|
|
Research progress on the effects and mechanisms of epithelial growth factor receptor on tight junction |
WANG Xue1,2 MENG Chen1,2 ZENG Wen1,2 WANG Yiming1,2 WANG Xianyu1,2 LI Qing1,2 |
1.Department of Anesthesiology, Affiliated Hospital of Hubei University of Medicine (Taihe Hospital of Shiyan City), Hubei Province, Shiyan 442000, China;
2.Institute of Anesthesiology, Department of Science and Technology, Hubei University of Medicine, Hubei Province, Shiyan 442000, China |
|
|
Abstract Tight junction is widely distributed in various organs and tumor tissues of the body, and plays an important role in the injury and repair of the barrier tissues, as well as in the development of the tumor tissues. Epithelial growth factor receptor (EGFR) is also expressed in these tissues, and its activation affects the state changes of tight junction of barrier and tumor tissues. However, the effects are significantly different: activation of the EGFR signaling pathway can enhance tight junction in barrier tissues and inhibit their destruction. Whereas, it reduces the tight junction between tumor cells and promotes the discrete cell metastasis. Therefore, studying these detailed effects and mechanisms of EGFR signaling pathway on tight junction may provide new therapeutic strategies on several barrier injury-associated diseases and tumors.
|
|
|
|
|
[1] Buckley A,Turner JR. Cell Biology of Tight Junction Barrier Regulation and Mucosal Disease [J]. Cold Spring Harb Perspect Biol,2018,10(1).pii:a029314.
[2] Xiang J,Bandura J,Zhang P,et al. EGFR-dependent TOR-independent endocycles support Drosophila gut epithelial regeneration [J]. Nat Commun,2017,8:15125.
[3] Sigismund S,Avanzato D,Lanzetti L. Emerging functions of the EGFR in cancer [J]. Mol Oncol,2018,12(1):3-20.
[4] Kage H,Flodby P,Zhou B,et al. Dichotomous roles of claudins as tumor promoters or suppressors:lessons from knockout mice [J]. Cell Mol Life Sci,2019,76(23):4663-4672. [Epub ahead of print]
[5] Kim S,Goel R,Kumar A,et al. Imbalance of gut microbiome and intestinal epithelial barrier dysfunction in patients with high blood pressure [J]. Clin Sci(Lond),2018,132(6):701-718.
[6] Kanayasu-Toyoda T,Ishii-Watabe A,Kikuchi Y,et al. Occludin as a functional marker of vascular endothelial cells on tube-forming activity [J]. J Cell Physiol,2018, 233(2):1700-1711.
[7] Heinemann U,Schuetz A. Structural Features of Tight-Junction Proteins [J]. Int J Mol Sci,2019,20(23). pii:E6020.
[8] Schlingmann B,Molina SA,Koval M. Claudins:Gatekeepers of lung epithelial function [J]. Semin Cell Dev Biol,2015,42(4):47-57.
[9] Bhat AA,Uppada S,Achkar IW,et al. Tight junction proteins and signaling pathways in cancer and inflammation:a functional crosstalk [J]. Front Physiol,2019,9:1942.
[10] Terakado M,Gon Y,Sekiyama A,et al. The Rac1/JNK pathway is critical for EGFR-dependent barrier formation in human airway epithelial cells [J]. Am J Physiol Lung Cell Mol Physiol,2011,300(1):L56-L63.
[11] Peter Y,Comellas A,Levantini E,et al. Epidermal growth factor receptor and claudin-2 participate in A549 permeability and remodeling:implications for non-small cell lung cancer tumor colonization [J]. Mol Carcinog,2009, 48(6):488-497.
[12] Hou Y,Wang L,Yi D,et al. N-acetylcysteine and intestinal health:a focus on mechanisms of its actions [J]. Front Biosci(Landmark Ed),2015,20:872-891.
[13] Ge S,Jiang X,Paul D,et al. Human ES-derived MSCs correct TNF-α-mediated alterations in a blood-brain barrier model [J]. Fluids Barriers CNS,2019,16(1):18.
[14] Wittekindt OH. Tight junctions in pulmonary epithelia during lung inflammation [J]. Pflugers Arch,2017,469(1):135-147.
[15] Meena AS,Shukla PK,Sheth P,et al. EGF receptor plays a role in the mechanism of glutamine-mediated prevention of alcohol-induced gut barrier dysfunction and liver injury [J]. J Nutr Biochem,2019,64:128-143.
[16] Singh D,Attri BK,Gill RK,et al. Review on EGFR Inhibitors:Critical Updates [J]. Mini reviews in medicinal chemistry,2016,16(14):1134.
[17] Xiao K,Cao ST,Jiao le F,et al. Anemonin improves intestinal barrier restoration and influences TGF-β1 and EGFR signaling pathways in LPS-challenged piglets [J]. Innate Immun,2016,22(5):344-352.
[18] Ciardiello F,Tortora G. EGFR Antagonists in Cancer Treatment [J]. N Engl J Med,2008,358(11):1160-1174.
[19] Guan X. Cancer metastases:challenges and opportunities [J]. Acta Pharm Sin B,2015,5(5):402-418.
[20] Pujada A,Walter L,Patel A,et al. Matrix metalloproteinase MMP9 maintains epithelial barrier function and preserves mucosal lining in colitis associated cancer [J]. Oncotarget,2017,8(55):94650-94665.
[21] Hichino A,Okamoto M,Taga S,et al. Down-regulation of Claudin-2 expression and proliferation by epigenetic inhibitors in human lung adenocarcinoma A549 cells [J]. J Biol Chem,2017,292(6):2411-2421.
[22] Keira Y,Takasawa A,Murata M,et al. An immunohistochemical marker panel including claudin-18,maspin,and p53 improves diagnostic accuracy of bile duct neoplasms in surgical and presurgical biopsy specimens [J]. Virchows Arch,2015,466(3):265-277.
[23] Kaihara T,Kawamata H,Imura J,et al. Redifferentiation and ZO-1 reexpression in liver-metastasized colorectal cancer:possible association with epidermal growth factor receptor-induced tyrosine phosphorylation of ZO-1 [J]. Cancer Sci,2003,94(2):166-172.
[24] Yan F,Cao H,Chaturvedi R,et al. Epidermal growth factor receptor activation protects gastric epithelial cells from helicobacter pylori-induced apoptosis [J]. Gastroenterology,2009,136(4):1297-1307,e1-e3.
[25] Kurokawa M,Kornbluth S. Caspases and kinases in a death grip [J]. Cell,2009,138(5):838-854.
[26] Wang M,Law ME,Davis BJ,et al. Disulfide bond-disrupting agents activate the tumor necrosis family-related apoptosis-inducing ligand/death receptor 5 pathway [J]. Cell Death Discov,2019,5:153.
[27] Scharl M,Paul G,Barrett KE,et al. AMP-activated protein kinase mediates the interferon-γ-induced decrease in intestinal epithelial barrier function [J]. J Biol Chem,2009,284(41):27952-27963.
[28] Huang Y,Feng Y,Wang Y,et al. Severe burn-induced intestinal epithelial barrier dysfunction ss associated with endoplasmic reticulum stress and autophagy in mice [J]. Front Physiol,2018,9(4):1-12. |
|
|
|