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化学进展 2011

人工氧载体研究进展

, PP. 963-973

殷晓春,王荣民,何玉凤,朱永峰,裴菲

Keywords: 人工氧载体,血液替代品,血红蛋白,金属卟啉,高分子金属配合物

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Abstract:

血液需求的激增和异体输血的不安全性等问题的出现,促使人们合成“血液替代品”。通过对天然氧载体(即血红蛋白)结构与性能的清晰认识,已有多种人工氧载体被成功合成,并应用于临床试验。人工氧载体可分为全氟碳化合物、血红蛋白基氧载体、合成血红素及其高分子配合物三大类。全氟碳化合物虽大部分已退出人工血液市场,但因其具有治疗作用,研究工作仍在进行。为了降低血红蛋白基氧载体的副作用,已采用多种方法对血红蛋白进行改性,如采用化学修饰、微囊包裹(HbV)、重组和仿生纳米等技术。其中,血红蛋白囊泡模拟红细胞的结构,其粒径相对较大(250nm),副作用相对较低,是目前血红蛋白基氧载体的发展趋势。人工合成血红素如栏式卟啉只溶于有机溶剂,为增加其水溶性,可使其与白蛋白、木糖醇酶和环糊精等高分子结合为配合物,经动物实验表明,这些高分子金属配合物在体内具有运送氧气功能。除主要在临床上用作血液代替品外,人工氧载体还在肿瘤治疗、器官移植和缺血/再灌注损伤的预防等方面具有重要的临床应用价值。

References

[1]	Kobayashi K, Tsuchida E, Horinouchi H. Artificial Oxygen Carrier. Tokyo: Springer, 2005. 1-18
[2]	Scholer M, Frietsch T, Jambor C, Knels R. Dtsch. Med. Wochenschr., 2010, 135(12): 575-581
[3]	路秀玲(Lu X L). 生物工程学报(Chinese Journal of Biotechnology), 2006, 22(1): 7-18
[4]	王雁峰(Wang Y F), 潘继伦(Pan J L), 俞耀庭(Yu Y T). 生物医学工程学杂志(J. Biomed. Eng.), 2004, 21(3): 490-494
[5]	Clark LC, Gollan F. Science, 1966, 152(730): 1755-1756
[6]	Geyer R, Monroe R, Taylor K. Fed. Proc., 1968. 27: 384
[7]	Ohyanagi H, Toshima K, Sekita M, Okamoto M, Itoh T, Mitsuno T. Clin. Ther., 1979, 2: 306-312
[8]	Maevsky E I, Ivanitsky G R, Makarov K N, Arkhipov V V, Ivashina A I, Kulakova G M, Moroz V V, Pushkin S J, Senina R Y, Starovoitova L N. US 6562872, 2003
[9]	Maevsky E I, Axenova O G, Moroz V V, Senina R, Pushkin S, Ivanitsky G. Vestnik Sluzhby Krovi Russ, 2001, 4: 23-29
[10]	Keipert P E. Art. Cells Blood Subs. Immob Biotechnol., 1995, 23: 381- 394
[11]	郑志风(Zheng Z F), 徐宏(Xu H), 董岩(Dong Y), 古宏晨(Gu H C). 化学世界(Chemistry Word), 2001, 42(8): 43-45
[12]	Moldovan J. Dtsch. Med. Wochenschr., 1910, 2: 2422-2425
[13]	Kobayashi K, Tsuchida E, Horinouchi H. Artificial Oxygen Carrier. Tokoy: Springer, 2005. 38-49
[14]	Bunn H F, Jandl J H. Trans. Assoc. Am. Physicians, 1968, 81: 147-152
[15]	路秀玲(Lu X L), 郑春杨(Zheng C Y), 徐宇红(Xu Y H), 苏志国(Su Z G). 中国科学(生命科学)(Science in China (Life Sciences)), 2004, 34(4): 350-359
[16]	Winslow R M (Ed). Blood Substitutes. London: Academic Press, 2006, 386-398
[17]	Bonsen P, Laver M B, Morris K C. US 4001200, 1975
[18]	Humphries R G, Killingback P G, Mann J, Sempik J, Wilson J. Br. J. Pharmacol., 1981, 74: 266
[19]	Scholer M, Frietsch T, Jambor C, Knels R. Dtsch. Med. Wochenschr., 2010, 135(12): 575-581
[20]	Nolte D, Steinhauser P, Pickelmann S, Berger S, Hrtl R, Messmer K. J. Lab. Clin. Med., 1997, 130(3): 328-338
[21]	Thompson A, McGarry A E, Valeri C R, Liberthal W. J. Appl. Physiol., 1994, 77(5): 2348-2354
[22]	Gould S A, Sehgal L R, Sehgal H L, Moss G S. Transfusion Science, 1995, 16(1): 5-17
[23]	Vandegriff K, Bellelli A, Samaja M, Malavalli A, Brunori M, Winslow R M. FASEB J., 2003, 17: A183-A183
[24]	Vandegriff K D, Malavalli A, Wooldridge J, Lohman J, Winslow R M. Transfusion, 2003, 43(4): 509-516
[25]	De Figueiredo L F, Mathru M, Solanki D, Macdonald V W, Hess J, Kramer G C. J. Trauma., 1997, 42(5): 847-854
[26]	Natanson C, Kern S J, Lurie P, Banks S M, Wolfe S M. JAMA, 2008, 299(19): 2304-2312
[27]	王昕(Wang X), 赵树铭(Zhao S M). 国际检验医学杂志(International Journal of Laboratory Medicine)2008, 29(5): 418-420
[28]	Kobayashi K, Tsuchida E, Horinouchi H. Artificial Oxygen Carrier, Tokyo: Springer, 2005, 135-160
[29]	Pape A, Kertscho H, Meier J, Horn O, Laout M, Steche M, Lossen M, Theisen A, Zwissler B, Habler O. Intensive Care Med., 2008, 34(8): 1534-1543
[30]	Sakai H, Hara H, Yuasa M, Tsai AG, Takeoka S, Tsuchida E, Intaglietta M. Am J. Physiol. Heart. Circ. Physiol., 2000, 279(3): H908-H915
[31]	Sakai H, Sou K, Horinouchi H, Kobayashi K, Tsuchida E. Adv. Exp. Med. Biol., 2010, 662: 433-438
[32]	Izumi Y, Sakai H, Kose T, Hamada K, Takeoka S, Yoshizu A, Horinouchi H, Kato R, Nishide H, Tsuchida E, Kobayashi K. ASAIO J., 1997, 43(4): 289-297
[33]	Linberg R, Conover C D, Shum K L, Shorr R G. In Vivo, 1998, 12(2): 167-173
[34]	Plock J A, Tromp A E, Contaldo C, Spanholtz T, Sinovcic D, Sakai H, Tsuchida E, Leunig M, Banic A, Erni D. Crit. Care Med., 2007, 35(3): 899- 905
[35]	Looker D, Abbott-Brown D, Cozart P, Durfee S, Hoffman S, Mathews A J, Miller-Roehrich J, Shoemaker S, Trimble S, Fermi G, Komiyama N H, Nagai K, Stetler G L. Nature, 1992, 356: 258-260
[36]	Collman J P. Acc. Chem. Res., 1977, 10: 265-272
[37]	Riess J G. Chem. Rev., 2001, 101: 2797-2919
[38]	Komatsu T, Matsukawa Y, Tsuchida E. Bioconjugate Chem., 2001, 12(1): 71-75
[39]	Tsuchida E, Sou K, Nakagawa A, Sakai H, Komatsu T, Kobayashi K. Bioconjugate Chem., 2009, 20 (8): 1419-1440
[40]	Komatsu T, Hamamatsu K, Tsuchida E. Macromolecules, 1999, 32(25): 8388-8391
[41]	Komatsu T, Ishihara S, Tsuchida E, Nishide H, Morokuma C, Nakamura S. Biomacromolecules, 2005, 6(3): 1489-1494
[42]	Kano K, Kitagishi H, Tanaka S. J. Incl. Phenom. Macro. Chem., 2006, 56: 69-74
[43]	Lok C. Nature, 2001, 410(15): 855
[44]	Cabrales P. J. Am. Coll. Surg., 2010, 210(3): 271-279
[45]	Squires J E. Science, 2002, 295(5557): 1002-1005
[46]	Wu W, Li T, Liu J, Yang C. Artif. Cells Blood Substit. Immobil. Biotechnol., 2011, 39(1): 3-6
[47]	Mahon R T, Watanabe T T, Wilson M C, Auker C R. Aviat. Space Environ. Med., 2010, 81(6): 555-559
[48]	Zhang Z, He R, Yan K, Guo Q N, Lu Y G, Wang X X, Lei H, Li Z Y. Bioorg. Med. Chem. Lett., 2009, 19(23): 6675-6678
[49]	Klein H G. Transfusion Medicine. Blood Substitutes(ed. Winslow R M). London: Academic Press, 2006. 17-41
[50]	黄宇彬 (Huang Y B), 景遐斌 (Jing X B), 石全 (Shi Q), 孙静 (Sun J), 陈学思(Chen X S). 中国医疗器械信息(China Medcial Device Information), 2009, 15(5): 5-10
[51]	Tsuchida E. Blood Substitutes, Present and Future Perspectives (ed. Tsuchida E). Amsterdam: Elsevier, 1998, 1-15
[52]	Petz L D, Kleinmann S, Swisher S N, Spence R K, Strauss R G. Clinial Practice of Transfusion Medicine. 3rd ed. NY: Churchill Livingstone, 1996. 563-579
[53]	Lu X L, Zheng C Y, Shi X D, Wang Y Q, Suo X Y, Yu P Z, Xu Y H, Ma T M, Su Z G. Artif. Cells. Blood. Substit. Immobil. Biotechnol., 2005, 33(2): 83- 99
[54]	Zhu X L, Chu W, Fan D D, Dan N, Chen C, Wang T W, Wang F. Artificial Cells, Blood Substitutes and Biotechnology, 2007, 35(5): 518-532
[55]	Huang Y B, Jing X W, Chen X S. New Type of Oxygen Transport boby-Polymer/ Micronano-particles of Hemoglobin. Chengdu: Chinese Biomaterials Congress, 2010, S8-1-1
[56]	王红梅(Wang H M), 王保龙(Wang B L), 姚萍(Yao P), 苏虹(Su H). 临床输血与检验(J. Clin. Transfus. Lab. Med.), 2005, 7(4): 314-317
[57]	Chang T M S. Blood Substitutes:Principle,Methods,Products and Clinical Trials. Basel: Karger Publisher, 1997. 216-231.
[58]	Paoli M, Liddington R, Tame J, Wilkinson A, Dodson G. J. Mol. Biol., 1996, 256(4): 775-792
[59]	査锡良(Zha X L), 周春燕(Zhou C Y). 生物化学(Biochemistry). 北京: 人民卫生出版社(Beijing: People's Health Publisher), 2009, 26-28
[60]	Daltrop O, Ferguson S J. J. Biol. Chem., 2004, 279(44): 45347-45353
[61]	王荣民(Wang R M), 朱永峰(Zhu Y F), 何玉凤(He Y F), 李岩(Li Y), 毛崇武(Mao C W), 何乃普(He N P). 化学进展(Prog. Chem. ), 2010, 22: 1952-1963
[62]	Maevsky E I, Ivanitsky H R, Islamov S B, Moroz V V, Bogdanova L A, Karmen N B, Pushkin S Y, Maslennikov I A. Blood Substitutes (ed. Winslow RM). London: Academic Press, 2006. 289-295
[63]	Keipert P E. Blood Subtitutes(ed. Winslow RM). London: Academic Press, 2006. 312- 321
[64]	Riess J G. Vox. Sang., 1991, 61(4): 225-239
[65]	Bauer J, Zahres M, Zellermann A, Kirsch M, Petrat F, de Groot H, Mayer C. J. Microencapsul., 2010, 27(2): 122-132
[66]	Thomas T G. NY Med. J., 1878, 27: 449-465
[67]	Amberson W R, Mulder A G, Steggerda F R, Flexner J, Pankratz D S. Science, 1933, 78(2014): 106-107
[68]	万英(Wan Y), 周剑涛(Zhou J T). 中国生化药物杂志(Chinese Journal of Biochemical Pharmaceutics), 2004, 25(3): 178- 180
[69]	Chatterjee R, Welty E V, Walder R Y, Pruitt S L, Rogers P H, Arnone A, Walder J A. J. Biol. Chem., 1986, 261(21): 9929-9937.
[70]	Johnson J L, Moore E E, Offner P J, Haenel J B, Hides G A, Tamura D Y. Am. J. Surg., 1998, 176(6): 612-617
[71]	Zheng C Y, Bi J X, Ma G H, Su Z G. Artificial Cells, Blood Substitutes and Biotechnology, 2007, 35: 568-584
[72]	Lui F E, Kluger R. Biochemistry, 2009, 48(50): 11912-11919
[73]	Burhop K, Gordon D, Estep T. Artif. Cells Blood Substit. Immobil. Biotechnol., 2004, 32(3): 353-374
[74]	Sakai H, Sou K, Horinouchi H, Kobayashi K, Tsuchida E. Artificial Organs, 2009, 33(2): 139-145
[75]	Rudolph A S, Klipper R W, Goins B, Phillips W T. Proc. Natl. Acad. Sci. USA, 1991, 88(23): 10976-10980
[76]	赵健(Zhao J), 单晓茜(Shan X Q), 盛燕(Sheng Y), 吴凡(Wu F), 袁媛(Yuan Y), 刘昌胜(Liu C S). 生物医学工程学杂志(J. Biomed. Eng.), 2008, 25(3): 584-588
[77]	Sakai H, Sou K, Horinouchi H, Kobayashi K, Tsuchida E. J. Intern. Med., 2008, 263(1): 4-15
[78]	Abe H, Azuma H, Yamaguchi M, Fujihara M, Ikeda H, Sakai H, Takeoka S, Tsuchida E. Artif. Cells Blood Substit. Immobil. Biotechnol., 2007, 35(2): 157-172
[79]	Sakai H, Tomiyama KI, Sou K, Takeoka S, Tsuchida E. Bioconjug. Chem., 2000, 11(3): 425-432
[80]	Horinouchi H, Sakai H, Izumi Y, Kohno M, Tsuchida E, Kobayashi K. ISBT Science Series, 2009, 4: 409-410
[81]	Kobayashi K, Tsuchida E, Horinouchi H. Artificial Oxygen Carrier. Tokyo: Springer, 2005, 127-134
[82]	Chang T M. Wiley Interdiscip Rev. Nanomed Nanobiotechnol., 2010, 2(4): 418-430
[83]	Chauvierre C, Manchanda R, Labarre D, Vauthier C, Marden M C, Leclerc L. Biomaterials, 2010, 31(23): 6069-6074
[84]	Mot A C, Roman A, Lupan I, Kurtz D M Jr. Silaghi-Dumitrescu R. Protein J. 2010, 29(6): 387-393
[85]	Tsuchida E, Nishide H, Ohno H. Artif. Cell. Artif. Organ., 1988, 16(1/3): 313-319.
[86]	Collman J P, Gagne R R, Halbert T R, Marchon J C, Reed C A. J. Am. Chem. Soc., 1973, 95(23): 7868-7870
[87]	Cameron J H, Graham S, Harvey B H, Liggat J J, McKee A, Soutar I, Scott E L. React. Funct. Polym., 1998, 36(2): 173-183
[88]	Nakagawa A, Komatsu T, Iizuka M, Tsuchida E. Bioconjugate Chem., 2008, 19(3): 581-584
[89]	Tsuchida E, Komatsu T, Hamamatsu K, Matsukawa Y, Tajima A, Yoshizu A, Izumi Y, Kobayashi K. Bioconjugate Chem., 2000, 11(1): 46-50
[90]	Huang Y, Komatsua T, Yamamoto H, Horinouchi H, Kobayashi K, Tsuchida E. Biomaterials, 2006, 27(25): 4477-4483
[91]	Wang R M, Komatsu T, Nakagawa A, Tsuchida E. Bioconjugate Chem., 2005, 16(1) : 23-26
[92]	Kano K, Kitagishi H, Kodera M, Hirota S. Angew. Chem. Int. Ed., 2005, 44: 435-438
[93]	Kano K, Kitagishi H, Dagallier C, Kodera M, Matsuo T, Hayashi T, Hisaeda Y, Hirota S. Inorg. Chem., 2006, 45(11): 4448-4460
[94]	Kano K, Kitagishi H, Mabuchi T, Kodera M, Hirota S. Chem. Asian J., 2006, 1(3): 358-366
[95]	Chen J Y, Scerbo M, Kramer G. Clinics, 2009, 64(8): 803-813
[96]	Donahue L L, Shapira I, Shander A, Kolitz J, Allen S, Greenburg G. Transfusion. 2010, 50(7): 1561-1567
[97]	Pierre L. . http: //biomed. brown. edu/Courses/BI108/2006- 108websites/group09artificialblood/index. htm
[98]	Verdu E F, Bercik P, Huang X X, Lu J, Al-Mutawaly N, Sakai H, Tompkins T A, Croitoru K, Tsuchida E, Perdue M, Collins S M. Am. J. Physiol. Gastrointest Liver Physiol., 2008, 295(4): G664-G670
[99]	Yamagishi T, Bessho M, Hama M, Katoh R, Yanagida S, Kusuhara M, Ohsuzu F. Artif. Blood, 2007, 14(3): 92-97
[100]	Lanza G M, Winter P M, Caruthers S D, Hughes M S, Hu G, Schmieder A H, Wickline S A. Angiogenesis, 2010, 13(2): 189-202

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