Rational and Simulation-Supported Design of Inhalable RNA Nanocarrier

HORIZON.1.1HORIZON-ERCID: 101088587
EC Contribution
€20,000
Consortium Size
1 orgs
Summary

The overarching goal of RatInhalRNA is to computationally predict and develop efficient formulations for pulmonary RNA therapy. New RNA formulations are imperative for clinical RNA delivery beyond the liver. The lung offers undruggable targets which could be treated with RNA therapeutics. However, approved siRNA formulations are not suited for pulmonary delivery due to instability in lung surfactant and during nebulization. Hence, it is my aim to rationally design inhalable and biocompatible polymer-based siRNA formulations for efficient siRNA delivery to the lung. While biomaterials are commonly optimized empirically via one-variable-at-a-time experimentation, I am the first to combine Design-of-Experiments (DoE) with Molecular Dynamics (MD) Simulations and Machine Learning (ML) to accelerate the discovery and optimization process of siRNA nanocarriers towards the metrics of gene silencing efficacy and biocompatibility at reduced wet-lab resources. In RatInhalRNA, I will synthesize amphiphilic polyspermines and will prepare siRNA-loaded nanoparticles by microfluidic assembly for experimental assessment of physico-chemical parameters as well as in vitro and in vivo gene silencing efficacy in coronavirus infection models. I will assess siRNA binding of the polyspermines via MD simulations and will analyze the contribution of the nanoparticle design factors on experimental and computational readout responses of the DoE. I will train a support vector machine for supervised ML and will generate models to identify areas of interest. Based on the predictions, I will test additional formulations to obtain a validation dataset for the assessment the ability of the ML algorithm to identify design properties of efficient siRNA nanoparticles for pulmonary delivery. RatInhalRNA will enable me to predict favorable siRNA nanoparticle characteristics in the future prior to polymer synthesis thereby reducing experimental work and improving sustainability and animal welfare.

Consortium (1)

Project Results (9)

Source: CORDIS, the EU research results database.

Publications (8)
Machine Learning‐Enabled Polymer Discovery for Enhanced Pulmonary siRNA Delivery
Advanced Functional materials· 2025DOI
Felix Sieber-Schäfer, Min Jiang, Adrian Kromer, Anny Nguyen, Müge Molbay, Simone Pinto Carneiro, David Jürgens, Gerald Burgstaller, Bastian Popper, Benjamin Winkeljann, Olivia Monika Merkel
Nebulization of RNA-Loaded Micelle-Embedded Polyplexes as a Potential Treatment of Idiopathic Pulmonary Fibrosis
ACS Applied Materials & Interfaces· 2025DOI
Joschka T. Müller, Adrian P. E. Kromer, Aysan Ezaddoustdar, Ioannis Alexopoulos, Katharina M. Steinegger, Diana Leidy Porras-Gonzalez, Otto Berninghausen, Roland Beckmann, Peter Braubach, Gerald Burgstaller, Malgorzata Wygrecka, Olivia M. Merkel
Closing the Gap between Experiment and Simulation─A Holistic Study on the Complexation of Small Interfering RNAs with Polyethylenimine
Molecular Pharmaceutics· 2024DOI
Jonas Binder, Joshua Winkeljann, Katharina Steinegger, Lara Trnovec, Daria Orekhova, Jonas Zähringer, Andreas Hörner, Valentin Fell, Philip Tinnefeld, Benjamin Winkeljann, Wolfgang Frieß, Olivia M. Merkel
Design of Experiments Grants Mechanistic Insights into the Synthesis of Spermine-Containing PBAE Copolymers
ACS Applied Materials & Interfaces· 2024DOI
Adrian P. E. Kromer; Felix Sieber-Schäfer; Johan Farfan Benito; Olivia M. Merkel
Endosomal escape mechanisms of extracellular vesicle-based drug carriers: lessons for lipid nanoparticle design
Extracellular Vesicles and Circulating Nucleic Acids· 2024DOI
Lasse Hagedorn; David C. Jürgens; Olivia M. Merkel; Benjamin Winkeljann
Molecular Dynamics Simulations Elucidate the Molecular Organization of Poly(beta-amino ester) Based Polyplexes for siRNA Delivery
Nano Letters· 2024DOI
Katharina M. Steinegger; Lars Allmendinger; Sebastian Sturm; Felix Sieber-Schäfer; Adrian P. E. Kromer; Knut Müller-Caspary; Benjamin Winkeljann; Olivia M. Merkel
Role of Hydrophobic Modification in Spermine-Based Poly(β-amino ester)s for siRNA Delivery and Their Spray-Dried Powders for Inhalation and Improved Storage
Biomacromolecules· 2024DOI
Yao Jin; Xiaoxuan Wang; Adrian P.E. Kromer; Joschka T. Müller; Christoph Zimmermann; Zehua Xu; Achim Hartschuh; Friederike Adams; Olivia M. Merkel
Synthesis and application of spermine-based amphiphilic poly(β-amino ester)s for siRNA delivery
Nanoscale Advances· 2023DOI
Yao Jin, Friederike Adams, Anny Nguyen, Sebastian Sturm, Simone Carnerio, Knut Müller-Caspary, Olivia M. Merkel
Other Results (1)
Periodic Reporting for period 1 - RatInhalRNA (Rational and Simulation-Supported Design of Inhalable RNA Nanocarrier)