Literature DB >> 29489381

A Direct Comparison of in Vitro and in Vivo Nucleic Acid Delivery Mediated by Hundreds of Nanoparticles Reveals a Weak Correlation.

Kalina Paunovska1, Cory D Sago1, Christopher M Monaco1,2, William H Hudson3, Marielena Gamboa Castro1, Tobi G Rudoltz1, Sujay Kalathoor1, Daryll A Vanover1, Philip J Santangelo1, Rafi Ahmed3, Anton V Bryksin4, James E Dahlman1.   

Abstract

Endothelial cells and macrophages play active roles in disease and as a result are important targets for nucleic acid therapies. While thousands of chemically distinct lipid nanoparticles (LNPs) can be synthesized to deliver nucleic acids, studying more than a few LNPs in vivo is challenging. As a result, it is difficult to understand how nanoparticles target these cells in vivo. Using high throughput LNP barcoding, we quantified how well LNPs delivered DNA barcodes to endothelial cells and macrophages in vitro, as well as endothelial cells and macrophages isolated from the lung, heart, and bone marrow in vivo. We focused on two fundamental questions in drug delivery. First, does in vitro LNP delivery predict in vivo LNP delivery? By comparing how 281 LNPs delivered barcodes to endothelial cells and macrophages in vitro and in vivo, we found in vitro delivery did not predict in vivo delivery. Second, does LNP delivery change within the microenvironment of a tissue? We quantified how 85 LNPs delivered barcodes to eight splenic cell populations, and found that cell types derived from myeloid progenitors tended to be targeted by similar LNPs, relative to cell types derived from lymphoid progenitors. These data demonstrate that barcoded LNPs can elucidate fundamental questions about in vivo nanoparticle delivery.

Entities:  

Keywords:  DNA barcoded nanoparticles; drug delivery; gene editing; nanotechnology; siRNA

Mesh:

Substances:

Year:  2018        PMID: 29489381      PMCID: PMC6054134          DOI: 10.1021/acs.nanolett.8b00432

Source DB:  PubMed          Journal:  Nano Lett        ISSN: 1530-6984            Impact factor:   11.189


  42 in total

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10.  Small RNA combination therapy for lung cancer.

Authors:  Wen Xue; James E Dahlman; Tuomas Tammela; Omar F Khan; Sabina Sood; Apeksha Dave; Wenxin Cai; Leilani M Chirino; Gillian R Yang; Roderick Bronson; Denise G Crowley; Gaurav Sahay; Avi Schroeder; Robert Langer; Daniel G Anderson; Tyler Jacks
Journal:  Proc Natl Acad Sci U S A       Date:  2014-08-11       Impact factor: 11.205
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  32 in total

1.  Nanoparticles That Deliver RNA to Bone Marrow Identified by in Vivo Directed Evolution.

Authors:  Cory D Sago; Melissa P Lokugamage; Fatima Z Islam; Brandon R Krupczak; Manaka Sato; James E Dahlman
Journal:  J Am Chem Soc       Date:  2018-11-16       Impact factor: 15.419

2.  Modifying a Commonly Expressed Endocytic Receptor Retargets Nanoparticles in Vivo.

Authors:  Cory D Sago; Melissa P Lokugamage; Gwyneth N Lando; Naima Djeddar; Nirav N Shah; Chris Syed; Anton V Bryksin; James E Dahlman
Journal:  Nano Lett       Date:  2018-09-20       Impact factor: 11.189

Review 3.  Focus on Fundamentals: Achieving Effective Nanoparticle Targeting.

Authors:  Gregory T Tietjen; Laura G Bracaglia; W Mark Saltzman; Jordan S Pober
Journal:  Trends Mol Med       Date:  2018-06-05       Impact factor: 11.951

Review 4.  Using Large Datasets to Understand Nanotechnology.

Authors:  Kalina Paunovska; David Loughrey; Cory D Sago; Robert Langer; James E Dahlman
Journal:  Adv Mater       Date:  2019-08-20       Impact factor: 30.849

5.  Widespread gene transfer to malignant gliomas with In vitro-to-In vivo correlation.

Authors:  Karina Negron; Namir Khalasawi; Billy Lu; Chi-Ying Ho; Jason Lee; Siddharth Shenoy; Hai-Quan Mao; Tza-Huei Wang; Justin Hanes; Jung Soo Suk
Journal:  J Control Release       Date:  2019-04-09       Impact factor: 9.776

Review 6.  Live-Animal Epigenome Editing: Convergence of Novel Techniques.

Authors:  J Antonio Gomez; Ulrika Beitnere; David J Segal
Journal:  Trends Genet       Date:  2019-05-22       Impact factor: 11.639

7.  Treating Cystic Fibrosis with mRNA and CRISPR.

Authors:  Alejandro Da Silva Sanchez; Kalina Paunovska; Ana Cristian; James E Dahlman
Journal:  Hum Gene Ther       Date:  2020-09-08       Impact factor: 5.695

8.  Lipid-Modified Aminoglycosides for mRNA Delivery to the Liver.

Authors:  Xueliang Yu; Shuai Liu; Qiang Cheng; Tuo Wei; Sang Lee; Di Zhang; Daniel J Siegwart
Journal:  Adv Healthc Mater       Date:  2020-02-28       Impact factor: 9.933

9.  Mild Innate Immune Activation Overrides Efficient Nanoparticle-Mediated RNA Delivery.

Authors:  Melissa P Lokugamage; Zubao Gan; Chiara Zurla; Joel Levin; Fatima Z Islam; Sujay Kalathoor; Manaka Sato; Cory D Sago; Philip J Santangelo; James E Dahlman
Journal:  Adv Mater       Date:  2019-11-19       Impact factor: 30.849

10.  Lipid Nanoparticle-Delivered Chemically Modified mRNA Restores Chloride Secretion in Cystic Fibrosis.

Authors:  Ema Robinson; Kelvin D MacDonald; Kai Slaughter; Madison McKinney; Siddharth Patel; Conroy Sun; Gaurav Sahay
Journal:  Mol Ther       Date:  2018-06-15       Impact factor: 11.454
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