It s All in the Details (or Small RNA): Simplified and Improved mirna Purification from Tissue Douglas Horejsh January 2015
Discussion Outline Non-coding RNA General Overview mirna What is it? The Future of mirna Downstream Assays Purification of mirna on the Maxwell RSC Instrument 2
Humans Have an Abundance of Non-coding RNA Compared with Other Species Organism Percent of Transcriptional Output Protein coding RNA Non-coding RNA E. coli 84 16 S. cerevisiae 71 29 C. elegans 27 73 D. melanogaster 13 87 H. sapiens 2 98 Higher organisms with more complex regulation mechanisms have an abundance of non-coding RNA 3
Non-coding RNA Seven Major Non-coding RNA Families Ribosomal RNA (rrna) Transfer RNA (trna) Small nuclear RNA (snrna) Small nucleolar RNA (snorna) Long non-coding RNA (lncrna) Short interfering RNA (sirna) MicroRNA (mirna) 4
Non-coding RNA Each Type of ncrna Functions Differently http://www.nature.com/modpathol/journal/v26/n2/images/modpathol2012160f1.jpg 5
mirna Overview Post-transcriptional Regulation of Gene Expression mirnas 18-24 nucleotides in length Found in plants, animals and viruses One mirna can target and regulate multiple mrnas Many mirnas can bind to the same mrna target Up or down regulate gene expression Involved in biological processes which impact human health and disease Positively or negatively impact human health and disease http://eugenemaster.files.wordpress.com/2010/05/txn-of-mirna.jpg 6
MicroRNA Biogenesis It s a Complicated Cellular Process Nucleus mirna gene is transcribed by RNA Pol II Drosha/DGCR8 proteins crop the pri-mirna to pre-mirna EXP5/RAN*GTP involved in export into the cytoplasm Cytoplasm Dicer/TRBP cleaves pre-mirna to release mature mirna Pre-RISC formed by loading of AGO protein Mature RISC formed with unwinding of mature mirna The mirna is now available for binding to mrna targets 7
What Happens After Biogenesis? mirna Regulate Target mrna Expression mirna-mediated repression of target mrna RBP modulation of mirna binding results in loss of mirna-mediated repression Molecular Oncology 6 (2012), p.590-610 8
mirna in Cancer Multiple mirna Species Have Been Linked to Cancer Normal tissues Mature mirna binds to mrna to block translation resulting in normal rate of growth, proliferation and cell death mirna acting as tumor suppressor Loss of mirna binding to oncogene target leads to more translation of the oncogene, resulting in tumor formation mirna functioning as an oncogene High level of mirna binding to tumor suppressor target leads to inhibition of tumor suppressor transcript translation, resulting in tumor formation Nature Reviews Cancer 6 (2006), p.263 9
Direct Interaction with Tumor Supressor p53 mrna Very complicated process Interest in biomarker discovery Molecular Oncology 6 (2012), p.590-610 10
The Future of mirna Move from research to diagnostic More complexity must be unraveled More biomarkers must be identified Change from invasive testing to liquid biopsy 11
Multiple Downstream Assays Are Used to Assess mirna Levels in Cells RT-qPCR Target specific priming Universal priming Microarrays Next-gen sequencing 12
Two Reasons Not to Use a Gel or Bioanalyzer to Assess mirna Levels and Quality RNA Quality Assessment The mirna fraction is such a small component of total RNA that it is not very prominent The presence of mirna and other small RNA species alter the RIN 13
Target Specific Priming of mirna Stem-loop primer is used for the RT step Laborious workflow as individual RT reactions needed for individual qpcr 10ng of total RNA input into RT Small dilution of cdna used for qpcr Typical qpcr with forward primer against mirna and reverse primer against stem-loop sequence Probe sits on remainder of mirna seq and into the stem sequence 14
Universal Priming: Assess mirna Levels Without Setting Up Individual RT Reactions As the (1) RT/ (1) PCR specific approach is tedious, other groups have developed a universal RT approach The universal primer enables detection of any mirna in the cdna sample Typically only works with dye intercalators 15
Next-Gen Sequencing The Newer Kid on the Block Unbiased quantitation that does not depend on the previous identification of each mirna species; enables discovery of new mirnas Purple.emz 16
Next-Gen Sequencing of mirna Process (con t.) Purple.emz 17
Maxwell RSC Instrument Flexible, Personal Automated Nucleic Acid Purification Reliable Prefilled cartridges and preprogrammed methods means consistent purification. Flexible Optimized kits available for DNA or RNA purification from a variety of sample types including blood, cells and tissue (fresh and frozen). Intuitive Minimal training required. The instrument software guides users through a purification run. Efficient Automated nucleic acid purification frees up your time, and the integrated Quantus Fluorometer streamlines the next quantitation step. 18
Plastic Plungers Protect Against Cross-contamination A magnetic bar assembly covered by a plastic sheath (plunger), moves the paramagnetic particles from well to well. Magnets are positioned at the tips of the 16 vertical rods Magnetic Bar Plunger Elution Tube (30-100µl) 19
It s a Magnetic Particle Mover Maxwell RSC Moves the Particles Not the Liquid Samples are processed using prefilled reagent cartridges, simplifying instrument setup and providing consistently high yields and purity. Because there is no liquid handling, there are: No drips No clogs Fewer breakdowns No detectable cross contamination Elution Tube (30-100µl) 20
Maxwell RSC Approach for mirna Purification Total RNA Including mirna Extraction without Organics Initial offering for mirna purification from tissue This challenging sample type as the initial kit will allow for processing from other samples with little adaptation Extracts Total RNA including mirna Total RNA allows researchers to choose their best controls and normalize to mrna if desired Additional RNA purification no longer necessary from precious samples No organics used Safer and just as effective 21
Maxwell RSC Approach for mirna Purification A Simple Protocol with Minimal Pre-processing 20mg tissue Homogenize in 200µl Homogenization Buffer + thioglycerol Add 200µl Lysis Buffer + proteinase K & incubate 10 minutes Preprocessing Automated Purification Analysis 20 minutes 80 minutes Sequencing, arrays, RT-PCR, RT-qPCR 22
Maxwell mrna Purification Kit High Quality mirna from Tissue Very simple pre-processing before automated extraction Adaptation of simplyrna tissue chemistry Optimized instrument method Works well in next-gen sequencing Early access researchers have worked with the chemistry yielding great results 23
Seven Major Performance Criteria Examined During Kit Development 1. RNA Purity 2. RNA Quantity 3. Good mirna yield from: 1mg Input 10mg Input 4. No Cross-contamination between samples 5. Good message (mrna) yield from: 1mg Input 10mg Input 6. Minimal DNA contamination in purified mirna 7. Minimal RT-qPCR inhibitors in purified mirna 24
Absorbance Ratio High Purity Ratios of Purified RNA Both A 260 /A 280 & A 260 /A 230 Greater Than 2.0 2.4 2.3 2.2 2.1 2 260/280 260/230 1.9 1.8 Liver Kidney Pancreas 25
Concentration (ng/µl) High Yields of Concentrated Total RNA Total RNA Concentration and Yield by Absorbance 1800 1600 67µg 1400 1200 1000 800 35µg 600 400 17.7µg 200 0 Liver Kidney Pancreas 26
Yield in copies Yield in copies Testing Levels of Different mirnas by RT-qPCR 1mg Tissue Input Per Purification 6.E+08 1mg Input for Let-7a RT-qPCR Amplification 6.E+08 1mg Input for mir-21 RTqPCR Amplification 5.E+08 5.E+08 4.E+08 4.E+08 3.E+08 3.E+08 2.E+08 2.E+08 1.E+08 1.E+08 0.E+00 Pancreas Kidney Liver 0.E+00 Kidney Liver Pancreas 27
Yield in copies Yield in copies Testing Levels of Different mirnas by RT-qPCR 10mg Tissue Input Per Purification 10mg Input for Let-7a RTqPCR Amplification 10mg Input for mir-21 RTqPCR Amplification 1.E+10 1.E+10 8.E+09 8.E+09 6.E+09 6.E+09 4.E+09 4.E+09 2.E+09 2.E+09 0.E+00 Pancreas Kidney Liver 0.E+00 Kidney Liver Pancreas 28
No Cross-contamination Detected Across 16 Samples Cartridge layout on the deck of the Maxwell RSC instrument water blank mirna tissue sample water blank mirna tissue sample water blank mirna tissue sample water blank mirna tissue sample water blank mirna tissue sample water blank mirna tissue sample water blank mirna tissue sample water blank mirna tissue sample Alternating wells of samples (Negative Control-Water followed by Positive Control mirna tissue sample) Tested all purified samples for the presence of mirna by RT-qPCR Results: All water wells showed signal below lowest standard, if any at all All sample wells showed high levels (about 2x10 9 copies) of mirna 29
mrna Amplification by RT-qPCR 1mg Tissue Input Tissue Input (1mg) Ct Value Conc. (ng/µl) 22.21 35.1 Mouse Kidney 22.80 25.2 22.83 24.9 23.06 22.4 2-microglobulin mrna target Mouse Liver Mouse Pancreas 20.20 164.8 20.31 159.0 20.21 156.9 20.24 158.3 19.93 489.7 19.74 556.5 20.07 437.8 19.68 527.0 Good, consistent amplification across experimental replicates 30
mrna Amplification by RT-qPCR 10mg Tissue Input Tissue Input (10mg) Ct Value Conc. (ng/µl) 21.01 675.6 Mouse Kidney 20.56 881.3 20.08 1177.2 20.48 926.4 2-microglobulin mrna target Mouse Liver Mouse Pancreas 18.70 1311.8 18.60 1388.4 18.58 1406.5 18.32 1636.1 21.91 81.4 21.95 80.0 21.81 86.7 22.00 77.5 Good, consistent amplification across experimental replicates 31
Minimal DNA Contamination Detected Tissue Input (10mg) DNA Conc. (ng/µl) RNA Conc. (ng/µl) % DNA Mouse Liver 0.015 1312 0.001 Mouse Liver 0.006 1388 0.000 Mouse Liver 0.010 1407 0.001 Mouse Liver 0.015 1636 0.001 32
Minimal RT-qPcR Inhibition Observed in Eluates The Solaris RT-qPCR inhibition assay was used to test inhibition An increase in Ct of <2 Ct is not inhibited, 2-3 Ct is somewhat inhibited, and >3 is inhibited Input Type Ave. Ct Value Mean Delta Ct Kidney 20.90-0.85 Liver 21.19-1.14 Pancreas 21.81-1.76 No Inhibition Control 20.05 N/A IPC Block (10% SDS) No Ct N/A Samples all had less than 2 Ct shift, indicating no inhibition 33
Kit Development Summary Matched All Required Performance Criteria Criteria Criteria Met 1. RNA Purity Yes 2. RNA Quantity Yes 3. Sufficient mirna from 1-10mg tissue Yes 4. No Cross-contamination between samples Yes 5. Sufficient message (mrna) from 1-10mg tissue Yes 6. Minimal DNA contamination in purified mirna Yes 7. Minimal RT-qPCR inhibitors in purified mirna Yes 34
Additional Performance Testing Extracted mirna Works in NGS 35
Log2 Maxwell mirna Purification Performs Favorably vs. Competitor with More Complete Target Diversity 2.00 Liver, low expressing targets (<7330 copies, >10 copies), n=521 Liver, fewer than 10 copies 1.50 1.00 0.50 0.00 Detected only with Maxwell 980 different mirna Detected only with Competitor 339 different mirna Maxwell Competitor # raw reads 10,449,341 8,908,461 # of reads containing 3ADT 10,373,707 8,786,473 # reads <15 nt after removing 3ADT 755,605 358,052 # reads after removing 3ADT 9,618,102 8,428,421 # mappable reads 9,594,870 8,409,869 The Maxwell mirna purification yielded more sequence diversity in low expressing mirna 36
Quotes from Customers that Tested the Maxwell mirna Kit The yield received from the kit was stunning. We were really thrilled with the amount and purity. Acceptable yield. Purity (260/230 is 2.0). Quick. mir RT-PCR worked. Automated, still as simple as simplyrna, can afford kits same price as competitor. Cleaner, more consistent samples with higher yield over manual. 37
Conclusions mirna are short RNA of about 18-24 nts Very important in gene regulation and cancer Most mirna studies are focused on basic research and discovery, but diagnostic use may explode over the next 3 years Promega has developed a mirna purification kit that extracts total RNA including mirna on the Maxwell RSC Instrument High yields and purity Minimal DNA contamination or RT-qPCR inhibitors in the purified RNA The kit will be available in Q1 of 2015 38
Questions? 39