Nina B. Hentzen scite author profile

Covalent cross-links are crucial for the folding and stability of triple-helical collagen, the most abundant protein in nature. Cross-linking is also an attractive strategy for the development of synthetic collagen-based biocompatible materials. Nature uses interchain disulfide bridges to stabilize collagen trimers. However, their implementation into synthetic collagen is difficult and requires the replacement of the canonical amino acids (4R)-hydroxyproline and proline by cysteine or homocysteine, which reduces the preorganization and thereby stability of collagen triple helices. We therefore explored alternative covalent cross-links that allow for connecting triple-helical collagen via proline residues. Here, we present collagen model peptides that are cross-linked by oxime bonds between 4-aminooxyproline (Aop) and 4-oxoacetamidoproline placed in coplanar Xaa and Yaa positions of neighboring strands. The covalently connected strands folded into hyperstable collagen triple helices (T ≈ 80 °C). The design of the cross-links was guided by an analysis of the conformational properties of Aop, studies on the stability and functionalization of Aop-containing collagen triple helices, and molecular dynamics simulations. The studies also show that the aminooxy group exerts a stereoelectronic effect comparable to fluorine and introduce oxime ligation as a tool for the functionalization of synthetic collagen.

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Imaging and targeting LOX-mediated tissue remodeling with a reactive collagen peptide

Aronoff

Hiebert

Hentzen

et al. 2021

Nat Chem Biol

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A Lateral Salt Bridge for the Specific Assembly of an ABC-Type Collagen Heterotrimer

et al. 2020

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Nature uses salt bridges to control the folding and stability of many proteins, including collagen, the key structural protein in mammals. Here, we present an interstrand salt bridge between (4S)-aminoproline (Amp) and aspartic acid (Asp) that directs the composition and register-specific assembly of synthetic collagen heterotrimers. This Amp-Asp salt bridge allowed for the rational design of strands that fold into A 2 B and ABC-type heterotrimers with only three salt bridges per triple helix. Native ESI-MS and NMR spectroscopic analyses corroborated the specific assembly of the ABC heterotrimer.

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Temperature-controlled electrospray ionization mass spectrometry as a tool to study collagen homo- and heterotrimers

et al. 2019

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ortho-Methoxyphenols as Convenient Oxidative Bioconjugation Reagents with Application to Site-Selective Heterobifunctional Cross-Linkers

et al. 2017

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The synthesis of complex protein-based bioconjugates has been facilitated greatly by recent developments in chemoselective methods for biomolecular modification. The oxidative coupling of o-aminophenols or catechols with aniline functional groups is chemoselective, mild, and rapid; however, the oxidatively sensitive nature of the electron-rich aromatics and the paucity of commercial sources pose some obstacles to the general use of these reactive strategies. Herein, we identify o-methoxyphenols as air-stable, commercially available derivatives that undergo efficient oxidative couplings with anilines in the presence of periodate as oxidant. Mechanistic considerations informed the development of a preoxidation protocol that can greatly reduce the amount of periodate necessary for effective coupling. The stability and versatility of these reagents was demonstrated through the synthesis of complex protein-protein bioconjugates using a site-selective heterobifunctional cross-linker comprising both o-methoxyphenol and 2-pyridinecarboxaldehyde moieties. This compound was used to link epidermal growth factor to genome-free MS2 viral capsids, affording nanoscale delivery vectors that can target a variety of cancer cell types.

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Nina B. Hentzen

Cross-Linked Collagen Triple Helices by Oxime Ligation

Imaging and targeting LOX-mediated tissue remodeling with a reactive collagen peptide

A Lateral Salt Bridge for the Specific Assembly of an ABC-Type Collagen Heterotrimer

Temperature-controlled electrospray ionization mass spectrometry as a tool to study collagen homo- and heterotrimers

ortho-Methoxyphenols as Convenient Oxidative Bioconjugation Reagents with Application to Site-Selective Heterobifunctional Cross-Linkers

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