TY - JOUR
T1 - Design of multifunctional gold nanoparticles for in vitro and in vivo gene silencing
AU - Conde, João
AU - Ambrosone, Alfredo
AU - Sanz, Vanesa
AU - Hernandez, Yulan
AU - Marchesano, Valentina
AU - Tian, Furong
AU - Child, Hannah
AU - Berry, Catherine C.
AU - Ibarra, M. Ricardo
AU - Baptista, Pedro V.
AU - Tortiglione, Claudia
AU - De La Fuente, Jesus M.
PY - 2012/9/25
Y1 - 2012/9/25
N2 - Over the past decade, the capability of double-stranded RNAs to interfere with gene expression has driven new therapeutic approaches. Since small interfering RNA (siRNAs, 21 base pair double-stranded RNA) was shown to be able to elicit RNA interference (RNAi), efforts were directed toward the development of efficient delivery systems to preserve siRNA bioactivity throughout the delivery route, from the administration site to the target cell. Here we provide evidence of RNAi triggering, specifically silencing c-myc protooncogene, via the synthesis of a library of novel multifunctional gold nanoparticles (AuNPs). The efficiency of the AuNPs is demonstrated using a hierarchical approach including three biological systems of increasing complexity: in vitro cultured human cells, in vivo invertebrate (freshwater polyp, Hydra), and in vivo vertebrate (mouse) models. Our synthetic methodology involved fine-tuning of multiple structural and functional moieties. Selection of the most active functionalities was assisted step-by-step through functional testing that adopted this hierarchical strategy. Merging these chemical and biological approaches led to a safe, nonpathogenic, self-tracking, and universally valid nanocarrier that could be exploited for therapeutic RNAi.
AB - Over the past decade, the capability of double-stranded RNAs to interfere with gene expression has driven new therapeutic approaches. Since small interfering RNA (siRNAs, 21 base pair double-stranded RNA) was shown to be able to elicit RNA interference (RNAi), efforts were directed toward the development of efficient delivery systems to preserve siRNA bioactivity throughout the delivery route, from the administration site to the target cell. Here we provide evidence of RNAi triggering, specifically silencing c-myc protooncogene, via the synthesis of a library of novel multifunctional gold nanoparticles (AuNPs). The efficiency of the AuNPs is demonstrated using a hierarchical approach including three biological systems of increasing complexity: in vitro cultured human cells, in vivo invertebrate (freshwater polyp, Hydra), and in vivo vertebrate (mouse) models. Our synthetic methodology involved fine-tuning of multiple structural and functional moieties. Selection of the most active functionalities was assisted step-by-step through functional testing that adopted this hierarchical strategy. Merging these chemical and biological approaches led to a safe, nonpathogenic, self-tracking, and universally valid nanocarrier that could be exploited for therapeutic RNAi.
KW - RNA interference
KW - animal models
KW - biofunctionalization
KW - c-myc
KW - cancer
KW - gold nanoparticles
UR - http://www.scopus.com/inward/record.url?scp=84866703563&partnerID=8YFLogxK
U2 - 10.1021/nn3030223
DO - 10.1021/nn3030223
M3 - Article
C2 - 22882598
AN - SCOPUS:84866703563
SN - 1936-0851
VL - 6
SP - 8316
EP - 8324
JO - ACS Nano
JF - ACS Nano
IS - 9
ER -