• 1.蘭州大學(xué)第二醫(yī)院普外科(甘肅蘭州 730030);;
  • 2.蘭州大學(xué)第二醫(yī)院甘肅省消化系腫瘤重點(diǎn)實(shí)驗(yàn)室(甘肅蘭州 730030);

目的  探討Notch信號(hào)通路的結(jié)構(gòu)特點(diǎn)、功能以及在消化系腫瘤中的研究進(jìn)展。
方法  采用文獻(xiàn)復(fù)習(xí)的方法,對(duì)研究Notch信號(hào)通路在消化系腫瘤分子機(jī)理的相關(guān)文獻(xiàn)加以綜述。
結(jié)果  Notch信號(hào)通路不僅在細(xì)胞正常發(fā)育、分化增殖和凋亡中起著重要的作用,而且與多種腫瘤的發(fā)生和發(fā)展具有相關(guān)性。
結(jié)論  對(duì)Notch信號(hào)通路進(jìn)行合理的調(diào)控有可能為腫瘤的治療開辟新的途徑。

引用本文: 蓋大偉,郭凌云,劉濤,李玉民. Notch信號(hào)通路在消化系腫瘤中的研究進(jìn)展△. 中國普外基礎(chǔ)與臨床雜志, 2013, 20(10): 1188-1192. doi: 復(fù)制

1. Artavanis-Tsakonas S, Matsuno K, Fortini ME. Notch signaling[J]. Science, 1995, 268(5208): 225-232.
2. Mumm JS, Kopan R. Notch signaling:from the outside in[J]. Dev Biol, 2000, 228(2):151-165.
3. South AP, Cho RJ, Aster JC. The double-edged sword of Notch signaling in cancer[J]. Semin Cell Dev Biol, 2012, 23(4):458-464.
4. Ranganathan P, Weaver KL, Capobianco AJ. Notch signalling in solid tumours: a little bit of everything but not all the time[J]. Nat Rev Cancer, 2011, 11(5):338-351.
5. Apelqvist A, Li H, Sommer L, et al. Notch signalling controls pancreatic cell differentiation[J]. Nature, 1999, 400(6747):877-881.
6. Bray SJ. Notch signalling:a simple pathway becomes complex[J]. Nat Rev Mol Cell Biol, 2006, 7(9):678-689.
7. Jarriault S, Brou C, Logeat F, et al. Signalling downstream of activated mammalian Notch[J]. Nature, 1995, 377(6547):355-358.
8. Burstein HJ, Schwartz RS. Molecular origins of cancer[J]. N Engl J Med, 2008, 358(5):527.
9. Hu YY, Zheng MH, Zhang R, et al. Notch signaling pathway and cancer metastasis[J]. Adv Exp Med Biol, 2012, 727:186-198.
10. Phillips HS, Kharbanda S, Chen R, et al. Molecular subclasses of high-grade glioma predict prognosis, delineate a pattern of disease progression, and resemble stages in neurogenesis[J]. Cancer Cell, 2006, 9(3):157-173.
11. Schroeter EH, Kisslinger JA, Kopan R. Notch-1 signallingrequires ligand-induced proteolytic release of intracellular domain[J]. Nature, 1998, 393(6683):382-386.
12. Fan X, Mikolaenko I, Elhassan I, et al. Notch1 and notch2 have opposite effects on embryonal brain tumor growth[J]. Cancer Res, 2004, 64(21):7787-7793.
13. Dang TP, Gazdar AF, Virmani AK, et al. Chromosome 19 translocation, overexpression of Notch3, and human lung cancer[J]. J Natl Cancer Inst, 2000, 92(16):1355-1357.
14. Park JT, Li M, Nakayama K, et al. Notch3 gene amplification in ovarian cancer[J]. Cancer Res, 2006, 66(12):6312-6318.
15. Reedijk M, Odorcic S, Chang L, et al. High-level coexpression of JAG1 and NOTCH1 is observed in human breast cancer and is associated with poor overall survival[J]. Cancer Res, 2005, 65(18):8530-8537.
16. Proweller A, Tu L, Lepore JJ, et al. Impaired notch signaling promotes de novo squamous cell carcinoma formation[J]. CancerRes, 2006, 66(15):7438-7444.
17. Sekine A, Akiyama Y, Yanagihara K, et al. Hath1 up-regulates gastric mucin gene expression in gastric cells[J]. Biochem BiophysRes Commun, 2006, 344(4):1166-1171.
18. Tamagawa Y, Ishimura N, Uno G, et al. Notch signaling pathwayand Cdx2 expression in the development of Barrett’s esophagus[J].Lab Invest, 2012, 92(6):896-909.
19. Zhou BB, Zhang H, Damelin M, et al. Tumour-initiating cells:challenges and opportunities for anticancer drug discovery[J]. Nat Rev Drug Discov, 2009, 8(10):806-823.
20. Snijders AM, Schmidt BL, Fridlyand J, et al. Rare amplicons implicate frequent deregulation of cell fate specification pathways in oral squamous cell carcinoma[J]. Oncogene, 2005, 24(26):4232-4242.
21. Leethanakul C, Patel V, Gillespie J, et al. Distinct pattern ofexpression of differentiation and growth-related genes in squamouscell carcinomas of the head and neck revealed by the use of laser capture microdissection and cDNA arrays[J]. Oncogene, 2000, 19(28):3220-3224.
22. Sekine A, Akiyama Y, Yanagihara K, et al. Hath1 up-regulates gastric mucin gene expression in gastric cells[J]. Biochem BiophysRes Commun, 2006, 344(4):1166-1171.
23. Yeh TS, Wu CW, Hsu KW, et al. The activated Notch1 signal pathway is associated with gastric cancer progression throughcyclooxygenase-2[J]. Cancer Res, 2009, 69(12):5039-5048.
24. Mills JC, Shivdasani RA. Gastric epithelial stem cells[J]. Gastroenterology, 2011, 140(2):412-424.
25. Fan R, Chen P, Zhao D, et al. Cooperation of deregulated Notch signaling and Ras pathway in human hepatocarcinogenesis[J]. J Mol Histol, 2011, 42(5):473-481.
26. Qi R, An H, Yu Y, et al. Notch1 signaling inhibits growth of human hepatocellular carcinoma through induction of cell cycle arrest and apoptosis[J]. Cancer Res, 2003, 63(23):8323-8329.
27. Yao Z, Mishra L. Cancer stem cells and hepatocellular carcinoma[J]. Cancer Biol Ther, 2009, 8(18):1691-1698.
28. Wang M, Xue L, Cao Q, et al. Expression of Notch1, Jagged1 and beta-catenin and their clinicopathological significance in hepatocellular carcinoma[J]. Neoplasma, 2009, 56(6):533-541.
29. Sonoshita M, Aoki M, Fuwa H, et al. Suppression of colon cancermetastasis by Aes through inhibition of Notch signaling[J]. Cancer Cell, 2011, 19(1):125-137.
30. Yabuuchi S, Pai SG, Campbell NR, et al. Notch signaling pathway targeted therapy suppresses tumor progression and metastatic spread in pancreatic cancer[J]. Cancer Lett, 2013, 335(1):41-51.
31. Avila JL, Kissil JL. Notch signaling in pancreatic cancer:oncogene or tumor suppressor?[J]. Trends Mol Med, 2013, 19(5):320-327.
32. Miyamoto Y, Maitra A, Ghosh B, et al. Notch mediates TGF alpha-induced changes in epithelial differentiation during pancreatictumorigenesis[J]. Cancer Cell, 2003, 3(6):565-576.
33. Mullendore ME, Koorstra JB, Li YM, et al. Ligand-dependent Notch signaling is involved in tumor initiation and tumor maintenance in pancreatic cancer[J]. Clin Cancer Res, 2009, 15(7):2291-2301.
34. Mazur PK, Einwachter H, Lee M, et al. Notch2 is required for progression of pancreatic intraepithelial neoplasia and developmentof pancreatic ductal adenocarcinoma[J]. Proc Natl Acad Sci U S A, 2010, 107(30):13438-13443.
35. Hruban RH, Wilentz RE, Goggins M, et al. Pathology of incipientpancreatic cancer[J]. Ann Oncol, 1999, 10 Suppl 4:9-11.
36. Walther A, Johnstone E, Swanton C, et al. Genetic prognostic and predictive markers in colorectal cancer[J]. Nat Rev Cancer, 2009, 9(7):489-499.
37. Yin L, Velazquez OC, Liu ZJ. Notch signaling: emerging mole-cular targets for cancer therapy[J]. Biochem Pharmacol, 2010, 80(5):690-701.
38. Konsavage WJ, Kyler SL, Rennoll SA, et al. Wnt/beta-catenin signaling regulates Yes-associated protein (YAP) gene expression in colorectal carcinoma cells[J]. J Biol Chem, 2012, 287(15):11730-11739.
39. Zhang H, Ye Y, Bai Z, et al. The COX-2 selective inhibitor-independent COX-2 effect on colon carcinoma cells is associated with the Delta1/Notch1 pathway[J]. Dig Dis Sci, 2008, 53(8):2195-2203.
40. Yeung TM, Gandhi SC, Bodmer WF. Hypoxia and lineage specification of cell line-derived colorectal cancer stem cells[J]. Proc Natl Acad Sci U S A, 2011, 108(11):4382-4387.
41. Wilson BJ, Schatton T, Frank MH, et al. Colorectal cancer stem cells: biology and therapeutic implications[J]. Curr Colorectal Cancer Rep, 2011, 7(2):128-135.
42. Yasui H, Hideshima T, Richardson PG, et al. Novel therapeutic strategies targeting growth factor signalling cascades in multiple myeloma[J]. Br J Haematol, 2006, 132(4):385-397.
43. Iso T, Maeno T, Oike Y, et al. Dll4-selective Notch signalinginduces ephrinB2 gene expression in endothelial cells[J]. BiochemBiophys Res Commun, 2006, 341(3):708-714.
44. Wu Y, Cain-Hom C, Choy L, et al. Therapeutic antibody targetingof individual Notch receptors[J]. Nature, 2010, 464(7291):1052-1057.
45. Katoh M, Katoh M. Bioinformatics for cancer management in the post-genome era[J]. Technol Cancer Res Treat, 2006, 5(2):169-175.
46. Hyde LA, Mchugh NA, Chen J, et al. Studies to investigate thein vivo therapeutic window of the gamma-secretase inhibitor N2-[(2S)-2-(3, 5-difluorophenyl)-2-hydroxyethanoyl]-N1- [(7S)-5-methyl-6-oxo-6, 7-di hydro-5H-dibenzo[b, d]azepin-7-yl]-L-alaninamide (LY411, 575) in the CRND8 mouse[J]. J PharmacolExp Ther, 2006, 319(3):1133-1143.
  1. 1. Artavanis-Tsakonas S, Matsuno K, Fortini ME. Notch signaling[J]. Science, 1995, 268(5208): 225-232.
  2. 2. Mumm JS, Kopan R. Notch signaling:from the outside in[J]. Dev Biol, 2000, 228(2):151-165.
  3. 3. South AP, Cho RJ, Aster JC. The double-edged sword of Notch signaling in cancer[J]. Semin Cell Dev Biol, 2012, 23(4):458-464.
  4. 4. Ranganathan P, Weaver KL, Capobianco AJ. Notch signalling in solid tumours: a little bit of everything but not all the time[J]. Nat Rev Cancer, 2011, 11(5):338-351.
  5. 5. Apelqvist A, Li H, Sommer L, et al. Notch signalling controls pancreatic cell differentiation[J]. Nature, 1999, 400(6747):877-881.
  6. 6. Bray SJ. Notch signalling:a simple pathway becomes complex[J]. Nat Rev Mol Cell Biol, 2006, 7(9):678-689.
  7. 7. Jarriault S, Brou C, Logeat F, et al. Signalling downstream of activated mammalian Notch[J]. Nature, 1995, 377(6547):355-358.
  8. 8. Burstein HJ, Schwartz RS. Molecular origins of cancer[J]. N Engl J Med, 2008, 358(5):527.
  9. 9. Hu YY, Zheng MH, Zhang R, et al. Notch signaling pathway and cancer metastasis[J]. Adv Exp Med Biol, 2012, 727:186-198.
  10. 10. Phillips HS, Kharbanda S, Chen R, et al. Molecular subclasses of high-grade glioma predict prognosis, delineate a pattern of disease progression, and resemble stages in neurogenesis[J]. Cancer Cell, 2006, 9(3):157-173.
  11. 11. Schroeter EH, Kisslinger JA, Kopan R. Notch-1 signallingrequires ligand-induced proteolytic release of intracellular domain[J]. Nature, 1998, 393(6683):382-386.
  12. 12. Fan X, Mikolaenko I, Elhassan I, et al. Notch1 and notch2 have opposite effects on embryonal brain tumor growth[J]. Cancer Res, 2004, 64(21):7787-7793.
  13. 13. Dang TP, Gazdar AF, Virmani AK, et al. Chromosome 19 translocation, overexpression of Notch3, and human lung cancer[J]. J Natl Cancer Inst, 2000, 92(16):1355-1357.
  14. 14. Park JT, Li M, Nakayama K, et al. Notch3 gene amplification in ovarian cancer[J]. Cancer Res, 2006, 66(12):6312-6318.
  15. 15. Reedijk M, Odorcic S, Chang L, et al. High-level coexpression of JAG1 and NOTCH1 is observed in human breast cancer and is associated with poor overall survival[J]. Cancer Res, 2005, 65(18):8530-8537.
  16. 16. Proweller A, Tu L, Lepore JJ, et al. Impaired notch signaling promotes de novo squamous cell carcinoma formation[J]. CancerRes, 2006, 66(15):7438-7444.
  17. 17. Sekine A, Akiyama Y, Yanagihara K, et al. Hath1 up-regulates gastric mucin gene expression in gastric cells[J]. Biochem BiophysRes Commun, 2006, 344(4):1166-1171.
  18. 18. Tamagawa Y, Ishimura N, Uno G, et al. Notch signaling pathwayand Cdx2 expression in the development of Barrett’s esophagus[J].Lab Invest, 2012, 92(6):896-909.
  19. 19. Zhou BB, Zhang H, Damelin M, et al. Tumour-initiating cells:challenges and opportunities for anticancer drug discovery[J]. Nat Rev Drug Discov, 2009, 8(10):806-823.
  20. 20. Snijders AM, Schmidt BL, Fridlyand J, et al. Rare amplicons implicate frequent deregulation of cell fate specification pathways in oral squamous cell carcinoma[J]. Oncogene, 2005, 24(26):4232-4242.
  21. 21. Leethanakul C, Patel V, Gillespie J, et al. Distinct pattern ofexpression of differentiation and growth-related genes in squamouscell carcinomas of the head and neck revealed by the use of laser capture microdissection and cDNA arrays[J]. Oncogene, 2000, 19(28):3220-3224.
  22. 22. Sekine A, Akiyama Y, Yanagihara K, et al. Hath1 up-regulates gastric mucin gene expression in gastric cells[J]. Biochem BiophysRes Commun, 2006, 344(4):1166-1171.
  23. 23. Yeh TS, Wu CW, Hsu KW, et al. The activated Notch1 signal pathway is associated with gastric cancer progression throughcyclooxygenase-2[J]. Cancer Res, 2009, 69(12):5039-5048.
  24. 24. Mills JC, Shivdasani RA. Gastric epithelial stem cells[J]. Gastroenterology, 2011, 140(2):412-424.
  25. 25. Fan R, Chen P, Zhao D, et al. Cooperation of deregulated Notch signaling and Ras pathway in human hepatocarcinogenesis[J]. J Mol Histol, 2011, 42(5):473-481.
  26. 26. Qi R, An H, Yu Y, et al. Notch1 signaling inhibits growth of human hepatocellular carcinoma through induction of cell cycle arrest and apoptosis[J]. Cancer Res, 2003, 63(23):8323-8329.
  27. 27. Yao Z, Mishra L. Cancer stem cells and hepatocellular carcinoma[J]. Cancer Biol Ther, 2009, 8(18):1691-1698.
  28. 28. Wang M, Xue L, Cao Q, et al. Expression of Notch1, Jagged1 and beta-catenin and their clinicopathological significance in hepatocellular carcinoma[J]. Neoplasma, 2009, 56(6):533-541.
  29. 29. Sonoshita M, Aoki M, Fuwa H, et al. Suppression of colon cancermetastasis by Aes through inhibition of Notch signaling[J]. Cancer Cell, 2011, 19(1):125-137.
  30. 30. Yabuuchi S, Pai SG, Campbell NR, et al. Notch signaling pathway targeted therapy suppresses tumor progression and metastatic spread in pancreatic cancer[J]. Cancer Lett, 2013, 335(1):41-51.
  31. 31. Avila JL, Kissil JL. Notch signaling in pancreatic cancer:oncogene or tumor suppressor?[J]. Trends Mol Med, 2013, 19(5):320-327.
  32. 32. Miyamoto Y, Maitra A, Ghosh B, et al. Notch mediates TGF alpha-induced changes in epithelial differentiation during pancreatictumorigenesis[J]. Cancer Cell, 2003, 3(6):565-576.
  33. 33. Mullendore ME, Koorstra JB, Li YM, et al. Ligand-dependent Notch signaling is involved in tumor initiation and tumor maintenance in pancreatic cancer[J]. Clin Cancer Res, 2009, 15(7):2291-2301.
  34. 34. Mazur PK, Einwachter H, Lee M, et al. Notch2 is required for progression of pancreatic intraepithelial neoplasia and developmentof pancreatic ductal adenocarcinoma[J]. Proc Natl Acad Sci U S A, 2010, 107(30):13438-13443.
  35. 35. Hruban RH, Wilentz RE, Goggins M, et al. Pathology of incipientpancreatic cancer[J]. Ann Oncol, 1999, 10 Suppl 4:9-11.
  36. 36. Walther A, Johnstone E, Swanton C, et al. Genetic prognostic and predictive markers in colorectal cancer[J]. Nat Rev Cancer, 2009, 9(7):489-499.
  37. 37. Yin L, Velazquez OC, Liu ZJ. Notch signaling: emerging mole-cular targets for cancer therapy[J]. Biochem Pharmacol, 2010, 80(5):690-701.
  38. 38. Konsavage WJ, Kyler SL, Rennoll SA, et al. Wnt/beta-catenin signaling regulates Yes-associated protein (YAP) gene expression in colorectal carcinoma cells[J]. J Biol Chem, 2012, 287(15):11730-11739.
  39. 39. Zhang H, Ye Y, Bai Z, et al. The COX-2 selective inhibitor-independent COX-2 effect on colon carcinoma cells is associated with the Delta1/Notch1 pathway[J]. Dig Dis Sci, 2008, 53(8):2195-2203.
  40. 40. Yeung TM, Gandhi SC, Bodmer WF. Hypoxia and lineage specification of cell line-derived colorectal cancer stem cells[J]. Proc Natl Acad Sci U S A, 2011, 108(11):4382-4387.
  41. 41. Wilson BJ, Schatton T, Frank MH, et al. Colorectal cancer stem cells: biology and therapeutic implications[J]. Curr Colorectal Cancer Rep, 2011, 7(2):128-135.
  42. 42. Yasui H, Hideshima T, Richardson PG, et al. Novel therapeutic strategies targeting growth factor signalling cascades in multiple myeloma[J]. Br J Haematol, 2006, 132(4):385-397.
  43. 43. Iso T, Maeno T, Oike Y, et al. Dll4-selective Notch signalinginduces ephrinB2 gene expression in endothelial cells[J]. BiochemBiophys Res Commun, 2006, 341(3):708-714.
  44. 44. Wu Y, Cain-Hom C, Choy L, et al. Therapeutic antibody targetingof individual Notch receptors[J]. Nature, 2010, 464(7291):1052-1057.
  45. 45. Katoh M, Katoh M. Bioinformatics for cancer management in the post-genome era[J]. Technol Cancer Res Treat, 2006, 5(2):169-175.
  46. 46. Hyde LA, Mchugh NA, Chen J, et al. Studies to investigate thein vivo therapeutic window of the gamma-secretase inhibitor N2-[(2S)-2-(3, 5-difluorophenyl)-2-hydroxyethanoyl]-N1- [(7S)-5-methyl-6-oxo-6, 7-di hydro-5H-dibenzo[b, d]azepin-7-yl]-L-alaninamide (LY411, 575) in the CRND8 mouse[J]. J PharmacolExp Ther, 2006, 319(3):1133-1143.