Epigenetic editing holds the promise of durable therapeutic effects by silencing disease-causing genes without changing the underlying DNA sequence. In this study, we designed an epigenetic editor to target human PCSK9 and thereby induce DNA methylation at this locus. A single administration of lipid nanoparticles encapsulating mRNA encoding this epigenetic editor was sufficient to drive near-complete silencing of human PCSK9 in transgenic mice. Silencing was durable for at least 1 year and was fully maintained after partial hepatectomy–induced liver regeneration. In addition, we showed reversibility of epigenetic editing in mice with previously silenced PCSK9 upon treatment with a targeted epigenetic activator designed to demethylate the PCSK9 locus. Notably, in cynomolgus monkeys, a single administration of the epigenetic editor potently and durably decreased circulating PCSK9 protein levels by approximately 90% with concomitant reduction in low-density lipoprotein cholesterol levels by approximately 70%. These findings demonstrate the therapeutic potential of durable and reversible epigenetic editing in vivo and support the development of epigenetic editor–based treatment for hypercholesterolemia.
A potent epigenetic editor targeting human PCSK9 for durable reduction of low-density lipoprotein cholesterol levels / Tremblay, F., Xiong, Q., Shah, S.S., Ko, C., Kelly, K., Morrison, M.S., Giancarlo, C., Ramirez, R.N., Hildebrand, E.M., Voytek, S.B., El Sebae, G.K., Wright, S.H., Lofgren, L., Clarkson, S., Waters, C., Linder, S.J., Liu, S., Eom, T., Parikh, S., Weber, Y., et al.. - In: NATURE MEDICINE. - ISSN 1546-170X. - 31:4(2025), pp. 1329-1338. [10.1038/s41591-025-03508-x]
A potent epigenetic editor targeting human PCSK9 for durable reduction of low-density lipoprotein cholesterol levels
Lombardo, Angelo;
2025-01-01
Abstract
Epigenetic editing holds the promise of durable therapeutic effects by silencing disease-causing genes without changing the underlying DNA sequence. In this study, we designed an epigenetic editor to target human PCSK9 and thereby induce DNA methylation at this locus. A single administration of lipid nanoparticles encapsulating mRNA encoding this epigenetic editor was sufficient to drive near-complete silencing of human PCSK9 in transgenic mice. Silencing was durable for at least 1 year and was fully maintained after partial hepatectomy–induced liver regeneration. In addition, we showed reversibility of epigenetic editing in mice with previously silenced PCSK9 upon treatment with a targeted epigenetic activator designed to demethylate the PCSK9 locus. Notably, in cynomolgus monkeys, a single administration of the epigenetic editor potently and durably decreased circulating PCSK9 protein levels by approximately 90% with concomitant reduction in low-density lipoprotein cholesterol levels by approximately 70%. These findings demonstrate the therapeutic potential of durable and reversible epigenetic editing in vivo and support the development of epigenetic editor–based treatment for hypercholesterolemia.| File | Dimensione | Formato | |
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