Reduced Macrophage Recruitment, Proliferation, and Activation in Colony-Stimulating Factor-1-Deficient Mice Results in Decreased Tubular Apoptosis During Renal Inflammation

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Reduced Macrophage Recruitment, Proliferation, and Activation in Colony-Stimulating Factor-1-Deficient Mice Results in Decreased Tubular Apoptosis During Renal Inflammation ¹

Deborah M. Lenda^*, Eriya Kikawada^*, E. Richard Stanley and Vicki R. Kelley²^,*

^* Laboratory of Molecular Autoimmune Disease, Renal Division, Brigham and Women’s Hospital, Boston, MA 02115; and Department of Developmental and Molecular Biology, Albert Einstein College of Medicine, Bronx, NY 10461

Kidney tubular epithelial cell (TEC) death may be dependenton the number and activation state of macrophages (M ${phi}$ ) duringinflammation. Our prior studies indicate that activated M ${phi}$ releasesoluble mediators that incite TEC death, and reducing intrarenalM ${phi}$ during kidney disease diminishes TEC apoptosis. CSF-1 is requiredfor M ${phi}$ proliferation and survival. We hypothesized that in theabsence of CSF-1, M ${phi}$ -mediated TEC apoptosis would be preventedduring renal inflammation. To test this hypothesis, we evaluatedrenal inflammation during unilateral ureter obstruction in CSF-1-deficient(Csf1^op/Csf1^op) mice. We detected fewer M ${phi}$ and T cells and lessapoptotic TEC in the obstructed kidneys of Csf1^op/Csf1^op micecompared with wild-type (WT) mice. The decrease in intrarenalM ${phi}$ resulted from diminished recruitment and proliferation, notenhanced apoptosis. CSF-1 enhanced M ${phi}$ activation. There werefar fewer activated (CD69, CD23, Ia, surface expression) M ${phi}$ inobstructed CSF-1-deficient compared with WT obstructed kidneys.Similarly, bone marrow M ${phi}$ preincubated with anti-CSF-1 receptorAb or anti-CSF-1 neutralizing Ab were resistant to LPS- andIFN- ${gamma}$ -induced activation. We detected fewer apoptotic-inducingmolecules (reactive oxygen species, TNF- ${alpha}$ , inducible NO synthase)in 1) M ${phi}$ propagated from obstructed Csf1^op/Csf1^op compared withWT kidneys, and 2) WT bone marrow M ${phi}$ blocked with anti-CSF-1receptor or anti-CSF-1 Ab compared with the isotype control.Furthermore, blocking CSF-1 or the CSF-1 receptor induced lessTEC apoptosis than the isotype control. We suggest that duringrenal inflammation, CSF-1 mediates M ${phi}$ recruitment, proliferation,activation, and, in turn, TEC apoptosis.

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Reduced Macrophage Recruitment, Proliferation, and Activation in Colony-Stimulating Factor-1-Deficient Mice Results in Decreased Tubular Apoptosis During Renal Inflammation 1

Reduced Macrophage Recruitment, Proliferation, and Activation in Colony-Stimulating Factor-1-Deficient Mice Results in Decreased Tubular Apoptosis During Renal Inflammation ¹