Biobanking strategy and sample preprocessing for integrative research in monoclonal gammopathies

单克隆 多发性骨髓瘤 不确定意义的单克隆抗体病 单克隆抗体 医学 病理 计算生物学 免疫学 生物 抗体
作者
Tereza Ševčíková,Kateřina Growková,Zuzana Chyra,Jana Filipová,Petra Vrublová,Tomáš Jelı́nek,Zdeněk Kořı́stek,Fedor Kryukov,Elena Kryukova,Roman Hájek
出处
期刊:Journal of Clinical Pathology [BMJ]
卷期号:70 (10): 847-853 被引量:6
标识
DOI:10.1136/jclinpath-2017-204329
摘要

Some types of monoclonal gammopathies are typified by a very limited availability of aberrant cells. Modern research use high throughput technologies and an integrated approach for detailed characterisation of abnormal cells. This strategy requires relatively high amounts of starting material which cannot be obtained from every diagnosis without causing inconvenience to the patient. The aim of this methodological paper is to reflect our long experience with laboratory work and describe the best protocols for sample collection, sorting and further preprocessing in terms of the available number of cells and intended downstream application in monoclonal gammopathies research. Potential pitfalls are also discussed.Comparison and optimisation of freezing and sorting protocols for plasma cells in monoclonal gammopathies, followed by testing of various nucleic acid isolation and amplification techniques to establish a guideline for sample processing in haemato-oncology research.We show the average numbers of aberrant cells that can be obtained from various monoclonal gammopathies (monoclonal gammopathy of undetermined significance/light chain amyloidosis/multiple myeloma (MM)/MM circulating plasma cells/ minimal residual disease MM-10 123/22 846/305 501/68 641/4000 aberrant plasma cells of 48/30/10/16/37×106 bone marrow mononuclear cells) and the expected yield of nucleic acids provided from multiple isolation kits (DNA/RNA yield from 1 to 200×103 cells was 2.14-427/0.12-123 ng).Tested kits for parallel isolation deliver outputs comparable with kits specialised for just one type of molecule. We also present our positive experience with the whole genome amplification method, which can serve as a very powerful tool to gain complex information from a very small cell population.

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