonen A. et al., 2005. Bone mineral density, body height, and vitamin D receptor gene polymorphism in middle-aged men // Ann. Med. Vol. 37. N 5. P. 383–92.
Roth D. E., Martz P., Yeo R. et al., 2005. Are national vitamin D guidelines sufficient to maintain adequate blood levels in children? // Can. J. Public Health. Vol. 96. N 6. P. 443–449.
Sainz J., Van Tornout J. M., Loro M. L. et al., 1997. Vitamin D-receptor gene polymorphisms and bone density in prepubertal American girls of Mexican descent // N. Engl. J. Med. Vol. 337. N 2. P. 77–82.
Selvaraj P., Chandra G., Jawahar M. S. et al., 2004. Regulatory role of vitamin D receptor gene variants of Bsm I, Apa I, Taq I, and Fok I polymorphisms on macrophage phagocytosis and lymphoproliferative response to mycobacterium tuberculosis antigen in pulmonary tuberculosis // J. Clin. Immunol. Vol. 24. N 5. P. 523–32.
Suarez F., Zeghoud F., Rossignol C. et al., 1997. Association between vitamin D receptor gene polymorphism and sex-dependent growth during the first two years of life // J. Clin. Endocrinol. Metab. Vol. 82. N 9. P. 2966–2970.
Tao C., Yu T., Garnett S. et al., 1998. Vitamin D receptor alleles predict growth and bone density in girls // Arch. Dis. Child. Vol. 79. P. 488–494.
Todhunter C. E., Sutherland-Craggs A., Bartram S. A. et al., 2005. Influence of IL-6, COL1A1, and VDR gene polymorphisms on bone mineral density in Crohn’s disease // Gut Vol. 54. P. 1579–1584.
Uitterlinden A. G, Fang Y., van Meurs J. B. J. et al. Genetics and biology of vitamin D receptor polymorphisms: Review // Gene. Vol. 338. P. 143–156.
Viitanen A.-M., Kärkkäinen M., Laitinen K. et al. Common polymorphism of the vitamin D receptor gene is associated with variation of peak bone mass in young Finns // Calcif. Tiss. Intern. Vol. 59. N 4. P. 231–234.
Viskari H., Kondrashova A., Koskela P. et al., 2006. Circulating vitamin D concentrations in two neighboring populations with markedly different incidence of type I diabetes // Diabetes Care. Vol. 29. N 6. P. 1458–1459.
Vupputuri M. R., Goswami R., Gupta N. et al., 2006. Prevalence and functional significance of 25-hydroxyvitamin D deficiency and vitamin D receptor gene polymorphisms in Asian Indians // Am. J. Clin. Nutr. Vol. 83. N 6. 1411–1419.
Webb A. R., Kline L., Holick M. F., 1988. Influence of season and latitude on the cutaneous synthesis of vitamin D3: exposure to winter sunlight in Boston and Edmonton will not promote vitamin D3 synthesis in human skin // J. Clin. Endocrinol. Metab. Vol. 67. P. 373–378.
Weiler H. A., Leslie W. D., Krahn J. et al., 2007. Canadian Aboriginal women have a higher prevalence of vitamin D deficiency than non-Aboriginal women despite similar dietary vitamin D intakes // J. Nutr. Vol. 137. N 2. P. 461–465.
Ye W.-Z., Reis A. F., Dubois-Laforge D. et al., 2001. Vitamin D receptor gene polymorphisms are associated with obesity in type 2 diabetic subjects with early age of onset // Eur. J. Endocrinol. Vol. 145. P. 181–186.
Zmuda J. M., Cauley J. A., Danielson M. E. et al., 1997. Vitamin D receptor gene polymorphisms, bone turnover, and rates of bone loss in older African-American women // J. Bone Mineral Res. Vol. 12. N 9. P. 1446–1452.

Supplementary files

Supplementary Files

Action

1. JATS XML

Download

Username
Password
Remember me

Forgot password?	Register

Username
Password
Remember me

Forgot password?	Register

Association of vitamin D receptor gene with anthropometric measures in komi ethnic group

Full Text

Abstract

Keywords

Full Text

About the authors

Andrey Igorevich Kozlov

Galina Grigoryevna Vershubskaya

Yuliya Aleksandrovna Ateyeva

Pamela Orr

Linda Larcombe

References

Supplementary files