Published online before print May 29, 2008

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(Journal of Leukocyte Biology. 2008;84:499-509.)
© 2008 by Society for Leukocyte Biology

Separate endocytic pathways regulate IL-5 receptor internalization and signaling

Biology of Inflammation Center, and the Immunology Allergy and Rheumatology Section, Departments of Medicine and Immunology, Baylor College of Medicine, Houston, Texas, USA

¹ Correspondence: One Baylor Plaza, BCM 285, Suite 672E, Baylor College of Medicine, Houston, TX 77030-3411, USA. E-mail: mxm{at}bcm.edu

Eosinophils are critically dependent on IL-5 for their activation, differentiation, survival, and augmentation of cytotoxic activity. We previously showed that the cytoplasmic domain of the hematopoietic receptor, βc, which is shared by IL-5, IL-3, and GM-CSF, is directly ubiquitinated and degraded by the proteasomes in a JAK2-dependent manner. However, studies describing the spatial distribution, endocytic regulation, and trafficking of βc-sharing receptors in human eosinophils are currently lacking. Using deconvolution microscopy and biochemical methods, we clearly demonstrate that IL-5Rs reside in and are internalized by clathrin- and lipid raft-dependent endocytic pathways. Microscopy analyses in TF1 cells and human eosinophils revealed significant colocalization of βc, IL-5R, and Cy3-labeled IL-5 with transferrin- (clathrin) and cholera toxin-B- (lipid raft) positive vesicles. Moreover, whereas internalized IL-5Rs were detected in both clathrin- and lipid raft-positive vesicles, biochemical data revealed that tyrosine phosphorylated, ubiquitinated, and proteasome-degraded IL-5Rs partitioned to the soluble, nonraft fractions (clathrin-containing). Lastly, we show that optimal IL-5-induced signaling requires entry of activated IL-5Rs into the intracellular compartment, as coimmunoprecipitation of key signaling molecules with the IL-5R was completely blocked when either endocytic pathway was inhibited. These data provide the first evidence that IL-5Rs segregate and traffic into two distinct plasma membrane compartments, and they further establish that IL-5R endocytosis regulates signaling both positively and negatively.

Key Words: endocytosis • receptor trafficking • ubiquitin/proteasome degradation pathway • eosinophils • signal transduction

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