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1.
Nucleic Acids Res ; 51(9): 4126-4147, 2023 05 22.
Artículo en Inglés | MEDLINE | ID: mdl-37070173

RESUMEN

Herein, we report the systematic investigation of stereopure phosphorothioate (PS) and phosphoryl guanidine (PN) linkages on siRNA-mediated silencing. The incorporation of appropriately positioned and configured stereopure PS and PN linkages to N-acetylgalactosamine (GalNAc)-conjugated siRNAs based on multiple targets (Ttr and HSD17B13) increased potency and durability of mRNA silencing in mouse hepatocytes in vivo compared with reference molecules based on clinically proven formats. The observation that the same modification pattern had beneficial effects on unrelated transcripts suggests that it may be generalizable. The effect of stereopure PN modification on silencing is modulated by 2'-ribose modifications in the vicinity, particularly on the nucleoside 3' to the linkage. These benefits corresponded with both an increase in thermal instability at the 5'-end of the antisense strand and improved Argonaute 2 (Ago2) loading. Application of one of our most effective designs to generate a GalNAc-siRNA targeting human HSD17B13 led to ∼80% silencing that persisted for at least 14 weeks after administration of a single 3 mg/kg subcutaneous dose in transgenic mice. The judicious use of stereopure PN linkages improved the silencing profile of GalNAc-siRNAs without disrupting endogenous RNA interference pathways and without elevating serum biomarkers for liver dysfunction, suggesting they may be suitable for therapeutic application.


Asunto(s)
Silenciador del Gen , Interferencia de ARN , ARN Mensajero , Animales , Humanos , Ratones , Ratones Transgénicos , ARN Mensajero/genética , ARN Interferente Pequeño/genética
2.
Nat Biotechnol ; 40(7): 1093-1102, 2022 07.
Artículo en Inglés | MEDLINE | ID: mdl-35256816

RESUMEN

Technologies that recruit and direct the activity of endogenous RNA-editing enzymes to specific cellular RNAs have therapeutic potential, but translating them from cell culture into animal models has been challenging. Here we describe short, chemically modified oligonucleotides called AIMers that direct efficient and specific A-to-I editing of endogenous transcripts by endogenous adenosine deaminases acting on RNA (ADAR) enzymes, including the ubiquitously and constitutively expressed ADAR1 p110 isoform. We show that fully chemically modified AIMers with chimeric backbones containing stereopure phosphorothioate and nitrogen-containing linkages based on phosphoryl guanidine enhanced potency and editing efficiency 100-fold compared with those with uniformly phosphorothioate-modified backbones in vitro. In vivo, AIMers targeted to hepatocytes with N-acetylgalactosamine achieve up to 50% editing with no bystander editing of the endogenous ACTB transcript in non-human primate liver, with editing persisting for at least one month. These results support further investigation of the therapeutic potential of stereopure AIMers.


Asunto(s)
Oligonucleótidos , Edición de ARN , Animales , Primates/genética , Primates/metabolismo , ARN , Edición de ARN/genética , Proteínas de Unión al ARN/genética , Proteínas de Unión al ARN/metabolismo
3.
Nucleic Acids Res ; 50(10): 5401-5423, 2022 06 10.
Artículo en Inglés | MEDLINE | ID: mdl-35106589

RESUMEN

Attaining sufficient tissue exposure at the site of action to achieve the desired pharmacodynamic effect on a target is an important determinant for any drug discovery program, and this can be particularly challenging for oligonucleotides in deep tissues of the CNS. Herein, we report the synthesis and impact of stereopure phosphoryl guanidine-containing backbone linkages (PN linkages) to oligonucleotides acting through an RNase H-mediated mechanism, using Malat1 and C9orf72 as benchmarks. We found that the incorporation of various types of PN linkages to a stereopure oligonucleotide backbone can increase potency of silencing in cultured neurons under free-uptake conditions 10-fold compared with similarly modified stereopure phosphorothioate (PS) and phosphodiester (PO)-based molecules. One of these backbone types, called PN-1, also yielded profound silencing benefits throughout the mouse brain and spinal cord at low doses, improving both the potency and durability of response, especially in difficult to reach brain tissues. Given these benefits in preclinical models, the incorporation of PN linkages into stereopure oligonucleotides with chimeric backbone modifications has the potential to render regions of the brain beyond the spinal cord more accessible to oligonucleotides and, consequently, may also expand the scope of neurological indications amenable to oligonucleotide therapeutics.


In this study, the authors explore the impact of nitrogen-containing (PN) backbones on oligonucleotides that promote RNase H-mediated degradation of a transcript in the central nervous system (CNS). Using Malat1, a ubiquitously expressed non-coding RNA that is predominately localized in the nucleus, and C9orf72, a challenging RNA target requiring a more nuanced targeting strategy, as benchmarks, they show that chimeric oligonucleotides containing stereopure PS and one of the more promising PN backbones (PN-1) have more potent and durable activity throughout the CNS compared with more traditional PS-modified molecules in mouse models. They demonstrate that potency and durability benefits in vivo derive at least in part from increased tissue exposure, especially in more difficult to reach regions of the brain. Ultimately, these benefits enabled the authors to demonstrate pharmacodynamic effects on Malat1 and C9orf72 RNAs in multiple brain regions with relatively low doses.


Asunto(s)
Oligonucleótidos Antisentido , Animales , Células Cultivadas , Sistema Nervioso Central , Guanidina/química , Ratones , Neuronas/efectos de los fármacos , Oligonucleótidos Antisentido/química , Oligonucleótidos Antisentido/farmacología , Oligonucleótidos Fosforotioatos , Ribonucleasa H/metabolismo
4.
Nucleic Acids Res ; 50(10): 5443-5466, 2022 06 10.
Artículo en Inglés | MEDLINE | ID: mdl-35061895

RESUMEN

Although recent regulatory approval of splice-switching oligonucleotides (SSOs) for the treatment of neuromuscular disease such as Duchenne muscular dystrophy has been an advance for the splice-switching field, current SSO chemistries have shown limited clinical benefit due to poor pharmacology. To overcome limitations of existing technologies, we engineered chimeric stereopure oligonucleotides with phosphorothioate (PS) and phosphoryl guanidine-containing (PN) backbones. We demonstrate that these chimeric stereopure oligonucleotides have markedly improved pharmacology and efficacy compared with PS-modified oligonucleotides, preventing premature death and improving median survival from 49 days to at least 280 days in a dystrophic mouse model with an aggressive phenotype. These data demonstrate that chemical optimization alone can profoundly impact oligonucleotide pharmacology and highlight the potential for continued innovation around the oligonucleotide backbone. More specifically, we conclude that chimeric stereopure oligonucleotides are a promising splice-switching modality with potential for the treatment of neuromuscular and other genetic diseases impacting difficult to reach tissues such as the skeletal muscle and heart.


Asunto(s)
Distrofia Muscular de Duchenne , Oligonucleótidos Antisentido/química , Oligonucleótidos Fosforotioatos/química , Animales , Exones , Ratones , Músculo Esquelético , Distrofia Muscular de Duchenne/tratamiento farmacológico , Distrofia Muscular de Duchenne/terapia , Oligonucleótidos Antisentido/genética , Oligonucleótidos Antisentido/farmacología , Oligonucleótidos Fosforotioatos/farmacología , Empalme del ARN/efectos de los fármacos
5.
Nat Methods ; 6(8): 593-5, 2009 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-19620973

RESUMEN

We synthesized reversible terminators with tethered inhibitors for next-generation sequencing. These were efficiently incorporated with high fidelity while preventing incorporation of additional nucleotides, and we used them to sequence canine bacterial artificial chromosomes in a single-molecule system that provided even coverage for over 99% of the region sequenced. This single-molecule approach generated high-quality sequence data without the need for target amplification and thus avoided concomitant biases.


Asunto(s)
Cromosomas Artificiales Bacterianos/química , ADN/química , Nucleótidos/química , Análisis de Secuencia de ADN/métodos , Animales , Cromatografía Líquida de Alta Presión , Cromosomas Artificiales Bacterianos/genética , Simulación por Computador , Perros , Nucleótidos/genética , Sensibilidad y Especificidad , Especificidad por Sustrato
6.
Assay Drug Dev Technol ; 5(3): 381-90, 2007 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-17638538

RESUMEN

One of the major hurdles in the post-genomic era is to understand the function of genes and the interplay of many different cellular proteins. This is especially important for drug development. Capture compound mass spectrometry (CCMS) addresses this challenge by selectively reducing the complexity of the proteome. Capture compounds are trifunctional molecules: a selectivity function reversibly interacts via affinity with proteins; a reactivity function irreversibly forms a covalent bond outside the affinity binding site; and a sorting/pullout function allows the captured protein(s) to be isolated from cellular lysate for mass spectrometric analysis and characterization by database queries. In the present study, we demonstrate the use of a CCMS capture compound with a sulfonamide drug analog as its selectivity function, isolating an expected target protein from cell lysates containing a large excess of other "non-target" proteins. A future application of CCMS is to define or confirm drug target proteins and their mechanisms of drug action, or to discover off-target proteins that cause side effects, enabling subsequent drug structure optimization.


Asunto(s)
Diseño de Fármacos , Proteínas/análisis , Espectrometría de Masa por Láser de Matriz Asistida de Ionización Desorción/métodos , Unión Proteica , Sulfonamidas/metabolismo , Sulfonamidas/farmacología
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