OBJECTIVE: A compelling strategy for treatment of spinal cord injury is the blockade of integrin-mediated leukocyte extravasation using a monoclonal antibody (mAb) against the alpha4 subunit of the alpha4beta1-integrin. However, little is known with respect to neutrophil function following anti-alpha4 mAb treatment. This study assessed the effects of anti-alpha4 mAb binding on neutrophil activation [reactive oxygen species (ROS) production], function (phagocytic activity) and anti-alpha4-mAb/alpha4beta1-integrin-complex internalization. METHODS: Resting, primed or stimulated rat neutrophils were incubated ex vivo with anti-alpha4 mAb or isotype-control antibody. ROS production, phagocytic activity, and anti-alpha4-mAb/alpha4beta1-integrin-complex internalization were determined by flow cytometry using dihydrorhodamine (DHR1,2,3), fluorescent microspheres, and indirect immunolabeling, respectively. RESULTS: Brief (0.5 h) incubation of resting, primed or activated neutrophils with anti-alpha4 mAb had no effect on ROS production and did not change neutrophil phagocytic activity. However, prolonged incubation (2 h), assessed only in resting neutrophils, increased ROS production. The anti-alpha4-mAb/alpha4beta1-integrin-complex was internalized after 1 h of anti-alpha4 mAb treatment and remained internalized up to 6 h. CONCLUSION: Neutrophil ROS production and phagocytic function remain unaltered after brief anti-alpha4 mAb exposure, demonstrating that use of this mAb as a treatment should not adversely affect important beneficial roles of these cells.
OBJECTIVE: A compelling strategy for treatment of spinal cord injury is the blockade of integrin-mediated leukocyte extravasation using a monoclonal antibody (mAb) against the alpha4 subunit of the alpha4beta1-integrin. However, little is known with respect to neutrophil function following anti-alpha4 mAb treatment. This study assessed the effects of anti-alpha4 mAb binding on neutrophil activation [reactive oxygen species (ROS) production], function (phagocytic activity) and anti-alpha4-mAb/alpha4beta1-integrin-complex internalization. METHODS: Resting, primed or stimulated rat neutrophils were incubated ex vivo with anti-alpha4 mAb or isotype-control antibody. ROS production, phagocytic activity, and anti-alpha4-mAb/alpha4beta1-integrin-complex internalization were determined by flow cytometry using dihydrorhodamine (DHR1,2,3), fluorescent microspheres, and indirect immunolabeling, respectively. RESULTS: Brief (0.5 h) incubation of resting, primed or activated neutrophils with anti-alpha4 mAb had no effect on ROS production and did not change neutrophil phagocytic activity. However, prolonged incubation (2 h), assessed only in resting neutrophils, increased ROS production. The anti-alpha4-mAb/alpha4beta1-integrin-complex was internalized after 1 h of anti-alpha4 mAb treatment and remained internalized up to 6 h. CONCLUSION: Neutrophil ROS production and phagocytic function remain unaltered after brief anti-alpha4 mAb exposure, demonstrating that use of this mAb as a treatment should not adversely affect important beneficial roles of these cells.
Authors: D R Leone; K Giza; A Gill; B M Dolinski; W Yang; S Perper; D M Scott; W-C Lee; M Cornebise; K Wortham; C Nickerson-Nutter; L L Chen; D LePage; J C Spell; E T Whalley; R C Petter; S P Adams; R R Lobb; R B Pepinsky Journal: J Pharmacol Exp Ther Date: 2003-03-06 Impact factor: 4.030
Authors: Thomas F Benkert; Lena Dietz; Elena M Hartmann; Ellen Leich; Andreas Rosenwald; Edgar Serfling; Mathias Buttmann; Friederike Berberich-Siebelt Journal: PLoS One Date: 2012-12-20 Impact factor: 3.240