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Organogenesis Volume 14, 2018 - Issue 2
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Research Paper

Serum- and albumin-free cryopreservation of endothelial monolayers with a new solution

Gesine Pless-PetigInstitut für Physiologische Chemie, Universitätsklinikum Essen, Essen, GermanyORCID Iconhttp://orcid.org/0000-0001-8843-6607View further author information
ORCID Icon,
Sven KnoopInstitut für Physiologische Chemie, Universitätsklinikum Essen, Essen, GermanyView further author information
&
Ursula RauenInstitut für Physiologische Chemie, Universitätsklinikum Essen, Essen, GermanyCorrespondence[email protected]
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Pages 107-121 | Received 21 Dec 2017, Accepted 12 Jul 2018, Published online: 06 Aug 2018

References

  • Traore MA, George SC. Tissue engineering the vascular tree. Tissue Eng Part B Rev. 2017;23(6):505–514.
  • Kimura H, Sakai Y, Fujii T. Organ/body-on-a-chip based on microfluidic technology for drug discovery. Drug Metab Pharmacok. 2017. DOI:10.1016/j.dmpk.2017.11.003
  • Jashari R, Van Hoeck B, Ngakam R, Goffin Y, Fan Y. Banking of cryopreserved arterial allografts in Europe: 20 years of operation in the European Homograft Bank (EHB) in Brussels. Cell Tissue Bank. 2013;14(4):589–599.
  • Rendal Vazquez ME, Rodriguez Cabarcos M, Fernandez Mallo RO, Sanchez Ibanez J, Segura Iglesias R, Bermudez Gonzalez T, Matheu Capo G, Filgueira Fernandez P, Pertega Diaz S, Andion Nunez C. Functional assessment of human femoral arteries after cryopreservation. Cryobiology. 2004;49(1):83–89.
  • Buzzi M, Mirelli M, Vaselli C, Tazzari PL, Terzi A, Stella A, Conte R. Vascular tissue banking: state of the art. Transplant Proc. 2005;37(6):2428–2429.
  • Ku DD, Winn MJ, Grigsby T, Caulfield JB. Human coronary vascular smooth muscle and endothelium-dependent responses after storage at −75 degrees C. Cryobiology. 1992;29(2):199–209.
  • Wusteman MC, Pegg DE, Warwick RM. The banking of arterial allografts in the United kingdom. A technical and clinical review. Cell Tissue Bank. 2000;1(4):295–301.
  • Stanke F, Riebel D, Carmine S, Cracowski JL, Caron F, Magne JL, Egelhoffer H, Bessard G, Devillier P. Functional assessment of human femoral arteries after cryopreservation. J Vasc Surg. 1998;28(2):273–283.
  • Langerak SE, Groenink M, van der Wall EE, Wassenaar C, Vanbavel E, van Baal MC, Spaan JA. Impact of current cryopreservation procedures on mechanical and functional properties of human aortic homografts. Transpl Int. 2001;14(4):248–255.
  • Wille T, de Groot H, Rauen U. Improvement of the cold storage of blood vessels with a vascular preservation solution. Study in porcine aortic segments. J Vasc Surg. 2008;47(2):422–431.
  • Zatschler B, Dieterich P, Muller B, Kasper M, Rauen U, Deussen A. Improved vessel preservation after 4 days of cold storage: experimental study in rat arteries. J Vasc Surg. 2009;50(2):397–406.
  • Veres G, Hegedus P, Barnucz E, Schmidt H, Radovits T, Zoller R, Karck M, Szabo G. TiProtec preserves endothelial function in a rat model. J Surg Res. 2016;200(1):346–355.
  • Garbe S, Zatschler B, Muller B, Dieterich P, Ebner A, Rauen U, Matschke K, Deussen A. Preservation of human artery function following prolonged cold storage with a new solution. J Vasc Surg. 2011;53(4):1063–1070.
  • Rauen U, Kerkweg U, Weisheit D, Petrat F, Sustmann R, de Groot H. Cold-induced apoptosis of hepatocytes: mitochondrial permeability transition triggered by nonmitochondrial chelatable iron. Free Radic Biol Med. 2003;35(12):1664–1678.
  • Rauen U, Petrat F, Li T, de Groot H. Hypothermia injury/cold-induced apoptosis – evidence of an increase in chelatable iron causing oxidative injury in spite of low O2−/H2O2 formation. FASEB J. 2000;14(13):1953–1964.
  • Brecht M, de Groot H. Protection from hypoxic injury in cultured hepatocytes by glycine, alanine, and serine. Amino Acids. 1994;6(1):25–35.
  • Frank A, Rauen U, de Groot H. Protection by glycine against hypoxic injury of rat hepatocytes: inhibition of ion fluxes through nonspecific leaks. J Hepatol. 2000;32(1):58–66.
  • Pless-Petig G, Rauen U. Serum-free cryopreservation of primary rat hepatocytes in a modified cold storage solution – improvement of cell attachment and function. Biopreserv Biobank. 2018;in press. doi:10.1089/bio.2018.0002.
  • Rauen U, Kerkweg U, de Groot H. Iron-dependent vs. iron-independent cold-induced injury to cultured rat hepatocytes: a comparative study in physiological media and organ preservation solutions. Cryobiology. 2007;54(1):77–86.
  • Pless-Petig G, Singer BB, Rauen U. Cold storage of rat hepatocyte suspensions for one week in a customized cold storage solution – preservation of cell attachment and metabolism. PLoS ONE. 2012;7(7):e40444.
  • Pegg DE. The relevance of ice crystal formation for the cryopreservation of tissues and organs. Cryobiology. 2010;60(3 Suppl):S36–44.
  • Mazur P, Leibo SP, Chu EH. A two-factor hypothesis of freezing injury. Evidence from Chinese hamster tissue-culture cells. Exp Cell Res. 1972;71(2):345–355.
  • Mazur P. A biologist’s view of the relevance of thermodynamics and physical chemistry to cryobiology. Cryobiology. 2010;60(1):4–10.
  • Fuller B, Paynter S. Fundamentals of cryobiology in reproductive medicine. Reprod Biomed Online. 2004;9(6):680–691.
  • Armitage WJ. Cryopreservation of animal cells. Symp Soc Exp Biol. 1987;41:379–393.
  • Wusteman MC, Pegg DE. Differences in the requirements for cryopreservation of porcine aortic smooth muscle and endothelial cells. Tissue Eng. 2001;7(5):507–518.
  • Arnaud F. Endothelial and smooth muscle changes of the thoracic and abdominal aorta with various types of cryopreservation. J Surg Res. 2000;89(2):147–154.
  • Brockbank KG. Effects of cryopreservation upon vein function in vivo. Cryobiology. 1994;31(1):71–81.
  • Lehle K, Hoenicka M, Jacobs VR, Schmid FX, Birnbaum DE. Identification and reduction of cryoinjury in endothelial cells: a first step toward establishing a cell bank for vascular tissue engineering. Tissue Eng. 2006;12(12):3439–3447.
  • Rigol M, Heras M, Martinez A, Zurbano MJ, Agusti E, Roig E, Pomar JL, Sanz G. Changes in the cooling rate and medium improve the vascular function in cryopreserved porcine femoral arteries. J Vasc Surg. 2000;31(5):1018–1025.
  • Krs O, Burkert J, Slizova D, Kobylka P, Spatenka J. Allograft semilunar cardiac valves processing and cryopreservation - morphology in scanning electron microscope. Cell Tissue Bank. 2006;7(3):167–173.
  • Lehle K, Hoenicka M, Jacobs VR, Schmid FX, Birnbaum DE. Cryopreservation of human endothelial cells for vascular tissue engineering. Cryobiology. 2005;50(2):154–161.
  • Polchow B, Kebbel K, Schmiedeknecht G, Reichardt A, Henrich W, Hetzer R, Lueders C. Cryopreservation of human vascular umbilical cord cells under good manufacturing practice conditions for future cell banks. J Transl Med. 2012;10:98.
  • Bambang LS, Mazzucotelli JP, Moczar M, Beaujean F, Loisance D. Effects of cryopreservation on the proliferation and anticoagulant activity of human saphenous vein endothelial cells. J Thorac Cardiovasc Surg. 1995;110(4 Pt 1):998–1004.
  • Rauen U, de Groot H. New insights into the cellular and molecular mechanisms of cold storage injury. J Invest Med. 2004;52(5):299–309.
  • Salahudeen AK, Huang H, Joshi M, Moore NA, Jenkins JK. Involvement of the mitochondrial pathway in cold storage and rewarming-associated apoptosis of human renal proximal tubular cells. Am J Transplant. 2003;3(3):273–280.
  • Martin G, Sabido O, Durand P, Levy R. Cryopreservation induces an apoptosis-like mechanism in bull sperm. Biol Reprod. 2004;71(1):28–37.
  • Paasch U, Sharma RK, Gupta AK, Grunewald S, Mascha EJ, Thomas AJ, Jr., Glander HJ, Agarwal A. Cryopreservation and thawing is associated with varying extent of activation of apoptotic machinery in subsets of ejaculated human spermatozoa. Biol Reprod. 2004;71(6):1828–1837.
  • Forero-Gonzalez RA, Celeghini EC, Raphael CF, Andrade AF, Bressan FF, Arruda RP. Effects of bovine sperm cryopreservation using different freezing techniques and cryoprotective agents on plasma, acrosomal and mitochondrial membranes. Andrologia. 2012;44(Suppl 1):154–159.
  • Sohn IP, Ahn HJ, Park DW, Gye MC, Jo DH, Kim SY, Min CK, Kwon HC. Amelioration of mitochondrial dysfunction and apoptosis of two-cell mouse embryos after freezing and thawing by the high frequency liquid nitrogen infusion. Mol Cells. 2002;13(2):272–280.
  • Kuznetsov AV, Kunz WS, Saks V, Usson Y, Mazat JP, Letellier T, Gellerich FN, Margreiter R. Cryopreservation of mitochondria and mitochondrial function in cardiac and skeletal muscle fibers. Anal Biochem. 2003;319(2):296–303.
  • Larsen S, Wright-Paradis C, Gnaiger E, Helge JW, Boushel R. Cryopreservation of human skeletal muscle impairs mitochondrial function. Cryo Letters. 2012;33(3):170–176.
  • Stephenne X, Najimi M, Ngoc DK, Smets F, Hue L, Guigas B, Sokal EM. Cryopreservation of human hepatocytes alters the mitochondrial respiratory chain complex 1. Cell Transplant. 2007;16(4):409–419.
  • De Loecker P, Fuller BJ, De Loecker W. The effects of cryopreservation on protein synthesis and membrane transport in isolated rat liver mitochondria. Cryobiology. 1991;28(5):445–453.
  • Fuller BJ, Rubinacci A, Geboes K, De Loecker W. The bioenergetics of mitochondria after cryopreservation. Cryobiology. 1989;26(4):333–340.
  • Pascual G, Rodriguez M, Corrales C, Turegano F, Garcia-Honduvilla N, Bellon JM, Bujan J. New approach to improving endothelial preservation in cryopreserved arterial substitutes. Cryobiology. 2004;48(1):62–71.
  • Song YC, Hunt CJ, Pegg DE. Cryopreservation of the common carotid artery of the rabbit. Cryobiology. 1994;31(4):317–329.
  • Rauen U, Kerkweg U, Wusteman MC, de Groot H. Cold-induced injury to porcine corneal endothelial cells and its mediation by chelatable iron - Implications for corneal preservation. Cornea. 2006;25(1):68–77.
  • Pless G, Sauer IM, Rauen U. Improvement of the cold storage of isolated human hepatocytes. Cell Transplant. 2012;21(1):23–37.
  • Kerkweg U, Jacob M, de Groot H, Mannherz HG, Rauen U. Cold-induced apoptosis of rat liver endothelial cells: contribution of mitochondrial alterations. Transplantation. 2003;76(3):501–508.
  • Bienholz A, Walter B, Pless-Petig G, Guberina H, Kribben A, Witzke O, Rauen U. Characterization of injury in isolated rat proximal tubules during cold incubation and rewarming. PLoS One. 2017;12(7):e0180553.
  • Knoop S. Untersuchungen zur Beteiligung der Lysosomen und des Cytoskeletts an der kälteinduzierten Zell- und Gewebeschädigung [dissertation]. Essen (Germany): Fakultät für Chemie, Universität Duisburg-Essen; 2011.
  • Elliott GD, Wang S, Fuller BJ. Cryoprotectants: A review of the actions and applications of cryoprotective solutes that modulate cell recovery from ultra-low temperatures. Cryobiology. 2017;76:74–91.
  • Muller-Schweinitzer E, Ellis P. Sucrose promotes the functional activity of blood vessels after cryopreservation in DMSO-containing fetal calf serum. Naunyn Schmiedebergs Arch Pharmacol. 1992;345(5):594–597.
  • Glafke C, Akhoondi M, Oldenhof H, Sieme H, Wolkers WF. Cryopreservation of platelets using trehalose: the role of membrane phase behavior during freezing. Biotechnol Prog. 2012;28(5):1347–1354.
  • Stevenson DJ, Morgan C, Goldie E, Connel G, Grant MH. Cryopreservation of viable hepatocyte monolayers in cryoprotectant media with high serum content: metabolism of testosterone and kaempherol post-cryopreservation. Cryobiology. 2004;49(2):97–113.
  • Ku DD, Willis WL, Caulfield JB. Retention of endothelium-dependent vasodilatory responses in canine coronary arteries following cryopreservation. Cryobiology. 1990;27(5):511–520.
  • Lee JH, Jung DH, Lee DH, Park JK, Lee SK. Slow cooling rate with a shock cooling program can effectively cryopreserve pig hepatocytes. Transplant Proc. 2012;44(4):1002–1004.
  • Seth G. Freezing mammalian cells for production of biopharmaceuticals. Methods. 2012;56(3):424–431.
  • Pegg DE. Cryopreservation of vascular endothelial cells as isolated cells and as monolayers. Cryobiology. 2002;44(1):46–53.
  • Armitage WJ, Juss BK. The influence of cooling rate on survival of frozen cells differs in monolayers and in suspension. Cryo Letters. 1996;17:213–218.
  • Armitage WJ. Preservation of human cornea. Transfus Med Hemother. 2011;38(2):143–147.
  • von Bomhard A, Elsasser A, Ritschl LM, Schwarz S, Rotter N. Cryopreservation of endothelial cells in various cryoprotective agents and media - vitrification versus slow freezing methods. PLoS One. 2016;11(2):e0149660.
  • Armitage WJ, Juss BK. Freezing monolayers of cells without gap junctions. Cryobiology. 2003;46(2):194–196.
  • Pegg DE, Wusteman MC, Boylan S. Fractures in cryopreserved elastic arteries. Cryobiology. 1997;34(2):183–192.
  • Hunt CJ, Song YC, Bateson EA, Pegg DE. Fractures in cryopreserved arteries. Cryobiology. 1994;31(5):506–515.
  • Peters S, Reis A, Noll T. Preparation of endothelial cells from micro- and macrovascular origin. In: Dhein S, Mohr F, Delmar M, editors. Practical methods in cardiovascular research. Heidelberg, Germany: Springer; 2005. p. 610–629.

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