TY - JOUR
T1 - Therapeutics of Ebola hemorrhagic fever
T2 - Whole-genome transcriptional analysis of successful disease mitigation
AU - Yen, Judy Y.
AU - Garamszegi, Sara
AU - Geisbert, Joan B.
AU - Rubins, Kathleen H.
AU - Geisbert, Thomas W.
AU - Honko, Anna
AU - Xia, Yu
AU - Connor, John H.
AU - Hensley, Lisa E.
N1 - Funding Information:
1Department of Microbiology, Boston University School of Medicine, 2Bioinformatics Program, Boston University, Massachusetts; 3Department of Microbiology and Immunology, University of Texas, Medical Branch, Galveston, Texas; 4National Aeronautics and Space Administration, Houston, Texas; 5U.S. Army Medical Research Institute of Infectious Diseases, Fort Detrick, Maryland; 6Department of Biomedical Engineering, and 7Department of Chemistry, Boston University, Massachusetts
PY - 2011/11/1
Y1 - 2011/11/1
N2 - The mechanisms of Ebola (EBOV) pathogenesis are only partially understood, but the dysregulation of normal host immune responses (including destruction of lymphocytes, increases in circulating cytokine levels, and development of coagulation abnormalities) is thought to play a major role. Accumulating evidence suggests that much of the observed pathology is not the direct result of virus-induced structural damage but rather is due to the release of soluble immune mediators from EBOV-infected cells. It is therefore essential to understand how the candidate therapeutic may be interrupting the disease process and/or targeting the infectious agent. To identify genetic signatures that are correlates of protection, we used a DNA microarray-based approach to compare the host genome-wide responses of EBOV-infected nonhuman primates (NHPs) responding to candidate therapeutics. We observed that, although the overall circulating immune response was similar in the presence and absence of coagulation inhibitors, surviving NHPs clustered together. Noticeable differences in coagulation-associated genes appeared to correlate with survival, which revealed a subset of distinctly differentially expressed genes, including chemokine ligand 8 (CCL8/MCP-2), that may provide possible targets for early-stage diagnostics or future therapeutics. These analyses will assist us in understanding the pathogenic mechanisms of EBOV infection and in identifying improved therapeutic strategies.
AB - The mechanisms of Ebola (EBOV) pathogenesis are only partially understood, but the dysregulation of normal host immune responses (including destruction of lymphocytes, increases in circulating cytokine levels, and development of coagulation abnormalities) is thought to play a major role. Accumulating evidence suggests that much of the observed pathology is not the direct result of virus-induced structural damage but rather is due to the release of soluble immune mediators from EBOV-infected cells. It is therefore essential to understand how the candidate therapeutic may be interrupting the disease process and/or targeting the infectious agent. To identify genetic signatures that are correlates of protection, we used a DNA microarray-based approach to compare the host genome-wide responses of EBOV-infected nonhuman primates (NHPs) responding to candidate therapeutics. We observed that, although the overall circulating immune response was similar in the presence and absence of coagulation inhibitors, surviving NHPs clustered together. Noticeable differences in coagulation-associated genes appeared to correlate with survival, which revealed a subset of distinctly differentially expressed genes, including chemokine ligand 8 (CCL8/MCP-2), that may provide possible targets for early-stage diagnostics or future therapeutics. These analyses will assist us in understanding the pathogenic mechanisms of EBOV infection and in identifying improved therapeutic strategies.
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U2 - 10.1093/infdis/jir345
DO - 10.1093/infdis/jir345
M3 - Article
C2 - 21987740
AN - SCOPUS:80054744851
SN - 0022-1899
VL - 204
SP - S1043-S1052
JO - Journal of Infectious Diseases
JF - Journal of Infectious Diseases
IS - SUPPL. 3
ER -