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Indian Journal of Neurosurgery 2012; 01(02): 130-138
DOI: 10.4103/2277-9167.102279
DOI: 10.4103/2277-9167.102279
Review Article
Biobanking for cancer research: Preservation of tissue integrity – Some technical considerations
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Publication History
Publication Date:
18 January 2017 (online)
Abstract
Biobanking and biomarker discovery have become an integral part of neuro-oncology research. Towards achieving this end, the essential requirement is optimizing methods of tissue preservation of human tissues removed at surgery for diagnostic purposes and banking them for subserving future research. Owing to recent advances in molecular diagnostic tools, this clinical material has become a precious source for proteomic and genomic studies. The advent of biotechnological tools such as microarray, proteomics, and genomics has made it essential to preserve not just morphology but also the quality of nucleic acids and proteins, changing the traditional workflow of a pathology laboratory. It is therefore essential to develop simple technologies for tissue fixation and storage ensure that receptor and molecular integrity is reasonably maintained. Knowledge of the basic chemistry of tissue fixatives, the biochemical changes that take place in biological material by utilizing different techniques of fixation is essential while undertaking molecular, genomic, and proteomic studies on fresh and archival tissues.
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References
- 1 Polge C. Fertilizing capacity of bull spermatozoa after freezing at 79 degrees C. Nature 1952; 169: 626-657
- 2 Rowley SD, Anderson GL. Effect of DMSO exposure without cryopreservation on hematopoietic progenitor cells. Bone Marrow Transplant 1993; 11: 389-393
- 3 Júnior AM, Arrais CA, Saboya R, Velasques RD, Junqueira PL, Dulley FL. Neurotoxicity associated with dimethylsulfoxide-preserved hematopoietic progenitor cell infusion. Bone Marrow Transplant 2008; 41: 95-96
- 4 Abdelkefi A, Lakhal A, Moojat N, Hamed LB, Fekih J, Ladeb S. et al Othman TB. Severe neurotoxicity associated with dimethyl sulphoxide following PBSCT. Bone Marrow Transplant 2009; 44: 323-324
- 5 Hanna J, Hubel A. Preservation of stem cells. Organogenesis 2009; 5: 134-137
- 6 Cross SS, Start RD, Smith JH. Does delay in fixation affect the number of mitotic figures in processed tissue?. J Clin Pathol 1990; 43: 597-599
- 7 Lievre A, Chapusot C, Bouvier AM, Zinzindozoue F, Piard F, Roignot P. et al Clinical value of mitochondrial mutations in colorectal cancer. J Clin Oncol 2005; 23: 3517-3528
- 8 Bra-goszewski P, Kupryjanczyk J, Bartnik E, Rachinger A, Ostrowski J. Limited clinical relevance of mitochondrial DNA mutation and gene expression analysis in ovarian cancer. BMC Cancer 2008; 8: 292
- 9 Schraml P, Kononen J, Bubendorf L, Moch H, Bissig H, Nocito A. et al Tissue microarrays for gene amplification surveys in many different tumor types. Clin Cancer Res 1999; 5: 1966-1975
- 10 Jewell SD, Srinivasan M, McCart LM, Williams N, Grizzle MD IH, LiVolsi V. et al Analysis of the molecular quality of human tissues, An experience from the Cooperative Human Tissue Network. Am J Clin Pathol 2002; 118: 733-741
- 11 Zhong H, Simons JW. Direct comparison of GAPDH, beta-actin cyclophilin, and 28S rRNA as internal standards for quantifying RNA levels under hypoxia. Biochem Biophys Res Commun 1999; 259: 523-526
- 12 Tso JY, Sun XH, Kao TH, Reece KS, Wu R. Isolation and characterization of rat and human glyceraldehyde-3-phosphate dehydrogenase cDNAs: Genomic complexity and molecular evolution of the gene. Nucleic Acids Res 1985; 13: 2485-2502
- 13 Margan SH, Handelsman DJ, Mann S, Russell P, Rogers J, Khadra MH. et al Quality of nucleic acids extracted from fresh prostatic tissue obtained from TURP procedures. J Urol 2000; 163: 613-615
- 14 Berger A, Bruschek M, Grethen C, Sperl W, Kofler B. Poor storage and handling of tissue mimics mitochondrial DNA depletion. Diagn Mol Pathol 2001; 10: 55-59
- 15 Caggana M, Benjamin MB, Little JB, Liber HL, Kelsey KT. Single-strand conformation polymorphisms can be used to detect T cell receptor gene rearrangements: An application to the in vivo hprt mutation assay. Mutagenesis 1991; 6: 375-379
- 16 Harish G, Venkateshappa C, Mahadevan A, Pruthi N, Srinivas Bharath MM, Shankar SK. Effect of premortem and postmortem factors on the distribution and preservation of antioxidant activities in the cytosol and synaptosomes of human brains. Biopreserv Biobank 2012; 10: 253-265
- 17 van Maldegem F, de Wit M, Morsink F, Musler A, Weegenaar J, van Noesel CJ. Effects of processing delay, formalin fixation and immunohistochemistry on RNA Recovery From Formalin-fixed Paraffin-embedded Tissue Sections. Diagn Mol Pathol 2008; 17: 51-58
- 18 Blow N. Technology Feature Tissue preparation: Tissue issues. Nature 2007; 448: 959-962
- 19 Baker AF, Dragovich T, Ihle NT, Williams R, Fenoglio-Preiser C, Powis G. Stability of phosphoprotein as a biological marker of tumor signaling. Clin Cancer Res 2005; 11: 4338-4340
- 20 Tokuda Y, Nakamura T, Satonaka K, Maeda S, Doi K, Baba S. et al Fundamental study on the mechanism of DNA degradation in tissues fixed in formaldehyde. J Clin Pathol 1990; 43: 748-751
- 21 Williams C, Ponten F, Moberg C, Söderkvist P, Uhlen M, Ponten J. et al A high frequency of sequence alterations is due to formalin fixation of archival specimens. Am J Pathol 1999; 155: 1467-1471
- 22 Yagi N, Satonaka K, Horio M, Shimogaki H, Tokuda Y, Maeda S. The role of DNase and EDTA on DNA degradation in formaldehyde fixed tissues. Biotech Histochem 1996; 71: 123-129
- 23 Srinivasan M, Sedmak D, Jewell S. Effect of fixatives and tissue processing on the content and integrity of nucleic acids. Am J Pathol 2002; 161: 1961-1971
- 24 Masuda N, Ohnishi T, Kawamoto S, Monden M, Okubo K. Analysis of chemical modification of RNA from formalin-fixed samples and optimization of molecular biology applications for such samples. Nucleic Acids Res 1999; 27: 4436-4443
- 25 Ferrer I, Armstrong J, Capellari S, Parchi P, Arzberger T, Bell J. et al Effects of formalin fixation, paraffin embedding, and time of storage on DNA preservation in brain tissue: A BrainNet Europe study. Brain Pathol 2007; 17: 297-303
- 26 World Health Organization International Agency For Research On Cancer IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. Vol. 88. Formaldehyde, 2.Butoxyethanol and 1-tert-Butoxypropan-2-ol, 2006. 27. Foss RD, Find all citations by this author (default).
- 27 Foss RD, Guha-Thakurta N, Conran RM, Gutman P. Effects of fixative and fixation time on the extraction and polymerase chain reaction amplification of RNA from paraffin-embedded tissue. Comparison of two housekeeping gene mRNA controls. Diagn Mol Pathol 1994; 3: 148-155
- 28 Shibutani M, Uneyama C, Miyazaki K, Toyoda K, Hirose M. Methacarn fixation: A novel tool for analysis of gene expressions in paraffin-embedded tissue specimens. Lab Invest 2000; 80: 199-208
- 29 Mitchell D, Ibrahim S, Gusterson BA. Improved immunohistochemical localization of tissue antigens using modified methacarn fixation. J Histochem Cytochem 1985; 33: 491-495
- 30 Wester K, Asplund A, Bäckvall H, Micke P, Derveniece A, Hartmane I. et al Zinc-based fixative improves preservation of genomic DNA and proteins in histoprocessing of human tissues. Lab Invest 2003; 83: 889-899
- 31 Lykidis D, Van Noorden S, Armstrong A, Spencer-Dene B, Li J, Zhuang Z. et al Novel zinc-based fixative for high quality DNA, RNA and protein analysis. Nucleic Acids Res 2007; 35: e85
- 32 Stanta G, Mucelli SP, Petrera F, Bonin S, Bussolati G. A novel fixative improves opportunities of nucleic acids and proteomic analysis in human archive’s tissues. Diagn Mol Pathol 2006; 15: 115-123
- 33 Virginia Espina V, Mueller C, Edmiston K, Sciro M, Emanuel F, Petricoin EF. et al Tissue is alive: New technologies are needed to address the problems of protein biomarker pre-analytical variability. Proteomics Clin Appl 2009; 3: 874-882
- 34 Wiedorn JO, Goldmann T, Kühl H, Mehraein Y, Scherthan H, Niketeghad F. et al HOPE Fixation: A Novel Fixing Method and Paraffin-embedding Technique for Human Soft Tissues. Pathol Res Pract 2001; 197: 823-826
- 35 Sato Y, Mukai K, Furuya S, Kameya T, Hirohashi S. The AMeX method: A multipurpose tissue-processing and paraffin-embedding method. Extraction of protein and application to immunoblotting. Am J Pathol 1992; 140: 775-779
- 36 Vincek V, Nassiri M, Block N, Welsh CF, Nadji M, Morales AR. Methodology for preservation of high molecular-weight RNA in paraffin-embedded tissue: Application for laser-capture microdissection. Diagn Mol Pathol 2005; 14: 127-133
- 37 Delfour C, Roger P, Berthe CB, Rochaix P, Kalfa N, Raynaud P. et al RCL2, a New Fixative, Preserves Morphology and Nucleic Acid Integrity in Paraffin-Embedded Breast Carcinoma and Microdissected Breast Tumor Cells. J Mol Diagn 2006; 8: 157-169
- 38 Preusser M, Plumer S, Dirnberger E, Hainfellner JA, Mannhalter C. Fixation of brain tumor biopsy specimens with RCL2 results in well-preserved histomorphology, immunohistochemistry and nucleic acids. Brain Pathol 2010; 20: 1010-1020
- 39 Bussolati G, Chiusa L, Cimino A, D’Armento G. Tissue transfer to pathology labs: Under vacuum is the safe alternative to formalin. Virchows Arch 2008; 452: 229-231
- 40 Kim M, Soontornniyomkij V, Ji B, Zhou X. System-Wide Immunohistochemical Analysis of Protein Co-Localization. PLoS One 2012; 7: 1-9
- 41 Pirici D, Mogoanta L, Kumar-Singh S, Pirici I, Margaritescu C, Simionescu C. et al Antibody elution method for multiple immunohistochemistry on primary antibodies raised in the same species and of the same subtype. J Histochem Cytochem 2009; 57: 567-575
- 42 Nirmalan NJ, Harnden P, Selby PJ, Banks RE. Development and validation of a novel protein extraction methodology for quantitation of protein expression in formalin-fixed paraffin-embedded tissues using western blotting. J Pathol 2009; 217: 497-506