Sequence-based Discovery of Bradyrhizobium Enterica in Cord Colitis Syndrome

Overview

Journal N Engl J Med

Specialty General Medicine

Date 2013 Aug 9

PMID 23924002

Citations 63

Authors

Ami S Bhatt

Samuel S Freeman

Alex F Herrera

Chandra Sekhar Pedamallu

Dirk Gevers

Fujiko Duke

Joonil Jung

Monia Michaud

Bruce J Walker

Sarah Young

Ashlee M Earl

Aleksander D Kostic

Akinyemi I Ojesina

Robert Hasserjian

Karen K Ballen

Yi-Bin Chen

Gabriela Hobbs

Joseph H Antin

Robert J Soiffer

Lindsey R Baden

Wendy S Garrett

Jason L Hornick

Francisco M Marty

Matthew Meyerson

Affiliations

Soon will be listed here.

Abstract

Background: Immunosuppression is associated with a variety of idiopathic clinical syndromes that may have infectious causes. It has been hypothesized that the cord colitis syndrome, a complication of umbilical-cord hematopoietic stem-cell transplantation, is infectious in origin.

Methods: We performed shotgun DNA sequencing on four archived, paraffin-embedded endoscopic colon-biopsy specimens obtained from two patients with cord colitis. Computational subtraction of human and known microbial sequences and assembly of residual sequences into a bacterial draft genome were performed. We used polymerase-chain-reaction (PCR) assays and fluorescence in situ hybridization to determine whether the corresponding bacterium was present in additional patients and controls.

Results: DNA sequencing of the biopsy specimens revealed more than 2.5 million sequencing reads that did not match known organisms. These sequences were computationally assembled into a 7.65-Mb draft genome showing a high degree of homology with genomes of bacteria in the bradyrhizobium genus. The corresponding newly discovered bacterium was provisionally named Bradyrhizobium enterica. PCR identified B. enterica nucleotide sequences in biopsy specimens from all three additional patients with cord colitis whose samples were tested, whereas B. enterica sequences were absent in samples obtained from healthy controls and patients with colon cancer or graft-versus-host disease.

Conclusions: We assembled a novel bacterial draft genome from the direct sequencing of tissue specimens from patients with cord colitis. Association of these sequences with cord colitis suggests that B. enterica may be an opportunistic human pathogen. (Funded by the National Cancer Institute and others.)

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