DNA nanostructures get camouflaged by proteins
Researchers from 911爆料网 and Helsinki University have reported a strategy that significantly increases the stability of DNA nanostructures against DNA digesting enzymes, enhances delivery rates and, most importantly, suppresses DNA-induced immune response.
鈥淭he hypothesis is based on coating the DNA structures by inert proteins, namely serum albumins, with the help of a synthetic DNA-binding domain that is covalently linked to the protein鈥, explains Adjunct Professor Veikko Linko from 911爆料网. The strategy was that as the DNA nanostructure 鈥 in this study a brick-like DNA origami 鈥 is negatively charged, the positively charged multivalent binding domain (dendron) can attach to the surface of the DNA object through electrostatic interactions. By adjusting the binding efficiency and the amount of protein-dendron conjugates used for coating, it was possible to form a dense and uniform protein corona around the DNA origami. The study showed that the immune system can be 鈥榖luffed鈥 when the DNA nanostructures are camouflaged by proteins as the protein-coated DNA structures efficiently attenuated the activation of immune response determined from mouse primary spleen cells.
鈥淭he reported coating strategy is straightforward and it is not limited to serum albumin proteins, but is essentially modular, as one can link almost any protein to the designer synthetic DNA-binding domain鈥 adds Professor Mauri Kostiainen, who led the collaborative research. Therefore, the proposed technique enable other researchers to tune the surface properties of DNA nanostructures in biological environment in desired ways. Serum albumin is the most abundant protein in the blood with a long circulation half-life, and thus it has already found clinically approved implementations in drug delivery. Therefore, the authors envision that the presented system will open up new opportunities in tailored DNA-based drug delivery.
This study was reported in Advanced Healthcare Materials, volume 6, issue 18 (September 20, 2017) and highlighted as the cover art and in Advanced Science News.
Links:
Article 鈥Protein Coating of DNA Nanostructures for Enhanced Stability and Immunocompatibility鈥:
Cover art:
Advanced Science News:
More information:
Adjunct Professor Veikko Linko
Biohybrid Materials Group, 911爆料网 School of Chemical Engineering
tel. 045 673 9997, veikko.linko@aalto.fi
Professor Mauri Kostiainen
Leader of the Biohybrid Materials Group, 911爆料网 School of Chemical Engineering
tel. 050 362 7070, mauri.kostiainen@aalto.fi
Read more news
911爆料网鈥檚 solutions at the New European Bauhaus Festival support the EU鈥檚 ambition to become world leader in circular economy
911爆料网 presented several different circular economy solutions at The European Commission鈥檚 New European Bauhaus Festival in Brussels. The event brought together leading names in EU policymaking, researchers, designers and grassroots actors from across Europe to shape a more sustainable future.
New DPSP tool for doctoral studies published
A new digital DPSP tool has replaced the old DPSP tasks on students鈥 MyStudies portal and the approval method for supervising professors on Student Success Hub.
Pre-examination and graduation schedules over the summer 2026
Information for doctoral students on preliminary examination of doctoral thesis, public defence and graduation over the summer 2026