Adiponectin/T-cadherin system enhances exosome biogenesis and decreases cellular ceramides by exosomal release
Yoshinari Obata, Shunbun Kita, Yoshihisa Koyama, Shiro Fukuda, Hiroaki Takeda, Masatomo Takahashi, Yuya Fujishima, Hirofumi Nagao, Shigeki Masuda, Yoshimitsu Tanaka, Yuto Nakamura, Hitoshi Nishizawa, Tohru Funahashi, Barbara Ranscht, Yoshihiro Izumi, Takeshi Bamba, Eiichiro Fukusaki, Rikinari Hanayama, Shoichi Shimada, Norikazu Maeda, Iichiro Shimomura
Yoshinari Obata, Shunbun Kita, Yoshihisa Koyama, Shiro Fukuda, Hiroaki Takeda, Masatomo Takahashi, Yuya Fujishima, Hirofumi Nagao, Shigeki Masuda, Yoshimitsu Tanaka, Yuto Nakamura, Hitoshi Nishizawa, Tohru Funahashi, Barbara Ranscht, Yoshihiro Izumi, Takeshi Bamba, Eiichiro Fukusaki, Rikinari Hanayama, Shoichi Shimada, Norikazu Maeda, Iichiro Shimomura
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Research Article Cell biology Metabolism

Adiponectin/T-cadherin system enhances exosome biogenesis and decreases cellular ceramides by exosomal release

Abstract

Adiponectin, an adipocyte-derived circulating protein, accumulates in vasculature, heart, and skeletal muscles through interaction with a unique glycosylphosphatidylinositol-anchored cadherin, T-cadherin. Recent studies have demonstrated that such accumulation is essential for adiponectin-mediated cardiovascular protection. Here, we demonstrate that the adiponectin/T-cadherin system enhances exosome biogenesis and secretion, leading to the decrease of cellular ceramides. Adiponectin accumulated inside multivesicular bodies, the site of exosome generation, in cultured cells and in vivo aorta, and also in exosomes in conditioned media and in blood, together with T-cadherin. The systemic level of exosomes in blood was significantly affected by adiponectin or T-cadherin in vivo. Adiponectin increased exosome biogenesis from the cells, dependently on T-cadherin, but not on AdipoR1 or AdipoR2. Such enhancement of exosome release accompanied the reduction of cellular ceramides through ceramide efflux in exosomes. Consistently, the ceramide reduction by adiponectin was found in aortas of WT mice treated with angiotensin II, but not in T-cadherin–knockout mice. Our findings provide insights into adiponectin/T-cadherin–mediated organ protection through exosome biogenesis and secretion.

Authors

Yoshinari Obata, Shunbun Kita, Yoshihisa Koyama, Shiro Fukuda, Hiroaki Takeda, Masatomo Takahashi, Yuya Fujishima, Hirofumi Nagao, Shigeki Masuda, Yoshimitsu Tanaka, Yuto Nakamura, Hitoshi Nishizawa, Tohru Funahashi, Barbara Ranscht, Yoshihiro Izumi, Takeshi Bamba, Eiichiro Fukusaki, Rikinari Hanayama, Shoichi Shimada, Norikazu Maeda, Iichiro Shimomura

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Figure 5

Adiponectin enhances exosome biogenesis.

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Adiponectin enhances exosome biogenesis. (A) Overview of the experiment ...
(A) Overview of the experiment for assessing the rate of de novo synthesis of exosomes. (B) Confocal immunofluorescence micrographs of F2T cells transfected with Rab7 and Rab27a siRNAs. Cells were stained with anti-CD63 antibody. Scale bars: 10 μm. Higher magnifications of the boxed areas are shown in the right panels. Scale bars: 5 μm. (C, left panels) Representative immunoelectron micrographs using the pre-embedding immunoperoxidase technique in F2T cells with Rab7 and Rab27a double-depletion. Cells were cultured with 0 or 20 μg/ml adiponectin (APN) and incubated with biotinylated anti-CD63 antibody for 30 minutes at 37°C. Newly synthesized exosomes in multivesicular bodies (MVBs) were visualized by HRP–conjugated streptavidin with 3,3′-diaminobenzidine tetrahydrochloride (DAB). Scale bars: 0.5 μm. (C, right panel) For each DAB-stained MVB, the filling rate was calculated by dividing the stained area in the MVB by the MVB total area. Fifty MVBs for each group were tested. In the graph, horizontal bars represent the medians. ***P < 0.001 (Mann-Whitney U test).