Padmakumar Narayanan scite author profile

Antisense oligonucleotides (ASOs) have emerged as a new class of drugs to treat a wide range of diseases, including neurological indications. Spinraza, an ASO that modulates splicing of SMN2 RNA, has shown profound disease modifying effects in Spinal Muscular Atrophy (SMA) patients, energizing efforts to develop ASOs for other neurological diseases. While SMA specifically affects spinal motor neurons, other neurological diseases affect different central nervous system (CNS) regions, neuronal and non-neuronal cells. Therefore, it is important to characterize ASO distribution and activity in all major CNS structures and cell types to have a better understanding of which neurological diseases are amenable to ASO therapy. Here we present for the first time the atlas of ASO distribution and activity in the CNS of mice, rats, and non-human primates (NHP), species commonly used in preclinical therapeutic development. Following central administration of an ASO to rodents, we observe widespread distribution and target RNA reduction throughout the CNS in neurons, oligodendrocytes, astrocytes and microglia. This is also the case in NHP, despite a larger CNS volume and more complex neuroarchitecture. Our results demonstrate that ASO drugs are well suited for treating a wide range of neurological diseases for which no effective treatments are available.

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Investigation into the Mechanism(s) That Leads to Platelet Decreases in Cynomolgus Monkeys During Administration of ISIS 104838, a 2ʹ-MOE-Modified Antisense Oligonucleotide

Narayanan

Shen

Curtis

et al. 2018

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ISIS 104838, a 2'-O-methoxyethyl (2'-MOE)-modified antisense oligonucleotide (ASO), causes a moderate, reproducible, dose-dependent, but selflimiting decrease in platelet (PLT) counts in monkeys and humans. To determine the etiology of PLT decrease in cynomolgus monkeys, a 12-week repeat dose toxicology study in 5 cynomolgus monkeys given subcutaneous injections of ISIS 104838 (30-60 mg/kg/week). Monkeys were also injected intravenously with 111Indium(In)-oxine-labeled PLTs to investigate PLT sequestration. In response to continued dosing, PLT counts were decreased by 50%-90% by day 30 in all monkeys. PLT decreases were accompanied by 2- to 4.5-fold increases in immunoglobulin M(IgM), which were typified by a 2- to 5-fold increase in antiplatelet factor 4 (antiPF4) IgM and antiPLT IgM, respectively. Monocyte chemotactic protein 1 increased upon dosing of ISIS 104838, concomitant with a 2- to 6-fold increase in monocyte-derived extracellular vesicles (EVs), indicating monocyte activation but not PLT activation. Despite a 2- to 3-fold increase in von Willebrand factor antigen in all monkeys following ASO administration, only 2 monkeys showed a 2- to 4-fold increase in endothelial EVs. Additionally, a ∼60 - 80%% increase in PLT sequestration in liver and spleen was also observed. Collectively, these results suggest the overall increase in total IgM, antiPLT IgM and/or antiPF4 IgM, in concert with monocyte activation contributed to increased PLT sequestration in spleen and liver, leading to decreased PLTs in peripheral blood.

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Assessment of the Effects of 2′-Methoxyethyl Antisense Oligonucleotides on Platelet Count in Cynomolgus Nonhuman Primates

Henry

Narayanan

Shen

et al. 2017

Nucleic Acid Therapeutics

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Decreases in platelet (PLT) counts observed in nonhuman primates (NHPs) given 2'-O-methoxyethyl modified antisense inhibitors (2'-MOE ASOs) have been reported, but the incidence and severity of the change vary considerably between sequences, studies, and animals. This article will broadly illustrate the spectrum of effects on PLT count in NHPs. From queries of an NHP safety database representing over 102 independent 2'-MOE ASOs, from 61 studies and >2200 NHPs, two patterns of PLT changes emerged. The first is a consistent and reproducible decrease in group mean values, observed with about 30% of the compounds, in which PLT count typically remains ≥150K cells/μL. The second is a sporadic decrease in PLTs to <50K cells/μL (2%-4% incidence at doses >5 mg/kg) that is often not reproducible. In both cases, the reduction in PLT count is dose dependent and reversible. The human relevance of PLT change observed in NHPs was investigated using ISIS 404173. In a chronic NHP study (20 mg/kg/wk for 26 weeks), a gradual decrease in group mean PLT count was observed at ≥10 mg/kg/wk, which plateaued by 13 weeks generally within the normal range and was maintained through 26 weeks of treatment. However, PLT counts <50K cells/μL occurred in 1 of 16 NHP at 10 mg/kg/wk and 3 of 16 NHP at 20 mg/kg/wk. In a 26-week double-blind, placebo-controlled Phase 2 trial, 62 patients were treated with 200 mg/wk ISIS 404173 (∼3.3 mg/kg/wk) there was an increased incidence of PLT count >30% decreased compared to baseline but no incidence of PLT <75K cells/μL. Based on these data, the consistent, self-limiting PLT reduction seen in NHP may translate to humans, but these changes appear to be of limited clinical significance. However, NHPs appear to overpredict the incidence of sporadic PLT <50K cells/μL compared to humans.

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Sequence-specific 2'-O-methoxyethyl antisense oligonucleotides activate human platelets through glycoprotein VI, triggering formation of platelet-leukocyte aggregates

et al. 2021

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Antisense oligonucleotides (ASOs) are DNA-based, disease-modifying drugs. Clinical trials with 2'-O-methoxyethyl (2’MOE) ASOs have reported dose- and sequencespecific lowering of platelet counts according to two phenotypes. Phenotype 1 is a moderate (but not clinically severe) drop in platelet count. Phenotype 2 is rare, severe thrombocytopenia. This paper will focus on the underlying cause of the more common Phenotype 1, investigating the effects of ASOs on platelet production and platelet function. Five phosphorothioate ASOs were included: three 2’MOE sequences; 487660 (no effects on platelet count), 104838 (associated with Phenotype 1), 501861 (effects unknown) and two CpG sequences; 120704 and ODN 2395 (known to activate platelets). Human cord blood-derived megakaryocytes were treated with these ASOs to study effects on proplatelet production. Platelet activation (surface P-selectin) and platelet-leukocyte aggregates (PLAs) were analyzed in ASO-treated blood from healthy human volunteers. None of the ASOs inhibited proplatelet production from human megakaryocytes. All the ASOs were shown to bind to the platelet receptor glycoprotein VI (GPVI, KD ~0.2-1.5μM). CpG ASOs had the highest affinity to GPVI and the most potent platelet activating effects and PLA formation. 2’MOE ASO 487660 had no detectable platelet effects, while 2’MOE ASOs 104838 and 501861 triggered moderate platelet activation and SYK-dependent formation of PLAs. Donors with higher platelet GPVI levels had larger ASO-induced platelet activation. Sequence-dependent ASO-induced platelet activation and PLAs may explain Phenotype 1- moderate drops in platelet count. Platelet GPVI levels could be useful as a screening tool to identify patients at higher risk of ASO-induced platelet side effects.

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The atlas of RNase H antisense oligonucleotide distribution and activity in the CNS of rodents and non-human primates following central administration

Jafar‐Nejad

Powers

Soriano

et al. 2020

Preprint

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Antisense oligonucleotides (ASOs) have emerged as a new class of drugs to treat a wide range of diseases, including neurological indications. Spinraza, an ASO that modulates splicing of SMN2 RNA, has shown profound disease modifying effects in Spinal Muscular Atrophy (SMA) patients, energizing the field to develop ASOs for other neurological diseases. While SMA specifically affects spinal motor neurons, other neurological diseases affect different central nervous system (CNS) regions, neuronal, and non-neuronal cells. Therefore, it is critically important to characterize ASO distribution and activity in all major CNS structures and cell types to have a better understanding of which neurological diseases are amenable to ASO therapy. Here we present for the first time the atlas of ASO distribution and activity in the CNS of mice, rats, and non-human primates (NHP), species commonly used in preclinical therapeutic development. Following central administration of an ASO to rodents, we observe widespread distribution and robust activity throughout the CNS in neurons, oligodendrocytes, astrocytes, and microglia. This is also the case in NHP, despite a larger CNS volume and more complex neuroarchitecture. Our results demonstrate that ASO drugs are well suited for treating a wide range of neurological diseases for which no effective treatments are available.

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