Daichi Kawasaki scite author profile

Transglutaminases (TGs) play essential intracellular and extracellular roles by covalently cross-linking many proteins. TG is encoded by one gene and has two alternative splicing-derived isoforms, TG-A and TG-B, which contain distinct N-terminal 46- and 38-amino acid sequences, respectively. The TGs identified to date do not have a typical endoplasmic reticulum (ER)-signal peptide, and the molecular mechanisms of their secretion under physiologic conditions are unclear. Immunocytochemistry revealed that TG-A localizes to multivesicular-like structures, whereas TG-B localizes to the cytosol. We also found that TG-A, but not TG-B, was modified concomitantly bymyristoylation and -palmitoylation, andmyristoylation was a pre-requisite for palmitoylation. Moreover, TG-A, but not TG-B, was secreted in response to calcium signaling induced by Ca ionophores and uracil, a pathogenic bacteria-derived substance. Brefeldin A and monensin, inhibitors of the ER/Golgi-mediated conventional pathway, did not suppress TG-A secretion, whereas inhibition of -palmitoylation by 2-bromopalmitate blocked TG-A secretion. Ultracentrifugation, electron microscopy analyses, and treatments with inhibitors of multivesicular body formation revealed that TG-A was secreted via exosomes together with co-transfected mammalian CD63, an exosomal marker, and the secreted TG-A was taken up by other cells. The 8-residue N-terminal fragment of TG-A containing the fatty acylation sites was both necessary and sufficient for the exosome-dependent secretion of TG-A. In conclusion, TG-A is secreted through an unconventional ER/Golgi-independent pathway involving two types of fatty acylations and exosomes.

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Magnetocaloric Effect and Magnetoresistance Due to Itinerant Electron Metamagnetic Transition in <inline-formula> <tex-math notation="TeX">${\rm Co}({\rm S}_{1-x}{\rm Se}_{x})_{2}$ </tex-math></inline-formula>

Wada

Kawasaki

Maekawa

2014

IEEE Trans. Magn.

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High-field transport properties of itinerant electron metamagnetic Co(S1-Se )2

Wada

Maekawa

Kawasaki

2016

Journal of Science: Advanced Materials and Devices

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Daichi Kawasaki

Drosophila TG-A transglutaminase is secreted via an unconventional Golgi-independent mechanism involving exosomes and two types of fatty acylations

Magnetocaloric Effect and Magnetoresistance Due to Itinerant Electron Metamagnetic Transition in <inline-formula> <tex-math notation="TeX">${\rm Co}({\rm S}_{1-x}{\rm Se}_{x})_{2}$ </tex-math></inline-formula>

High-field transport properties of itinerant electron metamagnetic Co(S1-Se )2

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