Insights into How CUB Domains Can Exert Specific Functions while Sharing a Common Fold

Blanc, G.; Font, B.; Eichenberger, D.; Moreau, Christophe; Ricard‐Blum, Sylvie; Hulmes, David J.S.; Moali, Catherine

doi:10.1074/jbc.m701610200

Cited by 77 publications

(54 citation statements)

References 54 publications

(78 reference statements)

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“…Interestingly, the CUB domain region alone is sufficient to promote enhancement (4,10). We have shown that the triple helix of procollagens is not required for tolloid stimulation (6) and have identified several residues in CUB1 that seem to play a major role in the PCPE-procollagen interaction (11). Of note, when the calcium-binding site in CUB1 is disrupted, interaction with the C-terminal part of procollagen III is completely abolished, * This work was supported by the Ré gion Rhô ne-Alpes, the European Com-locating one possible interaction site on loops 5, 7, and 9 of CUB1.…”

mentioning

confidence: 91%

“…1A). CUB1NTR and CUB2NTR were produced with the QuikChange XL site-directed mutagenesis kit from Stratagene using the cDNA of human PCPE-1 inserted into the pCEP4 vector (Invitrogen), in-frame with an 8-histidine C-terminal tag (known as PCPEhis) (11). 5Ј-Phosphorylated primers were designed to delete residues 150 -275 to obtain CUB1NTR (numbering according to human full-length PCPE-1, including the signal peptide) and residues 26 -149 to obtain CUB2NTR.…”

Section: Methodsmentioning

confidence: 99%

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Strong Cooperativity and Loose Geometry between CUB Domains Are the Basis for Procollagen C-Proteinase Enhancer Activity

Kronenberg

Goff

Bourhis

et al. 2009

Journal of Biological Chemistry

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Procollagen C-proteinase enhancers (PCPE-1 and -2) specifically activate bone morphogenetic protein-1 (BMP-1) and other members of the tolloid proteinase family during C-terminal processing of fibrillar collagen precursors. PCPEs consist of two CUB domains (CUB1 and CUB2) and one NTR domain separated by one short and one long linker. It was previously shown that PCPEs can strongly interact with procollagen molecules, but the exact mechanism by which they enhance BMP-1 activity remains largely unknown. Here, we used a series of deletion mutants of PCPE-1 and two chimeric constructs with repetitions of the same CUB domain to study the role of each domain and linker. Out of all the forms tested, only those containing both CUB1 and CUB2 were capable of enhancing BMP-1 activity and binding to a mini-procollagen substrate with nanomolar affinity. Both these properties were lost by individual CUB domains, which had dissociation constants at least three orders of magnitude higher. In addition, none of the constructs tested could inhibit PCPE activity, although CUB2CUB2NTR was found to modulate BMP-1 activity through direct complex formation with the enzyme, resulting in a decreased rate of substrate processing. Finally, increasing the length of the short linker between CUB1 and CUB2 was without detrimental effect on both activity and substrate binding. These data support the conclusion that CUB1 and CUB2 bind to the procollagen substrate in a cooperative manner, involving the short linker that provides a flexible tether linking the two binding regions.Tolloid proteinases have been shown to play important roles during embryogenesis and tissue remodeling. They control extracellular matrix synthesis as well as morphogenetic events such as dorso-ventral patterning, neural differentiation, and muscle growth (1). This control is achieved through proteolytic modifications of several matrix components (fibrillar and nonfibrillar procollagens, small leucine-rich proteoglycans, laminin 332, perlecan, and others), enzymes (lysyl oxidases) and growth factors or associated molecules (chordin, latent transforming growth factor-␤-binding protein-1, growth differentiation factors 8 and 11, prolactin, and others). In mammals, the tolloid family includes bone morphogenetic protein-1 (BMP-1), 2 mammalian tolloid, and mammalian tolloid like-1 and -2 (2). BMP-1 and mammalian tolloid are also known as "procollagen C-proteinases" (PCPs), because one of their key functions is to trigger collagen fibrillogenesis through cleavage of the C-terminal propeptides in fibrillar procollagens (3). Collagen fibrils then provide a scaffold for further deposition of other matrix molecules.Tolloid enzymes are assisted during collagen maturation by the procollagen C-proteinase enhancers-1 and -2 (PCPE-1 and -2), which can increase tolloid activity on the major fibrillar procollagens by Ͼ10-fold (4, 5) while not affecting the cleavage of other known tolloid substrates (6). PCPEs are rather small extracellular glycoproteins (ϳ50 kDa) consisting of, from the N ...

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confidence: 91%

Section: Methodsmentioning

confidence: 99%

Strong Cooperativity and Loose Geometry between CUB Domains Are the Basis for Procollagen C-Proteinase Enhancer Activity

Kronenberg

Goff

Bourhis

et al. 2009

Journal of Biological Chemistry

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“…In addition to high homology to its family member PCPE1, homology with PCPE2 was found with several proteins containing CUB domains including the protein encoded by the Cubulin gene, BMP-1, and other members of the astacin family (14). The two CUB domains near the N terminus are the most conserved regions of the protein with the C-terminal NTR domain less well conserved.…”

Section: Pcpe2 Shares Sequence Homology With Proteins Containing Cub mentioning

confidence: 99%

“…The cDNA encodes a 415-amino acid protein that has 43% identity to the type I procollagen C-proteinase enhancer protein (PCPE1) (13). PCPE2, like PCPE1, contains two CUB (complement C1r/C1s, Uegf, Bmp1) domains, which are thought to be important in protein-protein interaction (14) and binding to the COOH-terminal propeptide of type I procollagen leading to the C-terminal processing of fibrillar procollagens by tolloid proteinases such as bone morphogenetic protein-1 (BMP-1) (13). In addition, the recent finding identifying BMP-1 as the key enzyme responsible for the cleavage of pro-apoAI into its mature form (15) raises the intriguing possibility that PCPE2 alone or in combination with BMP-1 participates in the processing of proapoAI and therefore influence the biogenesis of HDL.…”

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confidence: 99%

Regulation of apoAI processing by procollagen C-proteinase enhancer-2 and bone morphogenetic protein-1

Zhu

Gardner

Pullinger

et al. 2009

Journal of Lipid Research

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Given the increased prevalence of cardiovascular disease in the world, the search for genetic variations controlling the levels of risk factors associated with the development of the disease continues. Multiple genetic association studies suggest the involvement of procollagen C-proteinase enhancer-2 (PCPE2) in modulating HDL-C levels. Therefore biochemical and mechanistic studies were undertaken to determine whether there might be a basis for a role of PCPE2 in HDL biogenesis. Our studies indicate that PCPE2 accelerates the proteolytic processing of pro-apolipoprotein (apo) AI by enhancing the cleavage of the hexapeptide extension present at the N terminus of apoAI. Surface Plasmon Resonance and immunoprecipitation studies indicate that PCPE2 interacts with BMP-1 and pro-apoAI to form a ternary pro-apoAI/BMP-1/PCPE2 complex. The most favorable interaction among these proteins begins with the association of BMP-1 to pro-apoAI followed by the binding of PCPE2 which further stabilizes the complex. PCPE2 resides, along with apoAI, on the HDL fraction of lipoproteins in human plasma supporting a relationship between HDL and PCPE2. Taken together, the findings from our studies identify a new player in the regulation of apoAI post-translational processing and open a new avenue to the study of mechanisms involved in the regulation of apoAI synthesis, HDL levels, and potentially, cardiovascular disease.-Zhu, J., J. Gardner, C. R. Pullinger, J. P. Kane, J. F. Thompson, and O. L. Francone. Regulation of apoAI processing by procollagen C-proteinase enhancer-2 and bone morphogenetic protein-1. J. Lipid Res. 2009Res. . 50: 1330Res. -1339 Supplementary key words apoAI synthesisDyslipidemia is a major risk factor for premature development of cardiovascular disease. A high ratio of atherogenic lipoproteins (VLDL, LDL, and IDL) to HDL leads to endothelial dysfunction, focal inflammation, and oxidative stress resulting in the initiation and progression of atherosclerosis. Plasma levels of HDL are inversely correlated with the onset of coronary artery disease as attested to by the outcome of several large prospective epidemiological studies (1, 2). The protective effect of HDL is due, at least in part, to the role of this class of lipoproteins in modulating inflammation and mediating cholesterol transport from peripheral cells to sites of reutilization and degradation (3). Apolipoprotein AI (apoAI); the main protein moiety of HDL; drives the formation and speciation of HDL resulting in a very heterogeneous class of particles, particularly with respect to particle size, density, protein content, and surface charge, which determines their functional role and metabolic fate (4). Understanding the processes involved in the synthesis and maturation of HDL species will ultimately provide the knowledge required to understand and appreciate the functional significance of each of the HDL subpopulations and their impact in the development of atherosclerosis.The importance of HDL-C in disease makes it amenable to candidate-gene an...

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“…A subset of CUB domains appears to require Ca 2ϩ for optimum binding activity (16). The most N-terminal BMP1 CUB domain (C1) may play a role in imparting "chordinase" activity, or ability to cleave chordin (17), a substrate described below.…”

Section: B/tp Structurementioning

confidence: 99%

Metalloproteinases in Drosophila to Humans That Are Central Players in Developmental Processes

Muir

Greenspan

2011

Journal of Biological Chemistry

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Many secreted proteins are synthesized as precursors with propeptides that must be cleaved to yield the mature functional form of the molecule. In addition, various growth factors occur in extracellular latent complexes with protein antagonists and are activated upon cleavage of such antagonists. Research in the separate fields of embryonic patterning and extracellular matrix formation has identified members of the BMP1/Tolloid-like family of metalloproteinases as key players in these types of biosynthetic processing events in species ranging from Drosophila to humans. Bone morphogenic proteins (BMPs)2 were first defined by the ability to induce de novo bone formation and were first identified in bone extracts (1). Although all other BMPs are members of the TGF␤ superfamily of growth factors, BMP1 is a metalloproteinase, the first demonstrated role of which was as a procollagen C-proteinase (pCP) (2) that cleaves C-propeptides from procollagen precursors to produce mature monomers of the major fibrillar collagens I-III. This activity is crucial to bone biology, as collagen I is the major protein component of bone and is essential to bone structure/function. After initial cloning of mammalian BMP1, Tolloid (TLD), the protein product of a zygotically active gene involved in dorsoventral patterning of Drosophila embryos, was shown to have a domain structure resembling that of BMP1 (3) and was later shown to exert patterning effects by activating the TGF␤-like BMP decapentaplegic (DPP) (4). Subsequently, BMP1 and TLD have become prototypes of the BMP1/TLD-like proteinase (B/TP) family. B/TPs in a broad range of species are now implicated in processes that include extracellular matrix (ECM) formation and mineralization, embryonic patterning, growth factor activation, and generation of anti-angiogenic protein fragments, all via cleavage of a growing list of substrates.

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Insights into How CUB Domains Can Exert Specific Functions while Sharing a Common Fold

Cited by 77 publications

References 54 publications

Strong Cooperativity and Loose Geometry between CUB Domains Are the Basis for Procollagen C-Proteinase Enhancer Activity

Strong Cooperativity and Loose Geometry between CUB Domains Are the Basis for Procollagen C-Proteinase Enhancer Activity

Regulation of apoAI processing by procollagen C-proteinase enhancer-2 and bone morphogenetic protein-1

Metalloproteinases in Drosophila to Humans That Are Central Players in Developmental Processes

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