Neutrophils Deficient in PU.1 Do Not Terminally Differentiate or Become Functionally Competent

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Blood, Vol. 92 No. 5 (September 1), 1998: pp. 1576-1585

Neutrophils Deficient in PU.1 Do Not Terminally Differentiate or Become Functionally Competent

Karen L. Anderson, Kent A. Smith, Frederic Pio, Bruce E. Torbett, and Richard A. Maki
From The Burnham Institute and the Department of Immunology, The Scripps Research Institute, La Jolla, CA.
PU.1 is an ets family transcription factor that is expressed specifically in hematopoietic lineages. Through gene disruptionstudies in mice we have previously shown that the expression ofPU.1 is not essential for early myeloid lineage or neutrophilcommitment, but is essential for monocyte/macrophage development.We have also shown that PU.1-null (deficient) neutrophils haveneutrophil morphology and express neutrophil-specific markerssuch as Gr-1 and chloroacetate esterase both in vivo and in vitro.We now demonstrate that although PU.1-null mice develop neutrophils,these cells fail to terminally differentiate as shown by the absenceof messages for neutrophil secondary granule components and theabsence or deficiency of cellular responses to stimuli that normallyinvoke neutrophil function. Specifically, PU.1-deficient neutrophilsfail to respond to selected chemokines, do not generate superoxideions, and are ineffective at bacterial uptake and killing. Thefailure to produce superoxide could, in part, be explained bythe absence of the gp91 subunit of nicotinamide adenine dinucleotidephosphate oxidase, as shown by our inability to detect messagesfor the gp91^phox gene. Incomplete maturation of PU.1-deficient neutrophils iscell autonomous and persists in cultured PU.1-deficient cells.Our results indicate that PU.1 is not necessary for neutrophillineage commitment but is essential for normal development, maturation,and function of neutrophils.
© 1998 by The American Society of Hematology.

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