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In This Article

  • Summary
  • Abstract
  • Introduction
  • Protocol
  • Representative Results
  • Discussion
  • Disclosures
  • Acknowledgements
  • Materials
  • References
  • Reprints and Permissions

Summary

Formalin-fixed paraffin-embedded specimens represent a valuable source of molecular biomarkers of human diseases. Here we present a laboratory-based cDNA library preparation protocol, initially designed with fresh frozen RNA, and optimized for the analysis of archived microRNAs from tissues stored up to 35 years.

Abstract

–Archived, clinically classified formalin-fixed paraffin-embedded (FFPE) tissues can provide nucleic acids for retrospective molecular studies of cancer development. By using non-invasive or pre-malignant lesions from patients who later develop invasive disease, gene expression analyses may help identify early molecular alterations that predispose to cancer risk. It has been well described that nucleic acids recovered from FFPE tissues have undergone severe physical damage and chemical modifications, which make their analysis difficult and generally requires adapted assays. MicroRNAs (miRNAs), however, which represent a small class of RNA molecules spanning only up to ~18–24 nucleotides, have been shown to withstand long-term storage and have been successfully analyzed in FFPE samples. Here we present a 3' barcoded complementary DNA (cDNA) library preparation protocol specifically optimized for the analysis of small RNAs extracted from archived tissues, which was recently demonstrated to be robust and highly reproducible when using archived clinical specimens stored for up to 35 years. This library preparation is well adapted to the multiplex analysis of compromised/degraded material where RNA samples (up to 18) are ligated with individual 3' barcoded adapters and then pooled together for subsequent enzymatic and biochemical preparations prior to analysis. All purifications are performed by polyacrylamide gel electrophoresis (PAGE), which allows size-specific selections and enrichments of barcoded small RNA species. This cDNA library preparation is well adapted to minute RNA inputs, as a pilot polymerase chain reaction (PCR) allows determination of a specific amplification cycle to produce optimal amounts of material for next-generation sequencing (NGS). This approach was optimized for the use of degraded FFPE RNA from specimens archived for up to 35 years and provides highly reproducible NGS data.

Introduction

miRNAs are remarkably well conserved in formalin-fixed paraffin-embedded (FFPE) specimens1,2,3. Previous work has demonstrated that the expression of these short regulatory non-coding single stranded RNA molecules can be successfully evaluated using total RNA from FFPE samples and provide relevant gene expression data when compared to the original fresh tissues4,5,6,7,8. When compared to large-size messenger RNAs, ....

Protocol

1. Preparation of All Reagents and Primers

  1. Order all primers and adapters as described in Figure 1.
  2. Prepare the calibrator cocktail stock, which will be spiked in each individual ligation.
    1. Resuspend the carrier oligonucleotide (Figure 1) to 0.5 µM with RNase-free water. Resuspend the 10 calibrator oligonucleotides (Figure 1) to 100 µM using the 0.5 µM carrier oligonucleotide solution.
    2. Combine 10 µL of each of the 10 calibrators in a siliconized microcentrifuge to obtain a 100 µM cocktail calibr....

Representative Results

As described in the method here, a total of 18 individual FFPE RNA samples (100 ng each) are set up in separate tubes to undergo 3' adenylated barcoded oligonucleotide T4 ligation overnight. The next day, the enzymatic reactions are heat-deactivated, combined, and precipitated in a single tube. The RNA pellet is resuspended and the ligated RNA molecules are separated on a 15% denaturing polyacrylamide gel (PAGE), where RNA oligonucleotide size markers that migrated in adjacent wells o.......

Discussion

A highly reproducible and robust cDNA library preparation protocol for NGS of small RNAs archived in FFPE RNA specimens is presented in this protocol, which is a modified and optimized version of the procedure described by Hafner et al.22

All steps of this protocol have been optimized for use with older archived and compromised total RNA recovered from FFPE specimens. The key step of this protocol, for processing small amounts of FFPE RNA, resides in the poolin.......

Disclosures

The authors wish to disclose that a publication containing some of the data presented in this manuscript was published in the International Journal of Molecular Sciences by Loudig et al.21.

Acknowledgements

We thank Dr. Thomas Tuschl, head of the laboratory for RNA molecular biology, as well as members of his laboratory for their support and for sharing the technology developed in his laboratory and providing access to the RNAworld pipeline. We also thank Dr. Markus Hafner for sharing his protocol and providing detailed descriptions on all biochemical and enzymatic steps used in his initial procedure.

....

Materials

NameCompanyCatalog NumberComments
1% Triton x-100InvitrogenHFH10
10mM ATPAmbionAM8110G
10X dNTPsAmbionAM8110G
10x TBEThermofisher Scientific15581044
14M MercaptoethanolSigmaO3445I-100
20 nt ladderJena BioscienceM-232S
20mg/ml Bovine Serum AlbumineSigmaB8894-5ML
50X Titanium TaqClontech Laboratories639208
Ammonium PersulfateFisher Scientific7727-54-0
BRL Vertical Gel Electrophoresis System with glass plates and combsGIBCOV16
Dimethyl sulfoxide (DMSO)SigmaD9170-5VL
Eppendorf microcentrifuge 5424RUSA scientific4054-4537Q
Eppndorf ThermomixerUSA scientific4053-8223Q
Fisherbrand™ Siliconized Low-Retention Microcentrifuge Tubes 1.5mlFisher Scientific02-681-320
Gel Breaker Tube 0.5 mlIST Engineering Inc,3388-100
Gel electrophoresis apparatus 7cm x10cm- Mini-sub Cell GT with gel trays and combsBiorad1704446
GlycoblueAmbionAM9516
Jersey-CoteLabScientific, Inc1188
KcL 2MAmbionAM9640G
MgCl2 1MAmbionAM9530G
Minifuge dual rotor personal centrifugeUSA scientific2641-0016
Model V16 polyacrylamide gel electrophoresis apparatus, glasses, combs, and spacersCiore Life Science21070010
OligonucleotidesIDTDefined during order
Owl EasyCast B2 mini electrophoresis system- with gel trays and combsThermofisher ScientificB2
Qiaquick Gel Extraction kitQiagen28704
Restriction enzyme PmeINEBR0560S
RNase-free waterAmbionAM9932
Safe Imager 2.0Life TechnologiesG6600
Safe Imager 2.0 blue light transilluminatorThermofisherG6600
SeaKem LE agaroseLonza50002
Superscript III reverse transcription kitInvitrogen18080-044
SybrGoldLife TechnologiesS11494
T4 RNA Ligase 1NEBM0204S
T4 RNA Ligase 2 Truncated K227QNEB0351L
TEMEDFisher ScientificO3446I-100
Themocycler with heated lidApplied Biosystem4359659
Tris 1M pH 7.5Invitrogen15567027
Tris 1M pH8.0AmbionAM9855G
UltraPure Sequagel system concentrate, diluent, and bufferNational DiagnosticsEC-833

References

  1. Peiró-Chova, L., Peña-Chilet, M., López-, J. A., García-Gimenez, J. L., Alonso-Yuste, E., Burgues, O., et al. High stability of microRNAs in tissue samples of compromised quality. Virchows. Arch. 463, 765-774 (2013).
  2. Klopfleisch, R., Weiss, A. T., Gruber, A. D.

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