Dinesh C. Bhunia scite author profile

The blood disorder, β-thalassaemia, is considered an attractive target for gene correction. Site-specific triplex formation has been shown to induce DNA repair and thereby catalyse genome editing. Here we report that triplex-forming peptide nucleic acids (PNAs) substituted at the γ position plus stimulation of the stem cell factor (SCF)/c-Kit pathway yielded high levels of gene editing in haematopoietic stem cells (HSCs) in a mouse model of human β-thalassaemia. Injection of thalassemic mice with SCF plus nanoparticles containing γPNAs and donor DNAs ameliorated the disease phenotype, with sustained elevation of blood haemoglobin levels into the normal range, reduced reticulocytosis, reversal of splenomegaly and up to 7% β-globin gene correction in HSCs, with extremely low off-target effects. The combination of nanoparticle delivery, next generation γPNAs and SCF treatment may offer a minimally invasive treatment for genetic disorders of the blood that can be achieved safely and simply by intravenous administration.

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Single-Stranded γPNAs for In Vivo Site-Specific Genome Editing via Watson-Crick Recognition

Bahal¹,

Quijano²,

McNeer³

et al. 2014

CGT

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Triplex-forming peptide nucleic acids (PNAs) facilitate gene editing by stimulating recombination of donor DNAs within genomic DNA via site-specific formation of altered helical structures that further stimulate DNA repair. However, PNAs designed for triplex formation are sequence restricted to homopurine sites. Herein we describe a novel strategy where next generation single-stranded gamma PNAs (γPNAs) containing miniPEG substitutions at the gamma position can target genomic DNA in mouse bone marrow at mixed-sequence sites to induce targeted gene editing. In addition to enhanced binding, γPNAs confer increased solubility and improved formulation into poly(lactic-co-glycolic acid) (PLGA) nanoparticles for efficient intracellular delivery. Single-stranded γPNAs induce targeted gene editing at frequencies of 0.8% in mouse bone marrow cells treated ex vivo and 0.1% in vivo via IV injection, without detectable toxicity. These results suggest that γPNAs may provide a new tool for induced gene editing based on Watson-Crick recognition without sequence restriction.

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Niobium(V) pentachloride: an efficient catalyst for C-, N-, O-, and S-nucleophilic substitution reactions of benzylic alcohols

Yadav

Bhunia

Krishna

et al. 2007

Tetrahedron Letters

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Iodine-catalyzed C- and O-nucleophilic substitution reactions of aryl-propargyl methanols

Srihari

Bhunia

Sreedhar

et al. 2007

Tetrahedron Letters

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One-pot three-component coupling reaction: solvent-free synthesis of novel 3-substituted indoles catalyzed by PMA–SiO2

Srihari

Singh

Bhunia

et al. 2009

Tetrahedron Letters

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Dinesh C. Bhunia

In vivo correction of anaemia in β-thalassemic mice by γPNA-mediated gene editing with nanoparticle delivery

Single-Stranded γPNAs for In Vivo Site-Specific Genome Editing via Watson-Crick Recognition

Niobium(V) pentachloride: an efficient catalyst for C-, N-, O-, and S-nucleophilic substitution reactions of benzylic alcohols

Iodine-catalyzed C- and O-nucleophilic substitution reactions of aryl-propargyl methanols

One-pot three-component coupling reaction: solvent-free synthesis of novel 3-substituted indoles catalyzed by PMA–SiO2

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Dinesh C. Bhunia

In vivo correction of anaemia in β-thalassemic mice by γPNA-mediated gene editing with nanoparticle delivery

Single-Stranded &#947;PNAs for In Vivo Site-Specific Genome Editing via Watson-Crick Recognition

Niobium(V) pentachloride: an efficient catalyst for C-, N-, O-, and S-nucleophilic substitution reactions of benzylic alcohols

Iodine-catalyzed C- and O-nucleophilic substitution reactions of aryl-propargyl methanols

One-pot three-component coupling reaction: solvent-free synthesis of novel 3-substituted indoles catalyzed by PMA–SiO2

Contact Info

Product

Resources

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Single-Stranded γPNAs for In Vivo Site-Specific Genome Editing via Watson-Crick Recognition