TY - JOUR
T1 - Type 2 innate lymphoid cells control eosinophil homeostasis
AU - Nussbaum, Jesse C.
AU - Van Dyken, Steven J.
AU - Von Moltke, Jakob
AU - Cheng, Laurence E.
AU - Mohapatra, Alexander
AU - Molofsky, Ari B.
AU - Thornton, Emily E.
AU - Krummel, Matthew F.
AU - Chawla, Ajay
AU - Liang, Hong Erh
AU - Locksley, Richard M.
N1 - Funding Information:
Acknowledgements We thank the NIH Tetramer Core Facility for reagents, B. Sullivan, N. Flores,M. Consengco and Z. Wang for technical expertise, andM. Anderson, C. Lowell and M. McCune for comments on the manuscript. Supported by NIH (AI026918, AI030663, AI078869, HL107202), the Diabetes Endocrinology Research Center grant (DK063720), the Howard Hughes Medical Institute and the Sandler Asthma Basic Research Center at the University of California San Francisco. J.C.N. is supported by NIH training grants (AI007641 and AI007334).
PY - 2013
Y1 - 2013
N2 - Eosinophils are specialized myeloid cells associated with allergy and helminth infections. Blood eosinophils demonstrate circadian cycling, as described over 80 years ago, and are abundant in the healthy gastrointestinal tract. Although a cytokine, interleukin (IL)-5, and chemokines such as eotaxins mediate eosinophil development and survival, and tissue recruitment, respectively, the processes underlying the basal regulation of these signals remain unknown. Here we show that serum IL-5 levels are maintained by long-lived type 2 innate lymphoid cells (ILC2) resident in peripheral tissues. ILC2 cells secrete IL-5 constitutively and are induced to co-express IL-13 during type 2 inflammation, resulting in localized eotaxin production and eosinophil accumulation. In the small intestine where eosinophils and eotaxin are constitutive, ILC2 cells co-express IL-5 and IL-13; this co-expression is enhanced after caloric intake. The circadian synchronizer vasoactive intestinal peptide also stimulates ILC2 cells through the VPAC2 receptor to release IL-5, linking eosinophil levels with metabolic cycling. Tissue ILC2 cells regulate basal eosinophilopoiesis and tissue eosinophil accumulation through constitutive and stimulated cytokine expression, and this dissociated regulation can be tuned by nutrient intake and central circadian rhythms.
AB - Eosinophils are specialized myeloid cells associated with allergy and helminth infections. Blood eosinophils demonstrate circadian cycling, as described over 80 years ago, and are abundant in the healthy gastrointestinal tract. Although a cytokine, interleukin (IL)-5, and chemokines such as eotaxins mediate eosinophil development and survival, and tissue recruitment, respectively, the processes underlying the basal regulation of these signals remain unknown. Here we show that serum IL-5 levels are maintained by long-lived type 2 innate lymphoid cells (ILC2) resident in peripheral tissues. ILC2 cells secrete IL-5 constitutively and are induced to co-express IL-13 during type 2 inflammation, resulting in localized eotaxin production and eosinophil accumulation. In the small intestine where eosinophils and eotaxin are constitutive, ILC2 cells co-express IL-5 and IL-13; this co-expression is enhanced after caloric intake. The circadian synchronizer vasoactive intestinal peptide also stimulates ILC2 cells through the VPAC2 receptor to release IL-5, linking eosinophil levels with metabolic cycling. Tissue ILC2 cells regulate basal eosinophilopoiesis and tissue eosinophil accumulation through constitutive and stimulated cytokine expression, and this dissociated regulation can be tuned by nutrient intake and central circadian rhythms.
UR - http://www.scopus.com/inward/record.url?scp=84885572626&partnerID=8YFLogxK
U2 - 10.1038/nature12526
DO - 10.1038/nature12526
M3 - Article
C2 - 24037376
AN - SCOPUS:84885572626
SN - 0028-0836
VL - 502
SP - 245
EP - 248
JO - Nature
JF - Nature
IS - 7470
ER -