TY - JOUR
T1 - Rickettsiae and rickettsial infections
T2 - The current state of knowledge
AU - Walker, David H.
N1 - Funding Information:
I thank Doris Baker and Sherrill Hebert for expert secretarial assistance and Aaron Medina-Sanchez and Steve Schuenke for their expert preparation of the figures. Financial support. National Institutes of Health (grant AI21242). Supplement sponsorship. This article was published as part of a supplement entitled “Tribute to Ted Woodward,” sponsored by an unrestricted grant from Cubist Pharmaceuticals and a donation from John G. McCormick of McCormick & Company, Hunt Valley, Maryland. Potential conflicts of interest. D.H.W.: no conflicts.
PY - 2007/7/15
Y1 - 2007/7/15
N2 - New human rickettsial pathogens have been discovered, and long-known rickettsiae of undetermined pathogenicity have been demonstrated to cause illness. Disease associated with Rickettsia slovaca has unique clinical manifestations, including prominent lymphadenopathy without fever and rash. Rickettsial genomes are highly conserved, with reductive evolution leading to a small genome that relies on the host cell for many biosynthetic functions. Advances in the evaluation of the pathogenesis of rickettsial disease include identification of rickettsial adhesins, a host cell receptor, signaling elements associated with entry of rickettsiae by induced phagocytosis, rickettsial enzymes mediating phagosomal escape, and host actin-based rickettsial cell-to-cell spread. Disruption of adherens junctions of infected endothelial cells likely plays a role in the critical pathophysiologic mechanism: increased microvascular permeability. Production of reactive oxygen species by infected endothelium injures these cells. However, disseminated intravascular coagulation rarely occurs. Immunity is mediated by reactive cytokine-activated rickettsicidal nitrogen and oxygen species and by clearance of rickettsiae by cytotoxic CD8 T cells.
AB - New human rickettsial pathogens have been discovered, and long-known rickettsiae of undetermined pathogenicity have been demonstrated to cause illness. Disease associated with Rickettsia slovaca has unique clinical manifestations, including prominent lymphadenopathy without fever and rash. Rickettsial genomes are highly conserved, with reductive evolution leading to a small genome that relies on the host cell for many biosynthetic functions. Advances in the evaluation of the pathogenesis of rickettsial disease include identification of rickettsial adhesins, a host cell receptor, signaling elements associated with entry of rickettsiae by induced phagocytosis, rickettsial enzymes mediating phagosomal escape, and host actin-based rickettsial cell-to-cell spread. Disruption of adherens junctions of infected endothelial cells likely plays a role in the critical pathophysiologic mechanism: increased microvascular permeability. Production of reactive oxygen species by infected endothelium injures these cells. However, disseminated intravascular coagulation rarely occurs. Immunity is mediated by reactive cytokine-activated rickettsicidal nitrogen and oxygen species and by clearance of rickettsiae by cytotoxic CD8 T cells.
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U2 - 10.1086/518145
DO - 10.1086/518145
M3 - Review article
C2 - 17582568
AN - SCOPUS:34447137410
SN - 1058-4838
VL - 45
SP - S39-S44
JO - Clinical Infectious Diseases
JF - Clinical Infectious Diseases
IS - SUPPL. 1
ER -