Aquaporins as diagnostic and therapeutic targets in cancer: How far we are?

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• 作者：Jian Wang (1)
  Li Feng (2)
  Zhitu Zhu (3)
  Minghuan Zheng (1)
  Diane Wang (1)
  Zhihong Chen (1)
  Hongzhi Sun (3)
  
  1. Department of Pulmonary Medicine ; Zhongshan Hospital ; Fudan University ; Shanghai ; China
  2. Minghang Hospital ; Fudan University ; Shanghai ; China
  3. The First Hospital of Liaoning Medical University ; Jingzhou ; China
  
• 关键词：AQPs ; Cancer ; Water channel ; Inhibition ; Biomarkers
• 刊名：Journal of Translational Medicine
• 出版年：2015
• 出版时间：December 2015
• 年：2015
• 卷：13
• 期：1
• 全文大小：1,544 KB
• 参考文献：1. Verkman, AS (2005) More than just water channels: unexpected cellular roles of aquaporins. J Cell Sci 118: pp. 3225-32
  2. Nico, B, Ribatti, D (2011) Role of aquaporins in cell migration and edema formation in human brain tumors. Exp Cell Res 317: pp. 2391-6
  3. Herrera, M, Garvin, JL (2011) Aquaporins as gas channels. Pflugers Arch 462: pp. 623-30
  4. Musa-Aziz, R, Chen, LM, Pelletier, MF, Boron, WF (2009) Relative CO2/NH3 selectivities of AQP1, AQP4, AQP5, AmtB, and RhAG. Proc Natl Acad Sci U S A 106: pp. 5406-11
  5. Yu, J, Yool, AJ, Schulten, K, Tajkhorshid, E (2006) Mechanism of gating and ion conductivity of a possible tetrameric pore in aquaporin-1. Structure 14: pp. 1411-23
  6. Badaut, J, Fukuda, AM, Jullienne, A, Petry, KG (1840) Aquaporin and brain diseases. Biochim Biophys Acta 2014: pp. 1554-65
  7. Cartagena, CM, Phillips, KL, Tortella, FC, Dave, JR, Schmid, KE (2014) Temporal alterations in aquaporin and transcription factor HIF1alpha expression following penetrating ballistic-like brain injury (PBBI). Mol Cell Neurosci 60: pp. 81-7
  8. Strand, L, Moe, SE, Solbu, TT, Vaadal, M, Holen, T (2009) Roles of aquaporin-4 isoforms and amino acids in square array assembly. Biochemistry-Us 48: pp. 5785-93
  9. Papadopoulos, MC, Saadoun, S (2014) Key roles of aquaporins in tumor biology. Biochim Biophys Acta.
  10. Jin, BJ, Rossi, A, Verkman, AS (2011) Model of aquaporin-4 supramolecular assembly in orthogonal arrays based on heterotetrameric association of M1-M23 isoforms. Biophys J 100: pp. 2936-45
  11. Nicchia, GP, Mastrototaro, M, Rossi, A, Pisani, F, Tortorella, C, Ruggieri, M (2009) Aquaporin-4 orthogonal arrays of particles are the target for neuromyelitis optica autoantibodies. Glia 57: pp. 1363-73
  12. Guan, G, Dong, Z, Sun, K (2009) Correlation between the expression of aquaporin 1 and the micro-angiogenesis in laryngeal carcinoma. Lin Chung Er Bi Yan Hou Tou Jing Wai Ke Za Zhi 23: pp. 219-21
  13. Saadoun, S, Papadopoulos, MC, Davies, DC, Bell, BA, Krishna, S (2002) Increased aquaporin 1 water channel expression in human brain tumours. Br J Cancer 87: pp. 621-3
  14. Saadoun, S, Papadopoulos, MC, Davies, DC, Krishna, S, Bell, BA (2002) Aquaporin-4 expression is increased in oedematous human brain tumours. J Neurol Neurosurg Psychiatry 72: pp. 262-5
  15. Warth, A, Simon, P, Capper, D, Goeppert, B, Tabatabai, G, Herzog, H (2007) Expression pattern of the water channel aquaporin-4 in human gliomas is associated with blood-brain barrier disturbance but not with patient survival. J Neurosci Res 85: pp. 1336-46
  16. Hoque, MO, Soria, JC, Woo, J, Lee, T, Lee, J, Jang, SJ (2006) Aquaporin 1 is overexpressed in lung cancer and stimulates NIH-3聽T3 cell proliferation and anchorage-independent growth. Am J Pathol 168: pp. 1345-53
  17. Sales, AD, Lobo, CH, Carvalho, AA, Moura, AA, Rodrigues, AP (2013) Structure, function, and localization of aquaporins: their possible implications on gamete cryopreservation. Genet Mol Res 12: pp. 6718-32
  18. Fujiyoshi, Y, Mitsuoka, K, Groot, BL, Philippsen, A, Grubmuller, H, Agre, P (2002) Structure and function of water channels. Curr Opin Struct Biol 12: pp. 509-15
  19. Preston, GM, Jung, JS, Guggino, WB, Agre, P (1993) The mercury-sensitive residue at cysteine 189 in the CHIP28 water channel. J Biol Chem 268: pp. 17-20
  20. Verkman, AS, Mitra, AK (2000) Structure and function of aquaporin water channels. Am J Physiol Renal Physiol 278: pp. F13-28
  21. Jensen, MO, Tajkhorshid, E, Schulten, K (2003) Electrostatic tuning of permeation and selectivity in aquaporin water channels. Biophys J 85: pp. 2884-99
  22. Jung, JS, Preston, GM, Smith, BL, Guggino, WB, Agre, P (1994) Molecular structure of the water channel through aquaporin CHIP. The hourglass model. J Biol Chem 269: pp. 14648-54
  23. Jensen, MO, Tajkhorshid, E, Schulten, K (2001) The mechanism of glycerol conduction in aquaglyceroporins. Structure 9: pp. 1083-93
  24. Skelton, LA, Boron, WF, Zhou, Y (2010) Acid-base transport by the renal proximal tubule. J Nephrol 23: pp. S4-18
  25. Xu, L, Zhou, Y, Boron, WF (2011) Role of aquaporin 1 (AQP1) as a CO2 channel in chronic metabolic acidosis. Faseb J 834: pp. 1
  26. Herrera, M, Garvin, JL (2007) Novel role of AQP-1 in NO-dependent vasorelaxation. Am J Physiol Renal Physiol 292: pp. F1443-51
  27. Gannon, BJ, Warnes, GM, Carati, CJ, Verco, CJ (2000) Aquaporin-1 expression in visceral smooth muscle cells of female rat reproductive tract. J Smooth Muscle Res 36: pp. 155-67
  28. Verkman, AS (2012) Aquaporins in clinical medicine. Annu Rev Med 63: pp. 303-16
  29. Kumari, SS, Varadaraj, K (2014) Aquaporin 0 plays a pivotal role in refractive index gradient development in mammalian eye lens to prevent spherical aberration. Biochem Biophys Res Commun 452: pp. 986-91
  30. Deen, PM, Verdijk, MA, Knoers, NV, Wieringa, B, Monnens, LA, Os, CH (1994) Requirement of human renal water channel aquaporin-2 for vasopressin-dependent concentration of urine. Science 264: pp. 92-5
  31. Nielsen, S, Frokiaer, J, Marples, D, Kwon, TH, Agre, P, Knepper, MA (2002) Aquaporins in the kidney: from molecules to medicine. Physiol Rev 82: pp. 205-44
  32. Papadopoulos, MC, Verkman, AS (2013) Aquaporin water channels in the nervous system. Nat Rev Neurosci 14: pp. 265-77
  33. Gomes, D, Agasse, A, Thiebaud, P, Delrot, S, Geros, H, Chaumont, F (2009) Aquaporins are multifunctional water and solute transporters highly divergent in living organisms. Biochim Biophys Acta 1788: pp. 1213-28
  34. Moon, C, Soria, JC, Jang, SJ, Lee, J, Obaidul, HM, Sibony, M (2003) Involvement of aquaporins in colorectal carcinogenesis. Oncogene 22: pp. 6699-703
  35. Yin, T, Yu, S, Xiao, L, Zhang, J, Liu, C, Lu, Y (2008) Correlation between the expression of aquaporin 1 and hypoxia-inducible factor 1 in breast cancer tissues. J Huazhong Univ Sci Technolog Med Sci 28: pp. 346-8
  36. Mobasheri, A, Airley, R, Hewitt, SM, Marples, D (2005) Heterogeneous expression of the aquaporin 1 (AQP1) water channel in tumors of the prostate, breast, ovary, colon and lung: a study using high density multiple human tumor tissue microarrays. Int J Oncol 26: pp. 1149-58
  37. Yang, JH, Shi, YF, Chen, XD, Qi, WJ (2006) The influence of aquaporin-1 and microvessel density on ovarian carcinogenesis and ascites formation. Int J Gynecol Cancer 16: pp. 400-5
  38. Hara-Chikuma, M, Verkman, AS (2008) Prevention of skin tumorigenesis and impairment of epidermal cell proliferation by targeted aquaporin-3 gene disruption. Mol Cell Biol 28: pp. 326-32
  39. Liu, S, Zhang, S, Jiang, H, Yang, Y, Jiang, Y (2013) Co-expression of AQP3 and AQP5 in esophageal squamous cell carcinoma correlates with aggressive tumor progression and poor prognosis. Med Oncol 30: pp. 636
  40. Guo, X, Sun, T, Yang, M, Li, Z, Li, Z, Gao, Y (2013) Prognostic value of combined aquaporin 3 and aquaporin 5 overexpression in hepatocellular carcinoma. Biomed Res Int 2013: pp. 206525
  41. Kafe, H, Verbavatz, JM, Cochand-Priollet, B, Castagnet, P, Vieillefond, A (2004) Collecting duct carcinoma: an entity to be redefined?. Virchows Arch 445: pp. 637-40
  42. Kusayama, M, Wada, K, Nagata, M, Ishimoto, S, Takahashi, H, Yoneda, M (2011) Critical role of aquaporin 3 on growth of human esophageal and oral squamous cell carcinoma. Cancer Sci 102: pp. 1128-36
  43. Xie, Y, Wen, X, Jiang, Z, Fu, HQ, Han, H, Dai, L (2012) Aquaporin 1 and aquaporin 4 are involved in invasion of lung cancer cells. Clin Lab 58: pp. 75-80
  44. Niu, D, Kondo, T, Nakazawa, T, Kawasaki, T, Yamane, T, Mochizuki, K (2012) Differential expression of aquaporins and its diagnostic utility in thyroid cancer. PLoS One 7: pp. e40770
  45. Kang, SK, Chae, YK, Woo, J, Kim, MS, Park, JC, Lee, J (2008) Role of human aquaporin 5 in colorectal carcinogenesis. Am J Pathol 173: pp. 518-25
  46. Chae, YK, Kang, SK, Kim, MS, Woo, J, Lee, J, Chang, S (2008) Human AQP5 plays a role in the progression of chronic myelogenous leukemia (CML). PLoS One 3: pp. e2594
  47. Zhang, Z, Chen, Z, Song, Y, Zhang, P, Hu, J, Bai, C (2010) Expression of aquaporin 5 increases proliferation and metastasis potential of lung cancer. J Pathol 221: pp. 210-20
  48. Yan, C, Yang, J, Shen, L, Chen, X (2012) Inhibitory effect of Epigallocatechin gallate on ovarian cancer cell proliferation associated with aquaporin 5 expression. Arch Gynecol Obstet 285: pp. 459-67
  49. Watanabe, T, Fujii, T, Oya, T, Horikawa, N, Tabuchi, Y, Takahashi, Y (2009) Involvement of aquaporin-5 in differentiation of human gastric cancer cells. J Physiol Sci 59: pp. 113-22
  50. Lacroix, L, Lazar, V, Michiels, S, Ripoche, H, Dessen, P, Talbot, M (2005) Follicular thyroid tumors with the PAX8-PPARgamma1 rearrangement display characteristic genetic alterations. Am J Pathol 167: pp. 223-31
  51. Tan, G, Sun, SQ, Yuan, DL (2008) Expression of the water channel protein aquaporin-9 in human astrocytic tumours: correlation with pathological grade. J Int Med Res 36: pp. 777-82
  52. Yang, JH, Yan, CX, Chen, XJ, Zhu, YS (2011) Expression of aquaglyceroporins in epithelial ovarian tumours and their clinical significance. J Int Med Res 39: pp. 702-11
  53. Jablonski, EM, Mattocks, MA, Sokolov, E, Koniaris, LG, Hughes, FJ, Fausto, N (2007) Decreased aquaporin expression leads to increased resistance to apoptosis in hepatocellular carcinoma. Cancer Lett 250: pp. 36-46
  54. Wang, W, Li, Q, Yang, T, Bai, G, Li, D, Li, Q (2012) Expression of AQP5 and AQP8 in human colorectal carcinoma and their clinical significance. World J Surg Oncol 10: pp. 242
  55. Solenov, E, Watanabe, H, Manley, GT, Verkman, AS (2004) Sevenfold-reduced osmotic water permeability in primary astrocyte cultures from AQP-4-deficient mice, measured by a fluorescence quenching method. Am J Physiol Cell Physiol 286: pp. C426-32
  56. Papadopoulos, MC, Verkman, AS (2005) Aquaporin-4 gene disruption in mice reduces brain swelling and mortality in pneumococcal meningitis. J Biol Chem 280: pp. 13906-12
  57. Katada, R, Akdemir, G, Asavapanumas, N, Ratelade, J, Zhang, H, Verkman, AS (2014) Greatly improved survival and neuroprotection in aquaporin-4-knockout mice following global cerebral ischemia. Faseb J 28: pp. 705-14
  58. Delporte, C (1840) Aquaporins in salivary glands and pancreas. Biochim Biophys Acta 2014: pp. 1524-32
  59. Krane, CM, Melvin, JE, Nguyen, HV, Richardson, L, Towne, JE, Doetschman, T (2001) Salivary acinar cells from aquaporin 5-deficient mice have decreased membrane water permeability and altered cell volume regulation. J Biol Chem 276: pp. 23413-20
  60. Matsuzaki, T, Susa, T, Shimizu, K, Sawai, N, Suzuki, T, Aoki, T (2012) Function of the membrane water channel aquaporin-5 in the salivary gland. Acta Histochem Cytochem 45: pp. 251-9
  61. Kortenoeven, ML, Fenton, RA (1840) Renal aquaporins and water balance disorders. Biochim Biophys Acta 2014: pp. 1533-49
  62. King, LS, Choi, M, Fernandez, PC, Cartron, JP, Agre, P (2001) Defective urinary-concentrating ability due to a complete deficiency of aquaporin-1. N Engl J Med 345: pp. 175-9
  63. Rojek, A, Fuchtbauer, EM, Kwon, TH, Frokiaer, J, Nielsen, S (2006) Severe urinary concentrating defect in renal collecting duct-selective AQP2 conditional-knockout mice. Proc Natl Acad Sci U S A 103: pp. 6037-42
  64. Hara-Chikuma, M, Verkman, AS (2008) Roles of aquaporin-3 in the epidermis. J Invest Dermatol 128: pp. 2145-51
  65. Lee, Y, Je, YJ, Lee, SS, Li, ZJ, Choi, DK, Kwon, YB (2012) Changes in transepidermal water loss and skin hydration according to expression of aquaporin-3 in psoriasis. Ann Dermatol 24: pp. 168-74
  66. Hara, M, Ma, T, Verkman, AS (2002) Selectively reduced glycerol in skin of aquaporin-3-deficient mice may account for impaired skin hydration, elasticity, and barrier recovery. J Biol Chem 277: pp. 46616-21
  67. Hara-Chikuma, M, Sohara, E, Rai, T, Ikawa, M, Okabe, M, Sasaki, S (2005) Progressive adipocyte hypertrophy in aquaporin-7-deficient mice: adipocyte glycerol permeability as a novel regulator of fat accumulation. J Biol Chem 280: pp. 15493-6
  68. Saadoun, S, Papadopoulos, MC, Hara-Chikuma, M, Verkman, AS (2005) Impairment of angiogenesis and cell migration by targeted aquaporin-1 gene disruption. Nature 434: pp. 786-92
  69. Hu, J, Verkman, AS (2006) Increased migration and metastatic potential of tumor cells expressing aquaporin water channels. Faseb J 20: pp. 1892-4
  70. Auguste, KI, Jin, S, Uchida, K, Yan, D, Manley, GT, Papadopoulos, MC (2007) Greatly impaired migration of implanted aquaporin-4-deficient astroglial cells in mouse brain toward a site of injury. Faseb J 21: pp. 108-16
  71. Saadoun, S, Papadopoulos, MC, Watanabe, H, Yan, D, Manley, GT, Verkman, AS (2005) Involvement of aquaporin-4 in astroglial cell migration and glial scar formation. J Cell Sci 118: pp. 5691-8
  72. Hiroaki, Y, Tani, K, Kamegawa, A, Gyobu, N, Nishikawa, K, Suzuki, H (2006) Implications of the aquaporin-4 structure on array formation and cell adhesion. J Mol Biol 355: pp. 628-39
  73. Gonen, T, Sliz, P, Kistler, J, Cheng, Y, Walz, T (2004) Aquaporin-0 membrane junctions reveal the structure of a closed water pore. Nature 429: pp. 193-7
  74. Warth, A, Muley, T, Meister, M, Herpel, E, Pathil, A, Hoffmann, H (2011) Loss of aquaporin-4 expression and putative function in non-small cell lung cancer. BMC Cancer 11: pp. 161
  75. Machida, Y, Ueda, Y, Shimasaki, M, Sato, K, Sagawa, M, Katsuda, S (2011) Relationship of aquaporin 1, 3, and 5 expression in lung cancer cells to cellular differentiation, invasive growth, and metastasis potential. Hum Pathol 42: pp. 669-78
  76. Lopez-Campos, JL, Sanchez, SR, Gomez, IL, Marquez, E, Ortega, RF, Cejudo, P (2011) Overexpression of Aquaporin-1 in lung adenocarcinomas and pleural mesotheliomas. Histol Histopathol 26: pp. 451-9
  77. Liu, YL, Matsuzaki, T, Nakazawa, T, Murata, S, Nakamura, N, Kondo, T (2007) Expression of aquaporin 3 (AQP3) in normal and neoplastic lung tissues. Hum Pathol 38: pp. 171-8
  78. Xia, H, Ma, YF, Yu, CH, Li, YJ, Tang, J, Li, JB (2014) Aquaporin 3 knockdown suppresses tumour growth and angiogenesis in experimental non-small cell lung cancer. Exp Physiol 99: pp. 974-84
  79. Xu, JL, Xia, R (2014) The emerging role of aquaporin 5 (AQP5) expression in systemic malignancies. Tumour Biol 35: pp. 6191-2
  80. Woo, J, Lee, J, Chae, YK, Kim, MS, Baek, JH, Park, JC (2008) Overexpression of AQP5, a putative oncogene, promotes cell growth and transformation. Cancer Lett 264: pp. 54-62
  81. Yoshida, T, Hojo, S, Sekine, S, Sawada, S, Okumura, T, Nagata, T (2013) Expression of aquaporin-1 is a poor prognostic factor for stage II and III colon cancer. Mol Clin Oncol 1: pp. 953-8
  82. Jiang, Y (2009) Aquaporin-1 activity of plasma membrane affects HT20 colon cancer cell migration. Iubmb Life 61: pp. 1001-9
  83. Li, A, Lu, D, Zhang, Y, Li, J, Fang, Y, Li, F (2013) Critical role of aquaporin-3 in epidermal growth factor-induced migration of colorectal carcinoma cells and its clinical significance. Oncol Rep 29: pp. 535-40
  84. Shan, T, Cui, X, Li, W, Lin, W, Li, Y (2014) AQP5: a novel biomarker that predicts poor clinical outcome in colorectal cancer. Oncol Rep 32: pp. 1564-70
  85. Shi, X, Wu, S, Yang, Y, Tang, L, Wang, Y, Dong, J (2014) AQP5 silencing suppresses p38 MAPK signaling and improves drug resistance in colon cancer cells. Tumour Biol 35: pp. 7035-45
  86. Dou, R, Deng, Y, Huang, L, Fu, S, Tan, S, Wang, L (2013) Multi-microarray identifies lower AQP9 expression in adjuvant chemotherapy nonresponders with stage III colorectal cancer. Cancer Lett 336: pp. 106-13
  87. Mazal, PR, Susani, M, Wrba, F, Haitel, A (2005) Diagnostic significance of aquaporin-1 in liver tumors. Hum Pathol 36: pp. 1226-31
  88. Padma, S, Smeltz, AM, Banks, PM, Iannitti, DA, McKillop, IH (2009) Altered aquaporin 9 expression and localization in human hepatocellular carcinoma. HPB (Oxford) 11: pp. 66-74
  89. Altieri, R, Agnoletti, A, Quattrucci, F, Garbossa, D, Calamo, SF, Bozzaro, M (2014) Molecular biology of gliomas: present and future challenges. Transl Med UniSa 10: pp. 29-37
  90. Oshio, K, Binder, DK, Liang, Y, Bollen, A, Feuerstein, B, Berger, MS (2005) Expression of the aquaporin-1 water channel in human glial tumors. Neurosurgery 56: pp. 375-81
  91. Oshio, K, Binder, DK, Bollen, A, Verkman, AS, Berger, MS, Manley, GT (2003) Aquaporin-1 expression in human glial tumors suggests a potential novel therapeutic target for tumor-associated edema. Acta Neurochir Suppl 86: pp. 499-502
  92. El, HN, Bankfalvi, A, Herring, A, Adamzik, M, Lambertz, N, Zhu, Y (2013) Correlation of aquaporin-1 water channel protein expression with tumor angiogenesis in human astrocytoma. Anticancer Res 33: pp. 609-13
  93. Hayashi, Y, Edwards, NA, Proescholdt, MA, Oldfield, EH, Merrill, MJ (2007) Regulation and function of aquaporin-1 in glioma cells. Neoplasia 9: pp. 777-87
  94. Betz, AL, Iannotti, F, Hoff, JT (1989) Brain edema: a classification based on blood-brain barrier integrity. Cerebrovasc Brain Metab Rev 1: pp. 133-54
  95. Yang, L, Wang, X, Zhen, S, Zhang, S, Kang, D, Lin, Z (2012) Aquaporin-4 upregulated expression in glioma tissue is a reaction to glioma-associated edema induced by vascular endothelial growth factor. Oncol Rep 28: pp. 1633-8
  96. Ding, T, Ma, Y, Li, W, Liu, X, Ying, G, Fu, L (2011) Role of aquaporin-4 in the regulation of migration and invasion of human glioma cells. Int J Oncol 38: pp. 1521-31
  97. Ding, T, Gu, F, Fu, L, Ma, YJ (2010) Aquaporin-4 in glioma invasion and an analysis of molecular mechanisms. J Clin Neurosci 17: pp. 1359-61
  98. Ding, T, Zhou, Y, Sun, K, Jiang, W, Li, W, Liu, X (2013) Knockdown a water channel protein, aquaporin-4, induced glioblastoma cell apoptosis. PLoS One 8: pp. e66751
  99. Warth, A, Mittelbronn, M, Hulper, P, Erdlenbruch, B, Wolburg, H (2007) Expression of the water channel protein aquaporin-9 in malignant brain tumors. Appl Immunohistochem Mol Morphol 15: pp. 193-8
  100. Zhang, B, Liu, FF, Ma, YJ, Gu, F (2013) Cytoplasmic expression of aquaporin-1 in breast cancer cells and its relationship with clinicopathological characteristics and prognosis. Zhonghua Zhong Liu Za Zhi 35: pp. 904-9
  101. Otterbach, F, Callies, R, Adamzik, M, Kimmig, R, Siffert, W, Schmid, KW (2010) Aquaporin 1 (AQP1) expression is a novel characteristic feature of a particularly aggressive subgroup of basal-like breast carcinomas. Breast Cancer Res Treat 120: pp. 67-76
  102. Zou, LB, Shi, S, Zhang, RJ, Wang, TT, Tan, YJ, Zhang, D (2013) Aquaporin-1 plays a crucial role in estrogen-induced tubulogenesis of vascular endothelial cells. J Clin Endocrinol Metab 98: pp. E672-82
  103. Cao, XC, Zhang, WR, Cao, WF, Liu, BW, Zhang, F, Zhao, HM (2013) Aquaporin3 is required for FGF-2-induced migration of human breast cancers. PLoS One 8: pp. e56735
  104. Trigueros-Motos, L, Perez-Torras, S, Casado, FJ, Molina-Arcas, M, Pastor-Anglada, M (2012) Aquaporin 3 (AQP3) participates in the cytotoxic response to nucleoside-derived drugs. BMC Cancer 12: pp. 434
  105. Jung, HJ, Park, JY, Jeon, HS, Kwon, TH (2011) Aquaporin-5: a marker protein for proliferation and migration of human breast cancer cells. PLoS One 6: pp. e28492
  106. Lee, SJ, Chae, YS, Kim, JG, Kim, WW, Jung, JH, Park, HY (2014) AQP5 expression predicts survival in patients with early breast cancer. Ann Surg Oncol 21: pp. 375-83
  107. Baum, BJ, Alevizos, I, Zheng, C, Cotrim, AP, Liu, S, McCullagh, L (2012) Early responses to adenoviral-mediated transfer of the aquaporin-1 cDNA for radiation-induced salivary hypofunction. Proc Natl Acad Sci U S A 109: pp. 19403-7
  108. Bergamo, A, Sava, G (2011) Ruthenium anticancer compounds: myths and realities of the emerging metal-based drugs. Dalton Trans 40: pp. 7817-23
  109. Niemietz, CM, Tyerman, SD (2002) New potent inhibitors of aquaporins: silver and gold compounds inhibit aquaporins of plant and human origin. Febs Lett 531: pp. 443-7
  110. Yang, J, Yan, C, Zheng, W, Chen, X (2012) Proliferation inhibition of cisplatin and aquaporin 5 expression in human ovarian cancer cell CAOV3. Arch Gynecol Obstet 285: pp. 239-45
  111. Pedersen, SF, Hoffmann, EK, Mills, JW (2001) The cytoskeleton and cell volume regulation. Comp Biochem Physiol A Mol Integr Physiol 130: pp. 385-99
  112. Monzani, E, Shtil, AA, Porta, CA (2007) The water channels, new druggable targets to combat cancer cell survival, invasiveness and metastasis. Curr Drug Targets 8: pp. 1132-7
  113. Verkman, AS, Anderson, MO, Papadopoulos, MC (2014) Aquaporins: important but elusive drug targets. Nat Rev Drug Discov 13: pp. 259-77
  114. Papadopoulos, MC, Verkman, AS (2012) Aquaporin 4 and neuromyelitis optica. Lancet Neurol 11: pp. 535-44
  115. Tradtrantip, L, Zhang, H, Saadoun, S, Phuan, PW, Lam, C, Papadopoulos, MC (2012) Anti-aquaporin-4 monoclonal antibody blocker therapy for neuromyelitis optica. Ann Neurol 71: pp. 314-22
  
• 刊物主题：Biomedicine general; Medicine/Public Health, general;
• 出版者：BioMed Central
• ISSN：1479-5876

文摘

Aquaporins (AQPs) are a family of water channel proteins distributed in various human tissues, responsible for the transport of small solutes such as glycerol, even gas and ions. The expression of AQPs has been found in more than 20 human cancer types and is significantly correlated with the severity of histological tumors and prognosis of patients with cancer. More recent evidence showed that AQPs could also play a role in tumor-associated edema, tumor cell proliferation and migration, and tumor angiogenesis in solid and hematological tumors. Inhibitors of AQPs in tumor cells and microvessels have been suggested as new therapeutic strategies. The present review overviews AQPs structures, expression variation among normal tissues and tumors, AQPs functions and roles in the development of cancer with special focuses on lung, colorectal, liver, brain and breast cancers, and potential AQPs-target inhibitors. We call the special attention to consider AQPs important as diagnostic and therapeutic biomarkers. It may be a novel anticancer therapy by the AQPs inhibition.