INVOLVEMENT OF JNK MAPK CASCADES IN THE FORMATION OF ADHESIONS IN THE ABDOMINAL CAVITY

Adhesive process in the abdominal cavity is one of the most frequent complications of intra-abdominal surgery.

The aim of the study was to evaluate the activation of the JNK MAPK cascade during the experimental adhesion process.

Materials and methods. Experimental studies were performed on 40 male Wistar rats (9 months old). We modeled the adhesive  process in the abdominal cavity. At the time from 2 hours (2, 6, 12  hours) to 30 days (1, 3, 7, 14, 30 days), a JNK MAPK cascade was  evaluated in the zone of damage to the serosa using  immunohistochemical methods (painting on JNK1 Phospho (pT183) /  JNK2 Phospho (pT183) / JNK3 Phospho (pT221)) and real-time  PCR (the MAP Kinase Signaling Pathway RT2 - Profiler ™ PCR Array  (Qiagen) kit). 

Results. We have found that the expression of the  phosphorylated part of the JNK MAPK cascades has an undulating dynamics with two  peaks on the 3rd and 14th day. It has been determined that all  three JNK cascades are involved in the process, and all JNK cascades are synchronously activated on the 3rd day (JNK1 increases 12-fold  in comparison with the group of intact animals, JNK2 is 8-fold, JNK3  is 10-fold). On the 14th day, the activity of the JNK3 cascade is the  most intensively increased – 30 times (for JNK1 – about 6 times,  JNK2 – 12 times). 

Conclusion. Significant activation of MARK cascades has been established on the 14th day after traumatic injury, which indicates the need for long-term prevention of posttraumatic changes, in particular, the formation of adhesions.

1. Аюшинова Н.И., Шурыгина И.А., Чепурных Е.Е., Шурыгин М.Г., Григорьев Е.Г. Спаечная болезнь брюшной полости – междисциплинарная проблема // Врач. – 2017. – № 5. – С. 8–10. Ayushinova NI, Shurygina IA, Chepurnykh EE, Shurygin MG, Grigoriev EG. (2017). Adhesive disease of abdominal cavity – interdisciplinary problem [Spaechnaya bolezn’ bryushnoy polosti – mezhdistsiplinarnaya problema]. Vrach, (5), 8-10.

2. Аюшинова Н.И., Шурыгина И.А., Шурыгин М.Г., Лепехова С.А., Балыкина А.В., Малгатаева Е.Р., Попова А.Д., Янкелевич С.А. Экспериментальная модель для разработки способов профилактики спаечного процесса в брюшной полости // Сибирский медицинский журнал (Иркутск). – 2012. – Т. 109, № 2. – С. 51–53. Ayushinova NI, Shurygina IA, Shurygin MG, Lepekhova SA, Balykina AV, Malgatayeva ER, Popova AD, Yankelevich SA. (2012). Experimental model for the development of prevention of adhesions in the abdominal cavity [Eksperimental’naya model’ dlya razrabotki sposobov profilaktiki spaechnogo protsessa v bryushnoy polosti]. Sibirskiy meditsinskiy zhurnal (Irkutsk), 109 (2), 51-53.

3. Аюшинова Н.И., Шурыгина И.А., Шурыгин М.Г., Панасюк А.И. Современные подходы к профилактике спаечного процесса в брюшной полости // Сибирский медицинский журнал (Иркутск). – 2011. – Т. 105, № 6. – С. 16–20. Ayushinova NI, Shurygina IA, Shurygin MG, Panasyuk AI. (2011). Modern approaches to the prevention of intraperitoneal adhesions [Sovremennye podkhody k profilaktike spaechnogo protsessa v bryushnoy

4. polosti]. Sibirskiy meditsinskiy zhurnal (Irkutsk), 105 (6), 16-20.

5. Способ моделирования спаечного процесса в брюшной полости: Патент № 2467401 Рос. Федерация; МПК G09B 23/28 (2006.01) / Аюшинова Н.И., Лепехова С.А., Шурыгина И.А., Рой Т.А., Шурыгин М.Г., Зарицкая Л.В., Гольдберг О.А.; заявитель и патентообладатель Учреждение Российской академии медицинских наук Научный центр реконструктивной и восстановительной хирургии Сибирского отделения РАМН (НЦРВХ СО РАМН). – № 2011131678/14; заявл. 27.07.2011; опубл. 20.11.2012. – Бюл. № 32. Ayushinova NI, Lepekhova SA, Shurygina IA, Roy TA, Shurygin MG, Zaritskaya LV, Goldberg OA. (2012). Method for modeling the adhesion process in the abdominal cavity: Patent N 2467401 of the Russian Federation [Sposob modelirovaniya spaechnogo protsessa v bryushnoy polosti: Patent № 2467401 Ros. Federatsiya].

6. Шурыгина И.А., Шурыгин М.Г., Зеленин Н.В., Гранина Г.Б. Роль MAP-киназных механизмов в регуляции клеточного роста (обзор литературы) // Сибирский медицинский журнал (Иркутск). – 2009. – Т. 89, № 6. – С. 36–40. Shurygina IA, Shurygin MG, Zelenin NV, Granina GB. (2009). Role of MAP-kinase mechanisms in the regulation of cell growth [Rol’ MAP-kinaznykh mekhanizmov v regulyatsii kletochnogo rosta (obzor literatury)]. Sibirskiy meditsinskiy zhurnal (Irkutsk), 89 (6), 36-40.

7. Bode A., Zigang D. (2007). The functional contrariety of JNK. Mol Carcinogen, 46 (8), 591- 598.

8. Barnat M, Enslen H, Propst F, Davis RJ, Soares S, Nothias F. (2010). Distinct roles of c-Jun N-terminal kinase isoforms in neurite initiation and elongation during axonal regeneration. J Neurosci, 30 (23), 7804-7816.

9. Karin M, Gallagher E. (2005) From JNK to pay dirt: jun kinases, their biochemistry, physiology and clinical importance. IUBMB Life, 57 (4-5), 283-295.

10. Mielke K, Herdegen T. (2002). Fatal shift of signal transduction is an integral part of neuronal differentiation: JNKs realize TNFalpha-mediated apoptosis in neuronlike, but not naive, PC12 cells. Mol Cell Neurosci, 20 (2), 211-224.

11. Oltmanns U, Issa R, Sukkar MB, John M, Chung KF. (2003). Role of c-jun N-terminal kinase in the induced release of GM-CSF, RANTES and IL-8 from human airway smooth muscle cells. Br J Pharmacol, 139 (6), 1228-1234.

12. Tian L, Li H, Li Y, Liu K, Sun Y, Cong Z, Luan X, Li Y, Chen J, Wang L, Ren Z, Cong D, Wang H, Pei J. (2018). A combination of chitosan, cellulose, and seaweed polysaccharide inhibits postoperative intra-abdominal adhesion in rats. J Pharmacol Exp Ther, 364 (3), 399-408.

13. Waetzig V, Herdegen T. (2005). Context-specific inhibition of JNKs: overcoming the dilemma of protection and damage. Br J Pharmacol, 26 (9), 455-461.

14. Zhang Y, Li X, Zhang Q, Li J, Ju J, Du N, Liu X, Chen X, Cheng F, Yang L, Xu C, Bilal MU, Wei Y, Lu Y, Yang B. (2014). Berberine hydrochloride prevents postsurgery intestinal adhesion and inflammation in rats. J Pharmacol Exp Ther, 349 (3), 417-426.