MESOTHELIUM OF PLEURA AT INJURY AND NEOGENESIS WAYS (REVIEW)

The morphofunctional state of mesothelium allows to evaluate its regenerative ability. Mesothelial cells and extracellular matrix play a regulatory role in the compensatory-adaptive reactions of the pleural cavity. Mesothelial cells at pleural injury lose their inter-cell connections, are separated, take the morphology of fibroblasts and cover the surface of pleura. Mesotheliocytes create numerous factors and cytokines mobilizing the movement of inflammatory cells into the pleural cavity. The inflammation of the pleura can take a chronic course: there happens granulation scarring, fibrinogenous layers are subject to organization on the surface of the lung and on the parietal pleura. In the end, there is a thick, rigid wall of the residual cavity created, scarry walls, pneumosclerosis and pneumocirrhosis of the adjacent part of the lung are formed. The reaction of pleura mesothelium after the injury is a multiple-factor process under which there can be coagulation, the formation of adhesions with the development of fibrosis and a subsequent obliteration of the pleural cavity.

mesothelium, mesothelial injury, neogenesis, an acute and chronic inflammation, pleurodesis, adhesions

1. Роль инвазивных методов в диагностике и лечении плевритов / Н.В.Власова [и др.] // Клин. микробиол. и антимикроб. химиотер. 2003. Т.5. Приложение. С.14.

2. Глотов В.А. Клеточная и тканевая инженерия эндотелия. Формирование в культуре эндотелия in vitro функционирующих саморазвивающихся капиллярных сетей. Экспериментальные подходы // Математическая морфология: электронный математический и медико-биологический журнал. 1997. Т.2, №1. С.23-58..

3. Данциг И.И., Скибский И.М., Левин Н.Ф. Современная клинико-морфологическая характеристика острых гнойно-деструктивных заболеваний легких // Пульмонология. 2000. №2. С.19-22.

4. Кабанов А.Н., Ситко Л.А. Лечение эмпиемы плевры // Грудн. хир. 1985. №4. С.27-31.

5. Гистофизиология легких крыс при холодовом воздействии на фоне введения арабиногалактана / О.Н.Ли [и др.] // Бюл. физиол. и патол. дыхания. 2011. Вып.39. С.40-42.

6. Неверов А.Н., Третьяков А.А., Стадников А.А. Микробиологические и морфофункциональные аспекты применения споробактерина в лечебной коррекции острой эмпиемы плевры // Вестн. ОГУ. 2006. №6. C.132-138.

7. Самсонов К.В. Местная детоксикация в лечении острой эмпиемы плевры // Бюл. физиол. и патол. дыхания. 2007. Вып.27. С.36-37.

8. Самсонов К.В. Объемная скорость лимфотока как показатель эндотоксикоза при гнойно-некротических заболеваниях легких и плевры в условиях эксперимента на животных // Бюл. физиол. и патол. дыхания. 2011. Вып.39. С.43-45.

9. Цеймах Е. А. Лечение острых эмпием плевры и пиопневмоторакса // Грудн. и серд.-сосуд. хир. 1999. №1. С.51-54.

10. Чучалин А. Г. Плевра: патофизиологические и клинические аспекты // Тер. арх. 1999. №3. C.5-9.

11. Локальное лечение острой эмпиемы плевры и пиопневмоторакса / Я.Н.Шойхет [и др.] // Пульмонология. 2002. №3. С.47-51.

12. Agostoni E., D'angelo E. Thickness and pressure of the pleural liquid at various heights and with various hydrothoraces // Respir. Physiol. 1969. Vol.6, №3. P.330-342.

13. Agostoni E. Mechanics of the pleural space // Physiol. Rev. 1972. Vol.52, №1. P.57-128.

14. Pleural mesothelial cell expression of C-C (monocyte chemotactic peptide) and C-X-C (interleukin-8) chemokines /Antony V.B. [et al.] // Am. J. Respir. Cell Mol. Biol. 1995. Vol. 12, №6. P.581-588.

15. Baer A.N., Green F.A. Cyclooxygenase activity of cultured human mesothelial cells // Prostaglandins. 1993. Vol.46, №1. P.37-49.

16. Bakalos D., Constantakis N., Tsicricas T. Distinction of mononuclear macrophages from mesothelial cells in pleural and peritoneal effusions. // Acta Cytol. 1974. Vol. 18, №1. P.20-22.

17. Long-term pulmonary responses of three laboratory rodent species to subchronic inhalation of pigmentary titanium dioxide particles / E.Bermudez [et al.] // Toxicol. Sci. 2002. Vol.70, №1. P.86-97.

18. Pulmonary responses of mice, rats, and hamsters to subchronic inhalation of ultrafine titanium dioxide particles / E.Bermudez [et al.] // Toxicol. Sci. 2004. Vol. 77, №2. P. 347-57.

19. Cho W.S., Chae C. Expression of сyclooxygenase-2 in swine naturally infected with Actinobacillus pleuropneumoniae // Vet. Pathol. 2003. Vol.40, №1. P.25-31.

20. Craighead J.E. Current pathogenetic concepts of diffuse malignant mesothelioma // Hum. Pathol. 1987. Vol.18, №6. P.544-557.

21. Efrati P., Nir E. Morphological and cytochemical investigation of human mesothelial cells from pleural and peritoneal effusions: а light and electron microscopy study // Isr. J. Med. Sci. 1976. Vol.12, №7. P.662-673.

22. Effects of subchronically inhaled carbon black in three species. I. Retention kinetics, lung inflammation, and histopathology / A.Elder [et al.] // Toxicol. Sci. 2005. Vol.88, №2. Р.614-629.

23. Pleural lesions in Syrian Golden hamsters and Fischer-344 rats following intrapleural instillation of man-made ceramic or glass fibers / J.I.Everitt [et al.] // Toxicol. Pathol. 1994. Vol.22, №3. P.229-236.

24. Comparison of pleural responses of rats and hamsters to subchronic inhalation of refractory ceramic fibers / J.I.Everitt [et al.] // Environ. Health Perspect. 1997. Vol. 105. Suppl.5. P.1209-13.

25. Studies on the morphological patterns of asbestos induced mesotheliomas in vivo and in vitro / I.P.Gormley [et al.] // Carcinogenesis. 1980. Vol.1, №3. P.219-231.

26. Hardej D., Billack B. Ebselen protects brain, skin, lung and blood cells from mechlorethamine toxicity // Toxicol. Ind. Health. 2007. Vol.23, №4. P.209-221.

27. Herrick S.E., Mutsaers S.E. Mesothelial progenitor cells and their potential in tissue engineering // Int. J. Biochem. Cell Biol. 2004. Vol.36, №4. Р.621-642.

28. Herbert A., Gallagher P.J. Pleural biopsy in the diagnosis of malignant mesothelioma <http://www.ncbi.nlm.nih.gov/pubmed/7163999> // Thorax. 1982. Vol.37, №11. Р.816-821.

29. Hill R.J., Edwards R.E., Carthew P. Early changes in the pleural mesothelium following intrapleural inoculation of the mineral fibre erionite and subsequent development of mesotheliomas // J. Exp. Pathol. (Oxford) <http://www.ncbi.nlm.nih.gov/pubmed/2155636> 1990. Vol.71, №1. P.105-118.

30. Pathways of fibrin turnover of human pleural mesothelial cells in vitro / S.Idell [et al.] // Am. J. Respir. Cell Mol. Biol. 1992. Vol.7, №4. P.414-426.

31. Krahl V.E. Anatomy of the mammalian lung // In: W.D.Fenn, H.Rahn (eds.). Handbook of Physiology, Section 3, Respiration. Washington: Am. Physiol. Soc., 1964. Vol.1. Р.213-284.

32. Koninckx P.R., Molinas R., Binda M.M. Postoperative adhesions and their prevention maintenance of soldering // Rus. J. Hum. Reprod. 2009. Vol.3. P.26-35.

33. Light R.W., Vargas F.S. Pleural sclerosis for the treatment of pneumothorax and pleural effusion // Lung. 1997. Vol.175, Vol.4. P.213-223.

34. Light R.W. Pleural effusion // N. Engl. J. Med. 2002. Vol.346, №25. Р.1971-1977.

35. López A. Respiratory system, thoracic cavity, and pleura // In: M.D.McGavin, J.F.Zachari (eds.). Pathologic basis of veterinary disease. Elsevier, 2007. Р.463-558.

36. Acute injury and regeneration of the mesothelium in response to asbestos fibers / P.A.Maolli [et al.] // Am. J. Pathol. 1987. Vol.128. P.426-445.

37. Müller J., Yoshida T. Interaction of murine peritoneal leukocytes and mesothelial cells: in vitro model system to survey cellular events on serosal membranes during inflammation // Clin. Immunol. Immunopathol. 1995. Vol. 75, №3. P.231-238.

38. Mutsaers S.E. The mesothelial cell // Int. J. Biochem. Cell Biol. 2004. Vol.36. №1. P.9-16.

39. Mutsaers S. Plasticity of the mesothelium: A stem cell in the midst? // Lung Cancer. 2006. Vol.54. Suppl.1. P.3-4.

40. Owens M.W., Milligan S.A., Grisham M.B. Inhibition of pleural mesothelial cell collagen synthesis by nitric oxide // Free Radic. Biol. Med <http://elibrary.ru/issues.asp?id=386&selid=36970>. 1996 <http://elibrary.ru/issues.asp?id=386&jyear=1996>. Vol.21 <http://elibrary.ru/issues.asp?id=386&volume=21>. Issue <http://elibrary.ru/contents.asp?id=36970&selid=637847>. P.601-607.

41. Role of pleural mesothelial cells in the production of the submesothelial connective tissue matrix of lung / S.I.Rennard [et al.] // Am. Rev. Respir. Dis. 1984. Vol.130, №2. P.267-274.

42. Failure of talc pleurodesis is associated with increased pleural fibrinolysis / F.Rodriguez-Panadero <http://www.ncbi.nlm.nih.gov/pubmed?term=%22Rodriguez-Panadero%20F%22%5BAuthor%5D>[et al.] // Am. J. Respir. Crit. Care Med. 1995. Vol.151, №3 (Pt.1). P.785-790.

43. Proliferative and nonproliferative lesions of the rat and mouse respiratory tract / R.Renne [et al.] // Toxicol. Pathol. 2009. Vol.37, №7(Suppl.). 5S-73S.

44. Effects of intrapleural heparin or urokinase on the extent of tetracycline-induced pleural disease / C.Strange [et al.] // Am. J. Respir. Crit. Care Med. 1995. Vol.151, №2(Pt.1). P.508-515.

45. Expression and function of β1 and β3 integrins of human mesothelial cells in vitro / L.Tietze [et al.]. // Exp. Mol. Pathol. 1999. Vol. 66, №2. P.131-139.

46. HGF/SF induces mesothelial cell migration and proliferation by autocrine and paracrine pathways / R.Warn [et al.] // Exp. Cell. Res. 2001. Vol. 267. Issue 2. P.258-266.

47. Whitaker D., Papademitriou J. Mesothelial healing: morphological and kinetic investigations // J. Pathol. 1985. Vol.145, №2. P.159-175.

48. The pathobiology of mesothelium / Whitaker D. [et al.] // In: D.W.Henderson, K.B.Shilkin, S.L.P.Langlois, D.Whitaker (eds.). Malignant Mesothelioma. New York: Hemisph. Pub. Corp., 1992. P.25-56.