The widely expressed microfibril-forming collagen VI is subject to proteolytic cleavage and it has been proposed that the cleaved off C-terminal Kunitz domain (C5) of the α3 chain is an adipokine important for tumor progression and fibrosis. Under the name “endotrophin” the C5 fragment has also been shown to be a potent biomarker for fibro-inflammatory diseases. However, the biochemical mechanisms behind endotrophin activity have not been investigated. In earlier studies, the anthrax toxin receptor 1 was found to bind to C5, but this potential interaction has not been further studied. Given the proposed physiological role of endotrophin we aimed to determine how the endotrophin signal is transmitted to the recipient cells. Surprisingly, we could not detect any interaction between endotrophin and anthrax toxin receptor 1 or its close relative, anthrax toxin receptor 2. Moreover, we could not detect binding of fully assembled collagen VI to either anthrax toxin receptor. We also performed similar experiments with the collagen VI surface receptor NG2 (CSPG4). We could confirm that NG2 is a collagen VI receptor that binds to assembled collagen VI, but not to the cleaved C5/endotrophin. A cellular receptor for C5/endotrophin therefore still remains elusive.
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