Definition of the native and denatured type II collagen binding site for fibronectin using a recombinant collagen system. An, B; Abbonante, V; Yigit, S; Balduini, A; Kaplan, DL; Brodsky, B The Journal of biological chemistry
289
4941-51
2014
Abstract anzeigen
Interaction of collagen with fibronectin is important for extracellular matrix assembly and regulation of cellular processes. A fibronectin-binding region in collagen was identified using unfolded fragments, but it is not clear if the native protein binds fibronectin with the same primary sequence. A recombinant bacterial collagen is utilized to characterize the sequence requirement for fibronectin binding. Chimeric collagens were generated by inserting the putative fibronectin-binding region from human collagen into the bacterial collagen sequence. Insertion of a sufficient length of human sequence conferred fibronectin affinity. The minimum sequence requirement was identified as a 6-triplet sequence near the unique collagenase cleavage site and was the same in both triple-helix and denatured states. Denaturation of the chimeric collagen increased its affinity for fibronectin, as seen for mammalian collagens. The fibronectin binding recombinant collagen did not contain hydroxyproline, indicating hydroxyproline is not essential for binding. However, its absence may account, in part, for the higher affinity of the native chimeric protein and the lower affinity of the denatured protein compared with type II collagen. Megakaryocytes cultured on chimeric collagen with fibronectin affinity showed improved adhesion and differentiation, suggesting a strategy for generating bioactive materials in biomedical applications. | 24375478
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Detrimental role for human high temperature requirement serine protease A1 (HTRA1) in the pathogenesis of intervertebral disc (IVD) degeneration. Tiaden, AN; Klawitter, M; Lux, V; Mirsaidi, A; Bahrenberg, G; Glanz, S; Quero, L; Liebscher, T; Wuertz, K; Ehrmann, M; Richards, PJ The Journal of biological chemistry
287
21335-45
2011
Abstract anzeigen
Human HTRA1 is a highly conserved secreted serine protease that degrades numerous extracellular matrix proteins. We have previously identified HTRA1 as being up-regulated in osteoarthritic patients and as having the potential to regulate matrix metalloproteinase (MMP) expression in synovial fibroblasts through the generation of fibronectin fragments. In the present report, we have extended these studies and investigated the role of HTRA1 in the pathogenesis of intervertebral disc (IVD) degeneration. HTRA1 mRNA expression was significantly elevated in degenerated disc tissue and was associated with increased protein levels. However, these increases did not correlate with the appearance of rs11200638 single nucleotide polymorphism in the promoter region of the HTRA1 gene, as has previously been suggested. Recombinant HTRA1 induced MMP production in IVD cell cultures through a mechanism critically dependent on MEK but independent of IL-1β signaling. The use of a catalytically inactive mutant confirmed these effects to be primarily due to HTRA1 serine protease activity. HTRA1-induced fibronectin proteolysis resulted in the generation of various sized fragments, which when added to IVD cells in culture, caused a significant increase in MMP expression. Furthermore, one of these fragments was identified as being the amino-terminal fibrin- and heparin-binding domain and was also found to be increased within HTRA1-treated IVD cell cultures as well as in disc tissue from patients with IVD degeneration. Our results therefore support a scenario in which HTRA1 promotes IVD degeneration through the proteolytic cleavage of fibronectin and subsequent activation of resident disc cells. | 22556410
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HBO1 is required for H3K14 acetylation and normal transcriptional activity during embryonic development. Kueh, AJ; Dixon, MP; Voss, AK; Thomas, T Molecular and cellular biology
31
845-60
2010
Abstract anzeigen
We report here that the MYST histone acetyltransferase HBO1 (histone acetyltransferase bound to ORC; MYST2/KAT7) is essential for postgastrulation mammalian development. Lack of HBO1 led to a more than 90% reduction of histone 3 lysine 14 (H3K14) acetylation, whereas no reduction of acetylation was detected at other histone residues. The decrease in H3K14 acetylation was accompanied by a decrease in expression of the majority of genes studied. However, some genes, in particular genes regulating embryonic patterning, were more severely affected than "housekeeping" genes. Development of HBO1-deficient embryos was arrested at the 10-somite stage. Blood vessels, mesenchyme, and somites were disorganized. In contrast to previous studies that reported cell cycle arrest in HBO1-depleted cultured cells, no defects in DNA replication or cell proliferation were seen in Hbo1 mutant embryo primary fibroblasts or immortalized fibroblasts. Rather, a high rate of cell death and DNA fragmentation was observed in Hbo1 mutant embryos, resulting initially in the degeneration of mesenchymal tissues and ultimately in embryonic lethality. In conclusion, the primary role of HBO1 in development is that of a transcriptional activator, which is indispensable for H3K14 acetylation and for the normal expression of essential genes regulating embryonic development. Volltextartikel | 21149574
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Binding and orientation of fibronectin on surfaces with collagen-related peptides. Student Research Award in the Masters Science Degree Candidate category, 27th annual meeting of the Society for Biomaterials, St. Paul, MN, April 24-29, 2001. U Klueh, S Goralnick, J D Bryers, D L Kreutzer Journal of biomedical materials research
56
307-23
2001
Abstract anzeigen
Although fibronectin (FN) has been used in a variety of in vitro studies to enhance cell and bacteria adhesion, relatively little is known about the molecular interactions of FN with surfaces, particularly the interactions that can control the binding, conformation, and functionality of FN on these surfaces. Even less is known about approaches needed to control binding, orientation, and functionality of FN bound on surfaces. To begin to fill this gap in our knowledge, we hypothesized that functional FN can be bound and specifically oriented on polystyrene surfaces with FN-specific collagen-related peptides (CRPs). We further hypothesized that monoclonal antibodies that react with specific epitopes on FN can be used to quantify both FN binding and orientation on these surfaces. On the basis of these hypotheses, we initiated a systematic investigation of the binding and orientation of FN on polystyrene surfaces with CRPs. To bind FN to surfaces, we used two different CRPs: CRP-I (TLQPVYEYMVGV) and CRP-II (TGLPVGVGYVVTVLT). The binding and orientation of the FN molecule to these immobilized CRPs was quantified with (125)I-FN and monoclonal antibodies. Monoclonal antibodies used for this study were reactive with specific regions of the FN molecule, that is, the amino (N) terminus (anti-N antibodies) and carboxyl (C) terminus (anti-C antibodies). The results of our studies demonstrated that although CRP-I and CRP-II could be bound directly to polystyrene, these directly immobilized CRPs failed to bind (125)I-FN . Thus, to facilitate FN binding to the CRPs, we used bovine serum albumin (BSA) as a spacer to physically elevate the CRPs away from the polystyrene surface. Thus, CRP-I and CRP-II were covalently linked to BSA via the N and C termini of each CRP (CRP-I-BSA and CRP-II-BSA). (125)I-CRP-BSAs were all found to bind to equivalent levels on polystyrene (1.60-2.60 microg/cm2). When CRP-BSAs were immobilized on polystyrene, they all successfully bound (125)I-FN in a range of 34-72 ng/cm2 (mean). Using monoclonal antibodies to FN to characterize the orientation of FN bound to the various CRP-BSAs, we demonstrated that (1) FN consistently bound to either CRP-I-BSA or CRP-II-BSA; (2) bound FN reacted significantly more with anti-C antibodies than with anti-N antibodies; and (3) the increased reactivity of bound FN to anti-C antibodies was consistent, whether FN was bound by CRP-I or CRP-II or the CRPs were bound to BSA by the C or N termini. These data demonstrated an enhanced binding of anti-C antibodies to immobilized CRP-BSA relative to anti-N antibodies. We interpreted the data to be the result of FN binding in an oriented fashion with N termini of FN bound tightly to the BSA-polystyrene surface. In this position, the C termini of FN are exposed and available for binding by the anti-C antibodies. Alternatively, in this orientation the N termini of the FN would not be available to bind the anti-N antibodies, thereby explaining the decreased reactivity of the CRP immobilized FN to the anti-N antibodies. These studies not only demonstrate the utility of peptides in binding and orienting large molecular weight proteins such as FN on surfaces but underscore the need for well-characterized reagents (e.g., monomeric/functional FN and antibodies) to specifically bind, orient, and characterize large molecular weight proteins immobilized on various surfaces. | 11426429
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