Transcytosis route mediates rapid delivery of intact antibodies to draining lymph nodes
Laura Kähäri, … , Johanna Ivaska, Marko Salmi
Laura Kähäri, … , Johanna Ivaska, Marko Salmi
Published June 24, 2019
Citation Information: J Clin Invest. 2019;129(8):3086-3102. https://doi.org/10.1172/JCI125740.
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Research Article Immunology Vascular biology Article has an altmetric score of 23

Transcytosis route mediates rapid delivery of intact antibodies to draining lymph nodes

Abstract

Lymph nodes (LNs) filter lymph to mount effective immune responses. Small soluble lymph-borne molecules from the periphery enter the draining LNs via a reticular conduit system. Intact antibodies and other larger molecules, in contrast, are physically unable to enter the conduits, and they are thought to be transported to the LNs only within migratory DCs after proteolytic degradation. Here, we discovered that lymph-borne antibodies and other large biomolecules enter within seconds into the parenchyma of the draining LN in an intact form. Mechanistically, we found that the uptake of large molecules is a receptor-independent, fluid-phase process that takes place by dynamin-dependent vesicular transcytosis through the lymphatic endothelial cells in the subcapsular sinus of the LN. Physiologically, this pathway mediates a very fast transfer of large protein antigens from the periphery to LN-resident DCs and macrophages. We show that exploitation of the transcytosis system allows enhanced whole-organ imaging and spatially controlled lymphocyte activation by s.c. administered antibodies in vivo. Transcytosis through the floor of the subcapsular sinus thus represents what we believe to be a new physiological and targetable mode of lymph filtering.

Authors

Laura Kähäri, Ruth Fair-Mäkelä, Kaisa Auvinen, Pia Rantakari, Sirpa Jalkanen, Johanna Ivaska, Marko Salmi

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Figure 7

Vesicular transcytosis of lymph-borne antibodies through sinusoidal LECs in the draining LNs.

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Vesicular transcytosis of lymph-borne antibodies through sinusoidal LECs...
(A) Transmission electron microscopic analyses of sinusoidal LECs (n = 3). Green arrowhead indicates a caveola; red arrowhead indicates round intracytoplasmic vesicles; yellow arrowheads indicate elongated tubulovesicular structures. Scale bar: 200 nm. (BE) Immunoelectron microscopic analyses of the localization of lymph-borne free antibody (0.5-μg dose, t = 30 min, n = 2) in the cytoplasmic vesicles of sinusoidal ECs (BD) and at inter-EC junctions (red arrows in E) in the draining LN. The sections were stained ex vivo with anti–rat IgG antibody conjugated to 10-nm gold particles. Scale bars: 40 nm (BD) and 200 nm (E). (F) Confocal high-resolution analysis of the lymph-borne free antibody (2-μg dose, t = 5 min, n = 6 images from 3 individual popliteal LNs) in the early endosomes of floor LECs. The sections were stained ex vivo for CD31 and EEA1, and the distribution of free antibody vesicles in contact with EEA1+ vesicles and localized to similar non-EEA1+ volumes (normalized to the cell volume) was determined. Scale bar: 1 μm. In the bar graphs, data are the mean ± SD. *P  < 0.05, by Wilcoxon matched-pairs, signed-rank test.