The impact of high hydrostatic pressure (40 MPa and 60 MPa) on the apoptosis rates and functional activity of cryopreserved porcine mesenchymal stem cells

Arno A.I., Amini- Nik S., Blit P.H., Al- Shehab M., Belo C., Herer E., Jeschke M.G. (2014). Effect of human Wharton’s jelly mesenchymal stem cell paracrine signaling on keloid fibroblasts. Stem Cells Transl. Med., 3: 299-307.10.5966/sctm.2013-0120Open DOISearch in Google Scholar

Atsuta I., Liu S., Miura Y., Akiyama K., Chen C., An Y., Shi S., Chen F.M. (2013). Mesenchymal stem cells inhibit multiple myeloma cells via the Fas/Fas ligand pathway. Stem Cell Res. Ther., 4: 111.10.1186/scrt322Open DOISearch in Google Scholar

Bogliolo L., Ariu F., Leoni G., Uccheddu S., Bebbere D. (2011). High hydrostatic pressure treatment improves the quality of in vitro-produced ovine blastocysts. Reprod. Fertil. Dev., 23: 809-817.Search in Google Scholar

Bourin P., Gadelorge M., Peyrafitte J.A., Fleury-Cappellesso S., Gomez M., Ragea C., Sensebé L. (2008). Mesenchymal progenitor cells: tissue origin, isolation and culture. Transfus. Med. Hemother., 35: 160-167.Search in Google Scholar

Cui J.J., Chi Y., Du W.J., Yang S.G., Li X., Chen F., Ma F.X., Lu S.H., Han Z.C. (2013). Human umbilical cord mesenchymal stem cells reduce the sensitivity of HL-60 cells to cytarabine. Zhongguo Shi Yan Xue Ye Xue Za Zhi, 21: 760-764.Search in Google Scholar

Demazeau G., Rivalain N. (2011). High hydrostatic pressure and biology:abrief history. Appl. Microbiol. Biotechnol., 89: 1305-1314.Search in Google Scholar

Dinnyes A., Polgar Z., Pribenszky C., Pirity M.K. (2010). Improved embryoid body cryopreservation and cardiomyocyte differentiation following high hydrostatic pressure treatment. Proc. The 1st International Congress on Controversies in Cryopreservation of Stem Cells, Reproductive Cells, Tissue and Organs, Valencia, Spain (Comet Med, Israel), A-7.Search in Google Scholar

Duszewska A.M., Reklewski Z., Pieńkowski M., Karasiewicz J., Modliński J.A. (2000). Development of bovine embryos on Vero/BRLcell monolayers (mixed co-culture). Theriogenology, 4: 1239-1247.10.1016/S0093-691X(00)00430-1Open DOISearch in Google Scholar

Duszewska A.M., Wojdan J., Gawron W., Wenta- Muchalska E., Waś B., Wi- śniewska A., Reklewski Z. (2007). The development potential of bovine embryo co-culture with Vero and Vero/BRLcells. J. Anim. Feed Sci., 16: 370-379.10.22358/jafs/66758/2007Open DOISearch in Google Scholar

Emore S. (2007). Apoptosis:areview of programmed cel death. Toxicol. Pathol., 35: 495-516. 10.1080/01926230701320337Open DOISearch in Google Scholar

Fu X., He Y., Xie C., Liu W. (2008). Bone marrow mesenchymal stem cell transplantation improves ovarian function and structure in rats with chemotherapy-induced ovarian damage. Cytotherapy, 10: 353-363.Search in Google Scholar

Gala K., Burdzińska A., Pączek L. (2009). Bone marrow derived mesenchymal stem cells and aging (in Polish). Post. Biol. Kom., 37: 89-106.Search in Google Scholar

Hajian M., Hosseini S.M., Asgari V., Ostadhoosseini S., Forouzanfar M., Nasr Esfahani M.H. (2011). Effect of culture system on developmental competence, cryosurvival and DNA-fragmentation of in vitro bovine blastocysts. Int. J. Fertil. Steril., 5: 21-26.Search in Google Scholar

Hay- Koren A., Bialik S., Levin- Salomon V., Kimchi A. (2017). Changes in c IAP2, survivin and Bim ELexpression characterize the swich from autophagy to apoptosis in prolonged starvation. J. Inter. Med., 281: 458-470.Search in Google Scholar

Jeon K., Kim E.Y., Tae J.C., Lee C.H., Lee K.S., Kim Y.O., Jeong D.K., Cho S.K., Kim J.H., Lee H.Y., Riu K.Z., Cho S.G., Park S.P. (2008). Survivin protein expression in bovine follicular oocytes and their in vitro developmental competence. Anim. Reprod. Sci., 108: 319-333.Search in Google Scholar

Jiang Z., Harrington P., Zhang M., Marjani S.L., Park J., Kuo L., Pribenszky C., Tian X.C. (2016). Effects of high hydrostatic pressure on expression profiles of in vitro produced vitrified bovine blastocysts. Sci. Rep., 6:21215; doi: 10.1038/srep21215.Search in Google Scholar

Kątska L., Ryńska B., Smorąg Z. (1995). The effect of co-culture system on developmental capacity of bovine IVM/IVFoocytes. Theriogenology, 43: 859-870.10.1016/0093-691X(95)00037-9Open DOISearch in Google Scholar

Kątska-Książkiewicz L., Opiela J., Ryńska B. (2007). Effects of oocyte quality, semen donor and embryo co-culture system on the efficiency of blastocyst production in goats. Theriogenology, 68: 736-744.10.1016/j.theriogenology.2007.06.01617651793Open DOISearch in Google Scholar

Larsen B.D., Rampalli S., Burns L.E., Brunette S., Dilworth F.J., Megeney L.A. (2010). Caspase 3/caspase-activated DNase promote cell differentiation by inducing DNAstrand breaks. Proc. Natl. Acad. Sci. USA, 107: 4230-4235.Search in Google Scholar

Lee K.S., Santagostino S.F., Li D., Ramjit A., Serrano K., Ginsberg M.D., Ding B.S., Rafii S., Madoff D.C. (2017). Catheter-directed intraportal delivery of endothelial cell therapy for liver regeneration:afeasibility study inalarge-animal model of cirrhosis. Radiology, doi: 10.1148/radiol.2017162617.Search in Google Scholar

Lindenboim L., Yuan J., Stein R. (2000). Bclx Sand Bax induce different apoptotic pathways in PC12 cells. Oncogene, 19: 1783-1793.10.1038/sj.onc.120349510777212Open DOISearch in Google Scholar

Ling B., Feng D.Q., Zhou Y., Gao T., Wei H.M., Tian Z.G. (2008). Effect of conditioned medium of mesenchymal stem cells on the in vitro maturation and subsequent development of mouse oocyte. Braz. J. Med. Biol. Res., 41: 978-985.10.1590/S0100-879X2008005000053Open DOISearch in Google Scholar

Liu X., Zou H., Slaughter C., Wang X. (1997). DFF,aheterodimeric protein that functions downstream of caspase-3 to trigger DNAfragmentation during apoptosis. Cell, 89: 175-184.Search in Google Scholar

Maeda J., Kotsuji F., Negami A., Kamitani N., Tominaga T. (1996). In vitro development of bovine embryos in conditioned media from bovine granulosa cells and vero cells cultured in exogenous protein- and amino acid-free chemically defined human tubal fluid medium. Biol. Reprod., 54: 930-936.10.1095/biolreprod54.4.9308924514Open DOISearch in Google Scholar

Malina H.Z., Hess O.M. (2004). Xanthurenic acid translocates proapoptotic Bcl-2 family proteins into mitochondria and imparis mitochondrial function. BMC Cell Biol., 5: 14.Search in Google Scholar

Mao F., Tu Q., Wang L., Chu F., Li X., Li H.S., Xu W. (2017). Mesenchymal stem cells and their therapeutic applications in inflammatory bowel disease. Oncotarget, doi: 10.18632/oncotarget. 16682.Search in Google Scholar

Najar M., Raicevic G., Id Boufker H., Stamatopoulos B., De Bruyn C., Meule- man N., Bron D., Toungouz M., Lagneaux L. (2010). Modulated expression of adhesion molecules and galectin-1: role during mesenchymal stromal cell immunoregulatory functions. Exp. Hematol., 38: 922-932.Search in Google Scholar

Opiela J., Samiec M. (2013). Characterization of mesenchymal stem cells and their application in experimental embryology. Pol. J. Vet. Sci., 16: 593-599.Search in Google Scholar

Opiela J., Bülbül B., Romanek J. (2018). Negative results of using MSCfor bovine embryo development in different culture systems. Anim. Biotechnol. (in press). Search in Google Scholar

Park H.Y., Kim E.Y., Lee S.E., Choi H.Y., Moon J.J., Park M.J., Son Y.J., Lee J.B., Jeong C.J., Lee D.S., Riu K.J., Park S.P. (2013) Effect of human adipose tissue-derived mesenchymal-stem-cell bioactive materials on porcine embryo development. Mol. Reprod. Dev., 80: 1035-1047.10.1002/mrd.2227024150974Open DOISearch in Google Scholar

Potapova I.A., Gaudette G.R., Brink P.R., Robinson R.B., Rosen M.R., Cohen I.S., Doronin S.V. (2007). Mesenchymal stem cells support migration, extracellular matrix invasion, proliferation, and survival of endothelial cells in vitro. Stem Cells, 25: 1761-1768.10.1634/stemcells.2007-002217395769Open DOISearch in Google Scholar

Pribenszky C., Vajta G., Molna’r M., Du Y., Lin L., Bolund L., Yovich J. (2010). Stress for stress tolerance? Afundamentally new approach in mammalian embryology. Biol. Reprod., 83: 690-697.10.1095/biolreprod.110.08338620554920Open DOISearch in Google Scholar

Pribenszky C., Horváth A., Végh L., Huang S.Y., Kuo Y.H., Szenci O. (2011). Stress preconditioning of boar spermatozoa:anew approach to enhance semen quality. Reprod. Domest. Anim., 46 Suppl., 2: 26-30.Search in Google Scholar

Rief S., Sinowatz F., Stojkovic M., Einspanier R., Wolf E., Prelle K. (2002). Effects ofanovel co-culture system on development, metabolism and gene expression of bovine embryos produced in vitro. Reproduction, 124: 543-556.Search in Google Scholar

Rohban R., Pieber T.R. (2017). Mesenchymal stem and progenitor cells in regeneration: tissue specificity and regenerative potential. Stem Cells Int., doi: 10.1155/2017/5173732.Search in Google Scholar

Romanek J., Opiela J., Lipiński D., Smorąg Z. (2017). The effect of high hydrostatic pressure on survival rate and quality of porcine Mesenchymal Stem Cells after cryopreservation. Anim. Biotechnol., 16: 1-10.Search in Google Scholar

Safshekan F., Tafazzoli- Shadpour M., Shokrgozar M.A., Haghighipour N., Mahdian R., Hemmati A. (2012). Intermittent hydrostatic pressure enhances growth factorinduced chondroinduction of human adipose-derived mesenchymal stem cells. Artif. Organs., 36: 1065-1071.10.1111/j.1525-1594.2012.01507.x22882542Open DOISearch in Google Scholar

Samiec M., Opiela J., Lipiński D., Romanek J. (2015). Trichostatin A-mediated epigenetic transformation of adult bone marrow-derived mesenchymal stem cells biases the in vitro developmental capability, quality, and pluripotency extent of porcine cloned embryos. Biomed. Res. Int., Article ID 814686, 13 pages.Search in Google Scholar

Son T.W., Yun S.P., Yong M.S., Seo B.N., Ryu J.M., Youn H.Y., Oh Y.M., Han H.J. (2013). Netrin-1 protects hypoxia-induced mitochondrial apoptosis through HSP27 expression via DCCand integrinα6β4-dependent Akt, GSK-3β, and HSF-1 in mesenchymal stem cells. Cell Death Dis., 4: 563-563.Search in Google Scholar

Stachowiak M., Szczerbal I., Switonski M. (2016). Genetics of adiposity in large animal models for human obesity-studies on pigs and dogs. Prog. Mol. Biol. Transl. Sci., 140: 233-270.Search in Google Scholar

Wang Q., Leader A., Tsang B.K. (2013). Follicular stage-dependent regulation of apoptosis and seroidogenesis by prohibitin in rat granulose cells. J. Ovarian. Res., 6: 23.Search in Google Scholar

Warzych E., Pers- Kamczyc E., Krzywak A., Dudzińska S., Lechniak D. (2013). Apoptotic index within cumulus cells isaquestionable marker of meiotic competence of bovine ooctes matured in vitro. Reprod. Biol., 13: 82-87.Search in Google Scholar

Wolff H.S., Fredrickson J.R., Walker D.L., Morbeck D.E. (2013). Advances in quality control: mouse embryo morphokinetics are sensitive markers of in vitro stress. Hum. Reprod., 28: 1776-1782.10.1093/humrep/det102368533523595971Open DOISearch in Google Scholar

Zeyland J., Woźniak A., Gawrońska B., Juzwa W., Jura J., Nowak A., Słom - ski R., Smorąg Z., Szalata M., Mazurek U., Lipiński D. (2014). Double transgenic pigs with combined expression of humanα1,2-fucosyltransferase andα-galactosidase designed to avoid hyperacute xenograft rejection. Arch. Immunol. Ther. Exp. (Warsz)., 62: 411-422.Search in Google Scholar

Zhang L., Weston A.M., Denniston R.S., Goodeaux L.L., Godke R.A., Wolf D.P. (1994). Developmental potential of rhesus monkey embryos produced by in vitro fertilization. Biol. Reprod., 51: 433-440.10.1095/biolreprod51.3.4337528550Open DOISearch in Google Scholar