Hydrolases of the digestive glands in human sweat

The sweat eccrine and apocrine glands of human skin secrete many functionally significant substances, including hydrolytic enzymes, onto its surface through the mechanisms of secretion, excretion and recruitment. Shown is their recreational origin as a secretory product of the digestive glands—pepsinogen by the stomach glands, α-amylase—by the pancreas. Hydrolases in the epidermal barrier of the skin provide hydrolysis of proteins, carbohydrates and fats have antibacterial, antiviral and antidehydration eff ects. The functional role and importance of digestive gland hydrolases in the sweat of human skin requires special research.

1. Myadel O.D., Alaskevich V. P. Morphofunctional dermatology. Moscow. Medical literature Publ., 2006. 740 p. (in Russ.)

2. Shubnikova E. A. Epithelial tissue. Moscow State University Publ, 1966. 256 p. (in Russ.)

3. Gotze H., Rothman S. S. Enteropancreatic circulation of digestive enzyme as a conservation mechanism. Nature, 1975;257(5527): 607-609.

4. Henrich H., Gabbe E.E, Briiggeman L. et al. Enteropancreatic circulation of tripsin in men. Klin. Wschr, 1979;57(23):1295-1297.

5. Shubnikova E.A., Korotko G. F.. Secretion of the glands. Essays. Traditional and non-traditional aspects. Moscow. Moscow State University Publ. 1986. 129 p.

6. Ugolev, A. M. Evolution of digestion and principles of evolution of functions, elements of modern functionalism. Nauka Publ., 1985. 544 p.

7. Hirschowitz B. I. Pepsinogen in the blood. J. Lab. Clin. Med. 1955;46(4):568-579.

8. Ugolev A.M., Iezuitova N. N., Mesevich Ts.G., et al. Research of the digestive apparatus in humans (review of modern methods). Nauka Publ., 1969. 216 p.

9. Korotko G. F. Uropepsinogen. Tashkent. Medicine Publ., 1974. 116 p.

10. Kamakin N. F. About extrarenal secretion of pepsinogen incremented by the stomach. Tashkent, 1968.

11. Abdurakhmanov Kh. Kh., Kamakin N. F., Korotko G. F. Excretion of pepsinogen, amylase and alkaline phosphatase by the human sweat glands. Fiziol. J. USSR. 1975; 61(9): 1421-1427.

12. Salakhutdinov Kh.K., Karimov A. M. Relationship between the release of pepsinogen by the sweat glands and the state of the skin vessels in acute cerebrovascular accidents. Enzymesecreting activity of the stomach in health and disease. Tashkent. Medicine Publ., 1971, pp. 70-71.

13. Nerovnyy V. M. Release of hydrolytic enzymes by sweat glands in school-age children. Tashkent. 1980.

14. Pleshakov A.A. gastric secretion in athletes. Yaroslavl, 1974.

15. Kuznetsov A.P. relationship between secretion and excretion of pepsinogen under conditions of muscle activity. Abstract of the thesis. Yaro-Slavl, 1975.

16. Ognev A. A. Gastric secretion in adolescent and adult road cyclists. Author’s abstract. Tashkent. 1981.

17. Korotko G. F. Enzymes of the digestive glands in the blood: (essays on enzymatic homeostasis). Tashkent. Medicine, 1983. 212 p.

18. Korotko G. F. Recirculation of enzymes of the digestive glands. Krasnodar. Publishing house “EDVI”. 2011. 144 p.

19. Abdurakhmanov Kh. Kh. Isolation of pepsinogen, amylase and alkaline phosphatase by human sweat glands. Author’s abstract. Tashkent, 1974.

20. Karimov A. M. Study of the release of certain enzymes in sweat in acute circulatory disorders. - Author’s abstract. Tashkent, 1972.

21. Isenman L.D., Rothman S. S. Transpancreatic transport of digestive enzyme. Biohim, biophys. Acta, 1979;585(3): 321-332.

22. Johnson S. G., Levitt M. D. Relation Between Serum Pancreatic Exocrine Function. Am. J. dig. Dis., 1978;23(10):914-918.

23. Johnson S.G., Ellis C. J., Levitt M. D. Mechanizm of increased renal clearance of amylase creatinine in acuta pancreatitis. New Engl. J. Med., 1976;295(22): 1214-1217.

24. Levitt M.D., Ellis C. J., Myrhy S. M., Schwartz M. L. Study of the possible enteropancreatic circulation of pancreanic circulation amylase in the dog J. Phisiol. (Gastrointest., Liver Physiol. 4). 1981;241(4):54-58.

25. Liebow C., Rothman S. Enteropancreanic circulation of digestive enzymes. Science. 1975;189:472-474.

26. Rothman S. S. The digestive enzymes of the pancreas: a mixture of inconstant proportions. Ann. Rev. Phisiol. 1977;39: 373-389.

27. Rothman S. S. Passage of proteins through membranes-old assumptions and new perspectives. Am. J. Physiol. 1980;238: 391-402.

28. Rothman S., Liebow C., Isenman L. C. Conservation of digestive enzymes. Physiol. Rev. 2002;82: 1-18.

29. Korotko G. F. Postprandial pancreatic secretion. Krasnodar. Publishing house “EDVI”, 2017. 116 p.

30. Korotko G. F. Postprandial secretion of the pancreas. Journal of fundamental medicine and biology. 2016, No. 2, pp. 4-15.

31. Korotko G. F. Recreation of enzymes and hormones by exocrine glands. Advances in physiological sciences. 2003;34(2): 21-32.

32. Korotko G. F. Secretion of the salivary glands and elements of salivadiagnostics. Moscow. ID Academy of Natural Sciences Publ. 2006. 192 p.

33. Korotko G.F., Sukhoterin V. G. The stimulating effect of trypsinogen on the enzyme-secreting activity of the stomach glands. Fiziol. j USSR. 1979; 64(3): 449-455.

34. Inamova K. B. Amylase and lipase in the secretion of the pyloric and fundal glands and the possibility of their recreational origin. Auto-ref. Tashkent. 1970.

35. Korotko G.F., Pulatov A. S. Dependence of the amylolytic activity of the small intestine on the amylolytic activity of the blood. Fiziol. J USSR, 1977;63(8):1180-1187.

36. Korotko G.F., Kurzanov A. N. Isolation of amylase and lipase in bile. Fiziol. J USSR. 1978;64(1): 81-89.

37. Korotko G. F. Lactotrophy of infants from the perspective of digestiology. Active speech. Krasnodar. Publishing house «EDVI», 2018. 56 p.