Role of the EGF-like domains in mammalian tolloid (mTLD) secretion and procollagen C-proteinase activity

Introduction Bone morphogenetic protein (BMP)‐1 and its larger splice variant mammalian tolloid (mTLD) belong to the tolloid group of astacin‐like metalloproteinases that are fundamental to tissue patterning and extracellular matrix assembly. BMP‐1 and mTLD exhibit similar substrate specificity in vitro; however, BMP‐1 is a much better procollagen C‐proteinase than mTLD. mTLD consists of a prodomain (which is cleaved by a furin‐like enzyme) ( Leighton & Kadler 2003 ), a zinc metalloproteinase domain and a C‐terminal part comprising five CUB domains thought to be important for protein–protein interactions ( Hartigan et al. 2003 ), and two EGF‐like domains, which in other proteins are involved in calcium ion binding. BMP‐1 lacks the most C‐terminal two CUB domains and one EGF‐like domain. mTLD activity is known to be calcium ion dependent, as demonstrated for the chick homologue ( Hojima et al. 1985 ). In our current work, we are studying the role of the EGF‐like domains in the secretion and procollagen C‐proteinase activity of mTLD, and the contribution that these domains made to calcium ion dependency. Materials and methods We designed proteins lacking EGF1, EGF2 or both. NotI sites were introduced by PCR at the borders of the EGF domain of a cDNA clone encoding a V5‐His mTLD. Restriction enzyme digestion was used to delete individual domains. The mutant constructs in pCEP4 were stably transfected into 293‐EBNA cells. Expression was analysed by Western blot. The wild‐type and the mutant enzymes were purified on a nickel ion column, and their activity was determined by cleavage of type‐I procollagen in the presence or absence of 5 mm CaCl₂. Results We showed that (1) the mTLD proteins lacking EGF1, EGF2 or EGF1 + EGF2 were poorly secreted into the culture medium compared to mTLD and (2) the EGF deletion mutants remained calcium ion dependent, but some differences were seen. Most notably, the ΔEGF2 and ΔEGF1 + ΔEGF2 mutants were found to be better C‐proteinases than the wild‐type enzyme in the presence of calcium ions. Conclusion From these preliminary data, we concluded that (1) the EGF domains are necessary for efficient secretion (2) both EGF1 and EGF2 domains contribute to the calcium ion dependency of mTLD and (3) the EGF2 domain might be a Ca²⁺‐activated hinge that ‘swings’ the CUB‐4 and CUB‐5 domains away from the active site. The ?EGF2 mTLD might be expected to have an open conformation, thereby making it a better C‐proteinase than the wild‐type enzyme, and (?4) Ca²⁺ ions are bound by other domains in mTLD and not only by the EGF‐like domains.