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Blood, Vol. 94 No. 12 (December 15), 1999: pp. 4282-4293

Normal Neutrophil Function in Cathepsin G-Deficient Mice

Debra M. MacIvor, Steven D. Shapiro, Christine T.N. Pham, Abderazzaq Belaaouaj, Soman N. Abraham, and Timothy J. Ley

From the Departments of Internal Medicine and Genetics, Division of Bone Marrow Transplantation and Stem Cell Biology, Department of Pediatrics, Medicine, and Cell Biology, Division of Rheumatology, and Department of Pathology, Washington University Medical School, St Louis, MO.

Cathepsin G is a neutral serine protease that is highly expressed at the promyelocyte stage of myeloid development. We have developed a homologous recombination strategy to create a loss-of-function mutation for murine cathepsin G. Bone marrow derived from mice homozygous for this mutation had no detectable cathepsin G protein or activity, indicating that no other protease in bone marrow cells has the same specificity. Hematopoiesis in cathepsin G-/- mice is normal, and the mice have no overt abnormalities in blood clotting. Neutrophils derived from cathepsin G-/- mice have normal morphology and azurophil granule composition; these neutrophils also display normal phagocytosis and superoxide production and have normal chemotactic responses to C5a, fMLP, and interleukin-8. Although cathepsin G has previously shown to have broad spectrum antibiotic properties, challenges of mice with Staphylococcus aureus, Klebsiella pneumoniae, or Escherichia coli yielded survivals that were not different from those of wild-type animals. In sum, cathepsin G-/- neutrophils have no obvious defects in function; either cathepsin G is not required for any of these normal neutrophil functions or related azurophil granule proteases with different specificities (ie, neutrophil elastase, proteinase 3, azurocidin, and/or others) can substitute for it in vivo.


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