Publications

Publications

Identification of Hepatotropic Viruses from Plasma Using Deep Sequencing: A Next Generation Diagnostic Tool

By:
Contributors: Gane Ka-Shu Wong Research Group, Eric John Carpenter, Glenn Ford, Jordan Dacey Lee Patterson, Sandra Lynn O'Keefe, Tracy Nicole Jordan, Troy Anthony Mitchell, Weiwei Wang, PhD

 

PLoS One. 2013 Apr 17;8(4):e60595. doi: 10.1371/journal.pone.0060595. Print 2013.

Law J1, Jovel J, Patterson J, Ford G, O’keefe S, Wang W, Meng B, Song D, Zhang Y, Tian Z, Wasilenko ST, Rahbari M, Mitchell T, Jordan T, Carpenter E, Mason AL, Wong GK.

Abstract

We conducted an unbiased metagenomics survey using plasma from patients with chronic hepatitis B, chronic hepatitis C, autoimmune hepatitis (AIH), non-alcoholic steatohepatitis (NASH), and patients without liver disease (control). RNA and DNA libraries were sequenced from plasma filtrates enriched in viral particles to catalog virus populations. Hepatitis viruses were readily detected at high coverage in patients with chronic viral hepatitis B and C, but only a limited number of sequences resembling other viruses were found. The exception was a library from a patient diagnosed with hepatitis C virus (HCV) infection that contained multiple sequences matching GB virus C (GBV-C). Abundant GBV-C reads were also found in plasma from patients with AIH, whereas Torque teno virus (TTV) was found at high frequency in samples from patients with AIH and NASH. After taxonomic classification of sequences by BLASTn, a substantial fraction in each library, ranging from 35% to 76%, remained unclassified. These unknown sequences were assembled into scaffolds along with virus, phage and endogenous retrovirus sequences and then analyzed by BLASTx against the non-redundant protein database. Nearly the full genome of a heretofore-unknown circovirus was assembled and many scaffolds that encoded proteins with similarity to plant, insect and mammalian viruses. The presence of this novel circovirus was confirmed by PCR. BLASTx also identified many polypeptides resembling nucleo-cytoplasmic large DNA viruses (NCLDV) proteins. We re-evaluated these alignments with a profile hidden Markov method, HHblits, and observed inconsistencies in the target proteins reported by the different algorithms. This suggests that sequence alignments are insufficient to identify NCLDV proteins, especially when these alignments are only to small portions of the target protein. Nevertheless, we have now established a reliable protocol for the identification of viruses in plasma that can also be adapted to other patient samples such as urine, bile, saliva and other body fluids.

journal.pone.0060595.g001

PubMed

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The Bird Dogs: Pointing for the Prostate Cancer Cure

For years, Frank Sojonky hid his battle with prostate cancer from the world. But by 2004 he could hide it no longer, as the disease metastasized and began to spread. So when he learned from his oncologist, Dr. Peter Venner, that a chair in prostate cancer research was needed in Alberta, he made his personal goal to raise the funds to do it. That is how the Bird Dogs started and thanks to them and the Alberta Cancer Foundation, Dr. John Lewis and the Alberta Prostate Cancer Research Initiative are making important discoveries to improve the lives of those with prostate cancer.

Watch a video about the Bird Dogs.

- APCaRI