Damian J. Lee scite author profile

To probe the role of human plasma fibronectin in modulating human blood-derived macrophage adhesion and fusion to form multinucleated foreign-body giant cells (FBGC), a series of biomimetic oligopeptides based on the functional structure of fibronectin was designed and synthesized. Peptides incorporated the RGD and PHSRN integrin-binding sequences from FIII-10 and FIII-9 modules, respectively, and the PRRARV sequence from the C-terminal heparin-binding domain, either alone or in combination. Peptides were immobilized onto a polyethyleneglycol-based polymer substrate. The following conclusions were reached. Fibronectin modulated macrophage adhesion and the extent (i.e., size) of FBGC formation on control surfaces in the presence of serum proteins. Macrophages adhered to all substrates with relatively subtle differences between adhesion mediated by RGD, PHSRN, PRRARV, or combinations thereof. beta1-integrin subunit was essential in macrophage adhesion to peptide-grafted networks in a receptor-peptide specific manner, whereas beta3-integrin subunit was less important. Macrophage adhesion to PRRARV was mediated primarily by the direct interaction with integrins. RGD or PHSRN alone did not provide an adequate substrate for macrophage fusion to form FBGCs. However, the PHSRN synergistic site and the RGD site in a single oligopeptide provided a substrate for FBGC formation that was statistically comparable to that on the positive control material in the presence of serum proteins. This response was highly dependent upon the relative orientation between RGD and PHSRN. PRRARV did not support FBGC formation. These results demonstrate the importance of fibronectin and, specifically, the synergy between RGD and PHSRN domains, in supporting macrophage fusion to form FBGCs.

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Using an Er,Cr:YSGG laser to remove lithium disilicate restorations: A pilot study

Gurney

Sharples

Phillips

et al. 2016

The Journal of Prosthetic Dentistry

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Molecular analyses of mtDNA deletion mutations in microdissected skeletal muscle fibers from aged rhesus monkeys

et al. 2004

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SummaryMitochondrial DNA (mtDNA) deletion mutations colocalize with electron transport system (ETS) abnormalities in rhesus monkey skeletal muscle fibers. Using laser capture microdissection in conjunction with PCR and DNA sequence analysis, mitochondrial genomes from single sections of ETS abnormal fibers were characterized. All ETS abnormal fibers contained mtDNA deletion mutations. Deletions were large, removing 20-78% of the genome, with some to nearly all of the functional genes lost. In one-third of the deleted genomes, the light strand origin was deleted, whereas the heavy strand origin of replication was conserved in all fibers. A majority (27/39) of the deletion mutations had direct repeat sequences at their breakpoints and most (36/39) had one breakpoint within or in close proximity to the cytochrome b gene. Several pieces of evidence support the clonality of the mtDNA deletion mutation within an ETS abnormal region of a fiber: (a) only single, smaller than wild-type, PCR products were obtained from each ETS abnormal region; (b) the amplification of mtDNA from two regions of the same ETS abnormal fiber identified identical deletion mutations, and (c) a polymorphism was observed at nucleotide position 16103 (A and G) in the wild-type mtDNA of one animal (sequence analysis of an ETS abnormal region revealed that mtDNA deletion mutations contained only A or G at this position). Species-specific differences in the regions of the genomes lost as well as the presence of direct repeat sequences at the breakpoints suggest mechanistic differences in deletion mutation formation between rodents and primates.

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In vivo modulation of host response and macrophage behavior by polymer networks grafted with fibronectin-derived biomimetic oligopeptides: the role of RGD and PHSRN domains

Kao

Lee

2001

Biomaterials

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Management of Edentulous Patients

Lee

Saponaro

2019

Dental Clinics of North America

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Damian J. Lee

Fibronectin modulates macrophage adhesion and FBGC formation: The role of RGD, PHSRN, and PRRARV domains

Using an Er,Cr:YSGG laser to remove lithium disilicate restorations: A pilot study

Molecular analyses of mtDNA deletion mutations in microdissected skeletal muscle fibers from aged rhesus monkeys

In vivo modulation of host response and macrophage behavior by polymer networks grafted with fibronectin-derived biomimetic oligopeptides: the role of RGD and PHSRN domains

Management of Edentulous Patients

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