Сосудистая дисфункция и периадвентициальная жировая ткань

К настоящему времени расшифрованы основные механизмы регуляции сосудистого тонуса. Считается, в частности, что жировая ткань, окружающая сосуды, служит источником ADRF (adipocyte-derived relaxing factor). Важно отметить, что именно локальные паракринные расстройства могут стать причиной сосудистой дисфункции. Наиболее вероятным кандидатом на роль ADRF называют сероводород (H₂S). На экспериментальных моделях ожирения, артериальной гипертонии и метаболического синдрома доказано наличие и других соединений, участвующих в периадвентициальной регуляции сосудистого тонуса посредством влияния на калиевые каналы клеточных мембран. Вазоактивные структуры жировых клеток или их рецепторы могут оказаться перспективными мишенями для разработки новых сердечно-сосудистых препаратов.

индекс массы тела, жировые клетки, вазоактивные факторы, сероводород

1. Adams K.F., Schatzkin A., Harris T.B. [et al.]. Overweight, obesity, and mortality in a large prospective cohort of persons 50 to 71 years old // N. Engl. J. Med. 2006. Vol. 355. P. 763-778.

2. Agabiti-Rosei C., De Ciuceis C., Rossini C. [et al.]. Anticontractile activity of perivascular fat in obese mice and the effect of long-term treatment with melatonin // J. Hypert. 2014. Vol. 32. P. 1264-1274.

3. Engeli S. Is there a pathophysiological role for perivascular adipocytes? // Am. J. Physiol. Heart Circ. Physiol. 2005. Vol. 289. P. H1794-1795.

4. Fesus G., Dubrovska G., Gorzelniak K. [et al.]. Adiponectin is a novel humoral vasodilator // Cardiovasc. Res. 2007. Vol. 75. P. 719-727.

5. Galic S., Oakhill J.S., Steinberg G.R. Adipose tissue as an endocrine organ // Mol. Cell Endocrinol. 2010. Vol. 316. P. 129-139.

6. Galvez B., de Castro J., Herold D. [et al.]. Perivascular adipose tissue and mesenteric vascular function in spontaneously hypertensive rats // Arteriosclerosis, Thrombosis, and Vascular Biology. 2006. Vol. 26. P. 1297-1302.

7. Galvez-Prieto B., Dubrovska G., Cano M.V [et al.]. A reduction in the amount and anti-contractile effect of periadventitial mesenteric adipose tissue precedes hypertension development in spontaneously hypertensive rats // Hypertension research. 2008. Vol. 31. P. 1415-1423.

8. Gao Y.J., Zeng Z.H., Teoh K. [et al.]. Perivascular adipose tissue modulates vascular function in the human internal thoracic artery // J. Thorac. Cardiovasc. Surg. 2005. Vol. 130. P. 1130-1136.

9. Gil-Ortega M., Somoza B., Huang Y. [et al.]. Regional differences in perivascular adipose tissue impacting vascular homeostasis // TEM. 2015. Vol. 26, No. 7. P. 367-375.

10. Gollasch M., Dubrovska G. Paracrine role for periadventitial adipose tissue in the regulation of arterial tone // Trends in Pharmacological Sciences. 2004. Vol. 25. P. 647-653.

11. Gollasch M. KCNQ channels and novel insights into coronary perfusion // Hypertension. 2013. Vol. 62. P. 1011-1012.

12. Gollasch M. Vasodilator signals from perivascular adipose tissue // Br. J. Pharmacol. 2012. Vol. 165. P. 633-642.

13. Greenstein A.S., Khavandi K., Withers S.B. [et al.]. Local inflammation and hypoxia abolish the protective anticontractile properties of perivascular fat in obese patients // Circulation. 2009. Vol. 119. P. 1661-1670.

14. Kenchaiah S., Evans J.C., Levy D. [et al.]. Obesity and the risk of heart failure // N. Engl. J. Med. 2002. Vol. 347. P. 305-313.

15. Kohn C., Dubrovska G., Huang Y. Gollasch M. Hydrogen sulfide: potent regulator of vascular tone and stimulator of angiogenesis // Int. J. Biomed. Science. 2012. Vol. 8. P. 81-86.

16. Kohn C., Schleifenbaum J., Szijarto I.A. [et al.]. Differential effects of cystathionine-gamma-lyase-dependent vasodilatory H2S in periadventitial vasoregulation of rat and mouse aortas // PloS one. 2012. Vol. 7. P. e41951.

17. Lee R.M., Lu C., Su L.Y., Gao Y.J. Endothelium-dependent relax ation factor released by perivascular adipose tissue // J. Hypertens. 2009. Vol. 27. P. 782-790.

18. Lee Y.C., Chang H.H., Chiang C.L. [et al.]. Role of perivascular adipose tissue-derived methyl palmitate in vascular tone regulation and pathogenesis ofhypertension // Circulation. 2011. Vol. 124. P. 1160-1171.

19. Lohn M., Dubrovska G., Lauterbach B. [et al.]. Periadventitial fat releases a vascular relaxing factor // FASEB. 2002. Vol. 16. P. 1057-1063.

20. Lynch F.M., Withers S.B., Yao Z. [et al.]. Perivascular adipose tissue-derived adiponectin activates BK(Ca) channels to induce anticontractile responses // Am. J. Physiol. Heart Circulatory Physiol. 2013. Vol. 304. P. H786-795.

21. Malinowski M., Deja M.A., Janusiewicz P. [et al.]. Mechanisms of vasodilatatory effect of perivascular tissue of human internal thoracic artery // Journal of Physiology and Pharmacology. 2013. Vol. 64. P. 309-316.

22. Mensink G.B., Lampert T., Bergmann E. Overweight and obesity in Germany 1984-2003 // Bundesgesundheitsblatt Gesundheitsforschung Gesundheitsschutz. 2005. Vol. 48. P. 1348-1356.

23. Schleifenbaum J., Kassmann M., Szijarto I.A. [et al.]. Stretch-activation of angiotensin II type 1a receptors contributes to the myogenic response of mouse mesenteric and renal arteries // Circulation Research. 2014. Vol. 115. P. 263-272.

24. Schleifenbaum J., Kohn C., Voblova N. [et al.]. Systemic peripheral artery relaxation by KCNQ channel openers and hydrogen sulfide // J. Hypertension. 2010. Vol. 28. P. 1875-1882.

25. Stewart S.T., Cutler D.M., Rosen A.B. Forecasting the effects of obesity and smoking on U.S. life expectancy // N. Engl. J. Med. 2009. Vol. 361. P. 2252-2260.

26. Tano J.Y., Schleifenbaum J., Gollasch M. Perivascular adipose tissue, potassium channels, and vascular dysfunction // Arteriosclerosis, Thrombosis, and Vascular Biology. 2014. Vol. 34. P. 1827-1830.

27. Verlohren S., Dubrovska G., Tsang S.Y. [et al.]. Visceral periadventitial adipose tissue regulates arterial tone of mesenteric arteries // Hypertension. 2004. Vol. 44. P. 271-276.

28. Weston A.H., Egner I., Dong Y. [et al.]. Stimulated release of a hyperpolarizing factor (ADHF) from mesenteric artery perivascular adipose tissue: involvement of myocyte BKCa channels and adiponectin // Br. J. Pharmacol. 2013. Vol. 169. P. 1500-1509.

29. Wilson P.W., D'Agostino R.B., Sullivan L. [et al.]. Overweight and obesity as determinants of cardiovascular risk: the Framingham experience // Arch. Intern. Med. 2002. Vol. 162. P. 1867-1872.

30. Zavaritskaya O., Zhuravleva N., Schleifenbaum J. [et al.]. Role of KCNQ channels in skeletal muscle arteries and periadventitial vascular dysfunction // Hypertension. 2013. Vol. 61. P. 151-159.