Abstract

            Cryopreservation is very important to stock precious tissues and cells including multipotent cells and primary cells without reducing their functions such as proliferation and differentiation. Traditional freezing media contain fetal bovine serum (FBS) for protecting cells and dimethyl sulfoxide (DMSO) as an anti-freezing reagent. However FBS has some risks such as pathogen contamination, high cost, variety of lot and shortage of supply, and DMSO will hurt cells in thawing process and after re-culture.In order to establish safer, more stable and valuable cryopreservation, serum-free freezing media has been proposed. Recombinant serum albumin, sericin and rakkyo fructan are prospective compounds as alternatives to FBS. Ethylene glycol (EG) and propylene glycol (PG) are used for serum-free freezing solutions as anti-freezing reagents combined with other cryopreservative compounds. There are 21 commercialized serum-free freezing media however most of their contents are not open. Therefore the confined information of research data will help youto find the optical serum-free freezing mediato various mammalian cells.

R. Ian Freshney: Culture of Animal Cells: A manual of Basic Technique fourth edition, Wiley-Liss (2000)

Brunner, D., Frank, J., Appl, H., Schöffl, H., Pfaller, W., and Gstraunthaler, G.: Serum-free cell culture: the serum-free media interactive online database. Altex, 27, 53e062 (2010)

Seth, G.: Freezing mammalian cells for production of biopharmaceuticals. Methods, 56(3): 424 – 431 (2012)

Shahdadfar, A., Katrine Frønsdal, K., Haug, T., Reinholt, F. P., Brinchmanna, J. E.l: In vitro expansion of human mesenchymal stem cells: Choice of serum is a determinant of cell proliferation, differentiation, gene expression, and transcriptome stability. Stem Cells, 23(9): 1357 – 1366 (2005)

Francis, G. L.: Albumin and mammalian cell culture: implications for biotechnology applications. Cytotechnology, 62(1): 1 – 16 (2010)

Chen, Z., He, Y., Shi, B., Yang, D.: Human serum albumin from recombinant DNA technology: challenges and strategies.Biochim Biophys Acta,1830(12): 5515 – 5525 (2013)

http://www.sigmaaldrich.com/catalog/product/sigma/a9731?lang=en&region=US

http://www.abcam.com/recombinant-human-serum-albumin-protein-ab201876.html

Kato, N., Sato, S., Yamanaka, A. Yamada, H., Fuwa, N., Nomura, M.: Silk Protein, Sericin, Inhibits Lipid Peroxidation and Tyrosinase Activity. Bioscience, Biotechnology, and Biochemistry, 62(1): 145 – 147 (1998)

Terada, S., Nishimura, T., Sasaki, M., Yamada, H., Miki, M.: Sericin, a protein derived fromsilkworms, accelerates the proliferation of severalmammalian cell lines including a hybridoma. Cytotechnology, 40: 3 – 12 (2002)

Takahashi, M., Tsujimoto, K., Kato, Y., Yamada, H., Takagi, H., Nakamori, S.: A sericin-derived peptide protects sf9 insect cells from death caused by acute serum deprivation. Biotechnol Lett., 27(13): 893 – 897 (2005)

Ogawa, A., Terada, S., Kanayama, T., Miki, M., Morikawa, M., Kimura, T., Yamaguchi, A., Sasaki, M., Yamada, H.: Improvement of islet culture with sericin. J. Biosci. Bioeng., 98(3): 217 – 219 (2004)

Tsujimoto, N., Takagi, H., Takahashi, M., Yamada, H., Nakamori, S.: Cryoprotective effect of the serine-rich repetitive sequence in silk protein sericin. J.. Biochem., 129(6): 979 – 986 (2001)

Terada, S. Kumagai, T. Ogawa, A. Ishimura, J., Miki, M., Ozaki, K., Sasaki, M., Yamada, H.: Transfecting anti-apoptosis genes into a hepatoma cell line in order to improve cryopreservation. Low temperature medicine, 29(1): 1 – 5 (2003)

Sasaki, M., Kato, Y., Yamada, H., Terada, S.: Development of a novel serum-free freezing medium for mammalian cells using the silk protein sericin. Biotechnology and Applied Biochemistry, 42(2): 183 – 188 (2005)

Ikeda, K., Oumi, Y., Ogawa, A., Sasaki, M., Yamada, H., Terada, S.: Cryopreservative Solution Using Sericin. Cells and Culture: Proceedings of the 20th ESACT Meeting, Dresden, Germany, June 17 – 20, 2007. T. Noll. Dordrecht, Springer Netherlands: 675-678 (2010)

JP2006-115837A, May, 11, 2006

Miyamoto, Y., Teramoto, N., Hayashi, S., Enosawa, S.: An improvement in the attaching capability of cryopreserved human hepatocytes by a proteinaceous high molecule, sericin, in the serum-free solution. Cell Transplantation,19(6): 701 – 706 (2010)

http://www.nacalai.co.jp/global/reagent/research/41.html

http://www.nacalai.co.jp/products/new/_cell_reservoir_one.html

Miyamoto, Y., Oishi, K., Yukawa, H., Noguchi, H., Sasaki, M., Iwata, H., Hayashi, S.: Cryopreservation of human adipose tissue-derived stem/progenitor cells using the silk protein sericin. Cell Transplantation,21(2-3): 617 – 622 (2012)

Ritsema, T., Smeekens, S.: Fructans: Beneficial for plants and humans. Current Opinion, 6, 223 – 230 (2003)

Hincha, D. K., Hellwege, E. M., Heyer, A. G., Crowe, J. H.: Plant fructans stabilize phosphatidylcholine liposomes during freeze-drying." Eur. J. Biochem.,267: 535 – 540 (2000)

Valluru, R., Ende, W.V.: Plant fructans in stress environments: emerging concepts and future prospects, Journal of Experimental Botany, 59, 2905 – 2916 (2008)

Higashiya, H.,Kobayashi, K., Terada, S.: Fructan as a Novel Effective Factor for Mammalian Cell Culture. Cells and Culture: Proceedings of the 20th ESACT Meeting, Dresden, Germany, June 17-20, 2007. T. Noll. Dordrecht, Springer Netherlands: 679 – 682 (2010)

Terada, S.,Mizui, S., Chida, Y., Shimizu, M., Ogawa, A. Ohura, T., Kobayashi, K., Yasukawa, S., Moriyama, N.: Cryopreservative solution using rakkyo fructan as cryoprotectant. BMC Proceedings, 7(6): 105 (2003)

Ogawa, A.,Mizui, S., Chida, Y., Shimizu, M., Terada, S., Ohura, T., Kobayashi, K., Yasukawa, S., Moriyama, N.: Rakkyo fructan as a cryoprotectant for serum-free cryopreservation of mammalian cells. J Biosci Bioeng.,118(1): 101 – 106 (2014)

Crowe, J. H., Crowe, L. M., Chapman, D.: Preservation of Membranes in Anhydrobiotic Organisms: The Role of Trehalose. Science,223(4637): 701 – 703 (1984)

Bhandal, I., Hauptmann, R. M., Widholm, J. M.: Trehalose as Cryoprotectant for the Freeze Preservation of Carrot and Tobacco Cells. Plant Physiology,78(2): 430 – 432 (1985)

Rayos, A. A., Takahashi, Y. Hishinuma, M., Kanagawa, H.: Quick freezing of unfertilized mouse oocytes using ethylene glycol with sucrose or trehalose. Journal of Reproduciton and Fertility,100: 123 – 129 (1994)

Katenz, E.,: Cryopreservation of primary human hepatocytes: the benefit of trehalose as an additional cryoprotective agent. Liver Transpl.13(1): 38 – 45 (2007)

Rodrigues, J. P.,Paraguassu-Braga, F. H., Carvalho, L., Abdelhay, E., Bouzas, L. F., Porto, L. C.: Evaluation of trehalose and sucrose as cryoprotectants for hematopoietic stem cells of umbilical cord blood. Cryobiology,56(2): 144 – 151 (2008).

Eroglu, A., Bailey, S. E., Toner, M., Toth, T. L.: Successful cryopreservation of mouse oocytes by using low concentrations of trehalose and dimethylsulfoxide. Biol. Reprod.,80(1): 70 – 78 (2009)

Quan, G. B., Han, Y., Liu, M. X., Fang, L., Du, W., Ren, S. P., Wang, J. X., Wang, Y.: Addition of oligosaccharide decreases the freezing lesions on human red blood cell membrane in the presence of dextran and glucose. Cryobiology, 62(2): 135 – 144 (2011)

Miyamoto, H., Ishibashi, T.: Survival of frozen-thawed mouse and rat embryo in the presence of ethylene glycol. J. Reprod. Fert. 50: 373 – 375 (1977)

Voelkel, S. A., Hu, Y. X.: Use of ethylene glycol as a cryoprotectant for bovine embryos allowing direct transfer of frozen-thawed embryos to recipient females. Theriogenology, 37(3): 687 – 697 (1992)

Spindler, R.,Rosenhahn, B., Hofmann, N., Glasmacher, B.: Video analysis of osmotic cell response during cryopreservation." Cryobiology,64(3): 250 –260 (2012).

Waymouth, C., Varnum, D.: Simple freezing procedure for storage in serum-freemedia of cultured and tumor cells of mouse. TCA Manual 2:1, 311 –313 (1976)

Nie, W., Wei, M. T., Ou-Yang, H. D., Jedlicka, S. S., Vavylonis, D.: Formation of contractile networks and fibers in the medial cell cortex through myosin-II turnover, contraction, and stress-stabilization. Cytoskeleton,72(1): 29 – 46 (2015).

Waymouth, C., Varnum, D.: Simple freezing procedure for storage in serum-freemedia of cultured and tumor dells of mouse. TCA Manual, 2(1): 311 –313 (1976)

Stylianou, J., Vowels, M., Hadfield, K.: Novel cryoprotectant significantly improves the post-thaw recovery and quality of HSC from CB.Cytotherapy,8(1): 57 –61 (2006).

Clarke, D. M., Yadock, D. J., Nicoud, I. B.,Mathew, A. J., Heimfeld, S.: Improved post-thaw recovery of peripheral blood stem/progenitor cells using a novel intracellular-like cryopreservation solution. Cytotherapy, 11(4): 472 –479 (2009)

Matsumura, K., Hyon, S. H.: Polyampholytes as low toxic efficient cryoprotective agents with antifreeze protein properties. Biomaterials,30(27): 4842 –4849(2009)

Matsumura, K.,Bae, J.Y., Hyon, S. H.: Polyampholytes as cryoprotective agents for mammalian cell cryopreservation. Cell Transplantation,19(6): 691 – 699 (2010)

Murphy, S., Rosli, S., Acharya, R., Mathias, L., Lim, R., Wallace, E., Jenkin, G.: Amnion Epithelial Cell Isolation and Characterization for Clinical Use. Current Protocols in Stem Cell Biology, John Wiley & Sons, Inc. (2007)

Miki, T., Wong, W., Zhou, E., Gonzalez, A., Garcia, I., Grubbs, B. H.: Biological impact of xeno-free chemically defined cryopreservation medium on amniotic epithelial cells. Stem Cell Res Ther. 7: 8 (2016)

Lemaire, S.,Kosowska-Shick, K., Appelbaum, P. C., Verween, G., Tulkens, P. M., Van Bambeke, F.: Cellular pharmacodynamics of the novel biaryloxazolidinone radezolid: studies with infected phagocytic and nonphagocytic cells, using Staphylococcus aureus, Staphylococcus epidermidis, Listeria monocytogenes, and Legionella pneumophila. Antimicrob Agents Chemother., 54(6): 2549 – 2559 (2010)

Buzzard, J. J., Gough, N. M., Crook, J. M., Colman, A.: Karyotype of human ES cells during extended culture." Nat. Biotech. 22(4): 381 – 382 (2004)

Draper, J. S.,Smith, K., Gokhale, P., Moore, H. D., Maltby, E., Johnson, J., Meisner, L., Zwaka, T. P., Thomson, J. A., Andrews, P. W.: Recurrent gain of chromosomes 17q and 12 in cultured human embryonic stem cells. Nat. Biotech., 22(1): 53 – 54 (2004)

Xia, G.,Santostefano, K., Hamazaki, T., Liu, J., Subramony, S. H., Terada, N., Ashizawa, T.: Generation of human-induced pluripotent stem cells to model spinocerebellar ataxia type 2 in vitro. J. Mol. Neurosci., 51(2): 237 – 248 (2013)

Xia, G.,Santostefano, K. E., Goodwin, M., Liu, J., Subramony, S. H., Swanson, M. S., Terada, N., Ashizawa, T.: Generation of neural cells from DM1 induced pluripotent stem cells as cellular model for the study of central nervous system neuropathogenesis. Cell Reprogram, 15(2): 166 – 177 (2013)

Busskamp, V., Lewis, N. E., Guye, P., Ng, A. H., Shipman, S. L., Byrne, S. M., Sanjana, N. E., Murn, J., Li, Y., Li, S., Stadler, M., Weiss, R., Church, G. M.: Rapid neurogenesis through transcriptional activation in human stem cells. Mol. Syst. Biol.,10: 760(2014)

Hansen, S. K., Borland, H., Hasholt, L. F., Tumer, Z., Nielsen, J. E., Rasmussen, M. A., Nielsen, T. T., Stummann, T. C., Fog, K., Hyttel, P.: Generation of spinocerebellar ataxia type 3 patient-derived induced pluripotent stem cell line SCA3.B11. Stem Cell Res 16(3): 589 – 592 (2016)

Nakamura A., Ueno, T., Yagi, Y., Okuda, K., Ogata, T., Nakamura, T., Torimura, T., Iwamoto, H., Ramadoss, S., Sata, M., Tsutsumi, V., Yasuda, K., Tomiyasu, Y., Obayashi, K., Tashiro, K., Kuhara, S.: Human primary cultured hepatic stellate cells can be cryopreserved. Med. Mol. Morphol., 43:107 – 115 (2010)

Holm, F., Strom, S., Inzunza, J., Baker, D., Stromberg, A. M., Rozell, B., Feki, A., Bergstrom, R., Hovatta, O.: An effective serum- and xeno-free chemically defined freezing procedure for human embryonic and induced pluripotent stem cells." Hum. Reprod.,25(5): 1271 – 1279 (2010)

Miyamoto, Y., Oishi, K., Yukawa, H., Noguchi, H., Sasaki, M., Iwata, H., Hayashi, S.: Cryopreservation of human adipose tissue-derived stem/progenitor cells using the silk protein sericin. Cell Transplant.,21(2-3): 617 – 622 (2012)

Saliem, M., Holm, F., Tengzelius, R. B., Jorns, C., Nilsson, L. M., Ericzon, B. G., Ellis, E., Hovatta, O.: Improved cryopreservation of human hepatocytes using a new xeno free cryoprotectant solution. World J Hepatol., 4(5):176 – 83 (2012)

Nakagawa, M., Taniguchi, Y., Senda, S., Takizawa, N., Ichisaka, T., Asano, K., Morizane, A., Doi, D., Takahashi, J., Nishizawa, M., Yoshida, Y., Toyoda, T., Osafune, K., Sekiguchi, K., Yamanaka, S.: A novel efficient feeder-free culture system for the derivation of human induced pluripotent stem cells. Scientific Reports, 4: 3594 – 3600 (2014)

Shimazu, T., Mori, Y., Takahashi, A., Tsunoda, H., Tojo, A., Nagamura-Inoue, T.: Serum- and xeno-free cryopreservation of human umbilical cord tissue as mesenchymal stromal cell source. Cytotherapy,17: 593– 600 (2015)