# Delivery of CRISPR Ribonucleoproteins to Airway Epithelia Using Novel Amphiphilic Peptides

> **NIH NIH UH3** · UNIVERSITY OF IOWA · 2021 · $917,358

## Abstract

Project Summary/Abstract
Recent advances make the possibility of gene editing for lung diseases such as cystic fibrosis (CF) a promising
therapeutic approach. Several designer nucleases can now be engineered to introduce site-specific double
strand breaks in DNA, allowing therapeutic modifications at specific genomic loci. A major barrier to progress is
the lack of efficient methods to deliver gene editing reagents to airway epithelia in vivo. We will use novel
amphiphilic peptides to deliver CRISPR nuclease proteins and guide RNAs (termed ribonucleoproteins, RNPs).
The overall goal of this proposal is to advance gene editing as a therapeutic approach for diseases of the
respiratory tract that impact the function of airway epithelial cells using a novel peptide-based delivery
technology. Our preliminary studies show that these peptides can rapidly and efficiently deliver RNPs. We
therefore hypothesize that therapeutically relevant levels of gene editing can be achieved in airway epithelia.
In Phase 1 we use RNPs and amphipathic peptide delivery to perform gene editing in cultured human airway
epithelial cells and the airways of transgenic mice. Our aims include: 1) Completing an in vitro to screen to
discover new amphiphilic peptides with improved RNP delivery efficiency. 2) Quantifying the genome editing
efficiency in cultured human airway epithelia and mouse airways following amphiphilic peptide mediated
delivery of RNPs. This includes the cell types transduced and the efficiency of editing. We will also assess
editing and persistence of progenitor cells types. 3) Investigate the safety and toxicity of amphiphilic peptides in
human airway epithelia and mouse airways, including biodistribution, immune response, and pulmonary
histopathology. Phase 2 will use RNPs and peptide delivery to perform gene editing in airways of newborn
transgenic pigs. These studies build on our extensive experience working with a CF pig model. The aims
include: 1) Design and implement peptide and protein scale up and for peptide-mediated delivery of RNPs to
pig airways. 2) Quantify the cell targeting and editing efficiency of RNPs following in vivo RNP delivery using
amphiphilic peptides. We will identify the long lived and progenitor cell types transduced in the large and small
airways and investigate their persistence over time. 3) Investigate the safety and toxicity of candidate peptides
and RNPs in the pig lung. This includes studies of pulmonary inflammation, immune response, and
biodistribution. The proposed work is innovative because it advances a peptide based strategy to efficiently
deliver RNPs. Completion of the proposed studies will provide insights into the utility and safety of this versatile
peptide based RNP delivery strategy to modify airway epithelial cells in vivo.

## Key facts

- **NIH application ID:** 10274831
- **Project number:** 4UH3HL147366-04
- **Recipient organization:** UNIVERSITY OF IOWA
- **Principal Investigator:** PAUL B MCCRAY
- **Activity code:** UH3 (R01, R21, SBIR, etc.)
- **Funding institute:** NIH
- **Fiscal year:** 2021
- **Award amount:** $917,358
- **Award type:** 4N
- **Project period:** 2018-09-07 → 2023-08-31

## Primary source

NIH RePORTER: https://reporter.nih.gov/project-details/10274831

## Citation

> US National Institutes of Health, RePORTER application 10274831, Delivery of CRISPR Ribonucleoproteins to Airway Epithelia Using Novel Amphiphilic Peptides (4UH3HL147366-04). Retrieved via AI Analytics 2026-05-22 from https://api.ai-analytics.org/grant/nih/10274831. Licensed CC0.

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