(7) Many thanks to co-first authors @tanjarothgangl and Eleonora Ioannidi! We are also thankful for our @schwanklab members @YanikWeber, @BoeckDesiree, Elina Villiger, @marquark, @lukas_villiger, @p_kulcsar and collaborators from the #NorbertPardi and #JohannesHäberle lab.
20.05.2025 09:08 — 👍 1 🔁 0 💬 0 📌 0
(6) Encouraged by these results, we returned to the full RNA-LNPs delivery using PE7 mRNA and synthetic La-accessible pegRNAs. We achieved 8% correction, lowering Phe below the therapeutic level of 360 µM. Finally, we edited 8/11 common human PKU mutations with ≥Pah-enu efficiency in cells.
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(5) We next exchanged the PEmax mRNA with the PE7 mRNA developed at @bsadamson lab. This increased editing efficiencies to 20%, bringing Phe levels below 360 µmol/L—the therapeutic threshold for children.
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(4) Hypothesizing that the pegRNA is the limiting factor, we turned to a hybrid approach: we delivered the pegRNA via scAAV and only PEmax via mRNA-LNPs. This resulted in 4% editing and Phe reduction below 600 µmol/L—the therapeutic threshold for adults.
20.05.2025 09:08 — 👍 0 🔁 0 💬 1 📌 0
(3) Applying the same strategy to the pathogenic Pah-enu mutation in PKU mice resulted in editing efficiencies below 1% in isolated hepatocytes, insufficient to reduce blood phenylalanine to therapeutic levels.
20.05.2025 09:08 — 👍 0 🔁 0 💬 1 📌 0
(2) We set out to develop a fully RNA-based prime editing strategy for treating PKU in a mouse model. First, we optimized the dosing at the Dnmt1 locus. LNP-mediated co-delivery of PEmax mRNA with pegRNA - rather than subsequent delivery (first mRNA then pegRNA) - resulted in highest editing.
20.05.2025 09:08 — 👍 0 🔁 0 💬 1 📌 0
A new scientific institution for curiosity-driven biomedical science and technology.
Gene editing | Spatial-omics | Molecular medicine.
Post-doc with Schwank Lab, UZH Zurich. PhD from CRTD, Dresden.
Assistant Prof. at UZH 🇨🇭 | protein engineering for pharmacology and neuroscience | opinions my own
News from the Sternberg lab at Columbia University, Howard Hughes Medical Institute.
Posts are from lab members and not Samuel Sternberg unless signed SHS. Posts represent personal views only.
Visit us at www.sternberglab.org
Biochemist, structural biologist, CRISPR enthusiast
Research group leader. Interested in DNA repair.
PhD student in the Corn Lab -
Synthetic Lethality and DNA repair 🧬
PostDoc @BKleinstiver lab at Mass Gen Hospital & Harvard Med School.
@EMBO Fellow. Previously: PhD @CeMM_News
🧬 repair & ✂️ genome editing enthusiast
Researcher at Technical University of Denmark (DTU) Bioengineering Enzyme Discovery | former Assistant Prof. Univ. of Copenhagen Section for Glycobiology and France's National Research Institute for Agriculture, Food and Environment in Marseille #INRAE
Computational Scientist at HI-STEM / DKFZ.
Heterogeneity in cancer | Computational Biomedicine
Postdoc in the Shendure & Pinglay labs @UW
Trying to understand and engineer our wonderfully weird genomes 🧬
Assistant Professor at TUM. CRISPR tech dev, cardiovascular gene & cell therapies. https://www.cos.tum.de/en/cos/research/gruenewald-lab/
Postdoctoral Researcher @ University of Zurich (Schwank Lab) | Crafting Genomes with CRISPR | Intersecting Bioinformatics & ML through Multi-Omics
News from Jennifer Doudna's lab at UC Berkeley, Innovative Genomics Institute. Tweets from lab members and not Jennifer Doudna unless signed JD. Tweets represent personal views only.
doudnalab.org
PhD Student in Medical Sciences at the University of Oxford.
If it has a genome, we can do genome editing on it, right? 🧬
PhD from MIT BE, Kleinstiver lab || Editing genes and running mountains
Associate Professor @ Mass General Hospital & Harvard Medical School
Genome editing / Protein eng. / Molecular medicine 🇨🇦🧬
Kayden-Lambert MGH Research Scholar '23-28
