Shannon D Chilewski

Publications (2)71.06 Total impact

• Article: Donor-recipient mismatch for common gene deletion polymorphisms in graft-versus-host disease.

  Steven A McCarroll, James E Bradner, Hannu Turpeinen, Liisa Volin, Paul J Martin, Shannon D Chilewski, Joseph H Antin, Stephanie J Lee, Tapani Ruutu, Barry Storer, Edus H Warren, Bo Zhang, Lue Ping Zhao, David Ginsburg, Robert J Soiffer, Jukka Partanen, John A Hansen, Jerome Ritz, Aarno Palotie, David Altshuler
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  ABSTRACT: Transplantation and pregnancy, in which two diploid genomes reside in one body, can each lead to diseases in which immune cells from one individual target antigens encoded in the other's genome. One such disease, graft-versus-host disease (GVHD) after hematopoietic stem cell transplantation (HSCT, or bone marrow transplant), is common even after transplants between HLA-identical siblings, indicating that cryptic histocompatibility loci exist outside the HLA locus. The immune system of an individual whose genome is homozygous for a gene deletion could recognize epitopes encoded by that gene as alloantigens. Analyzing common gene deletions in three HSCT cohorts (1,345 HLA-identical sibling donor-recipient pairs), we found that risk of acute GVHD was greater (odds ratio (OR) = 2.5; 95% confidence interval (CI) 1.4-4.6) when donor and recipient were mismatched for homozygous deletion of UGT2B17, a gene expressed in GVHD-affected tissues and giving rise to multiple histocompatibility antigens. Human genome structural variation merits investigation as a potential mechanism in diseases of alloimmunity.
  Nature Genetics 11/2009; 41(12):1341-4. · 35.53 Impact Factor
• Article: Deletion polymorphism upstream of IRGM associated with altered IRGM expression and Crohn's disease.

  Steven A McCarroll, Alan Huett, Petric Kuballa, Shannon D Chilewski, Aimee Landry, Philippe Goyette, Michael C Zody, Jennifer L Hall, Steven R Brant, Judy H Cho, Richard H Duerr, Mark S Silverberg, Kent D Taylor, John D Rioux, David Altshuler, Mark J Daly, Ramnik J Xavier
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  ABSTRACT: Following recent success in genome-wide association studies, a critical focus of human genetics is to understand how genetic variation at implicated loci influences cellular and disease processes. Crohn's disease (CD) is associated with SNPs around IRGM, but coding-sequence variation has been excluded as a source of this association. We identified a common, 20-kb deletion polymorphism, immediately upstream of IRGM and in perfect linkage disequilibrium (r2 = 1.0) with the most strongly CD-associated SNP, that causes IRGM to segregate in the population with two distinct upstream sequences. The deletion (CD risk) and reference (CD protective) haplotypes of IRGM showed distinct expression patterns. Manipulation of IRGM expression levels modulated cellular autophagy of internalized bacteria, a process implicated in CD. These results suggest that the CD association at IRGM arises from an alteration in IRGM regulation that affects the efficacy of autophagy and identify a common deletion polymorphism as a likely causal variant.
  Nature Genetics 10/2008; 40(9):1107-12. · 35.53 Impact Factor