Antisense therapy

Source: Wikipedia, the free encyclopedia.

Antisense therapy is a form of treatment that uses antisense

splicing site binding on pre-mRNA.[1]
Several ASOs have been approved in the United States, the European Union, and elsewhere.

Nomenclature

The common stem for antisense oligonucleotides drugs is -rsen. The substem -virsen designates antiviral antisense oligonucleotides.[2]

Antisense Oligonucleotide Development

Developments in ASO modification are separated into three generations.[3] Generation one is called backbone-modified and focuses on the phosphodiester group of the nucleotide. This impacts inter-nucleotide binding. These modifications led to better distribution, reduced urinary excretion, and prolonged residence time of the ASOs in the cell. Some examples of first generation modifications include the addition of a phosphorothioate group (PS), methyl group, or nitrogen. The most common is the phosphorothioate group (PS) in which the oxygen atoms of a phosphodiester group are replaced with sulfur atoms, greatly improving efficacy and reducing degradation. Generation two is sugar-modified, focused on the ribose sugar of the nucleotide. This generation saw improved binding affinity while reducing degradation. Some examples of generation two modifications are the substitution of R group with morpholine group (MO) and the usage of phosphorodiamidate morpholino oligomer (PMO) and thiomorpholine oligomer (TMO) as linkages between the ribose sugar and phosphodiester group in the backbone. Generation three is nucleobase-modified, the least common type of modification. These modifications enhanced binding affinity and cell penetration while reducing degradation and off-target effects. Examples include the introduction of G-clamps, pseudoisocytosine, and the substitution of bases with amine, thione, halogen, alkyl, alkenyl, or alkynyl groups.[4]

Pharmacokinetics and pharmacodynamics

Half-life and stability

ASO-based drugs employ highly modified, single-stranded chains of synthetic nucleic acids that achieve wide tissue distribution with very long half-lives.[5][6][7] For instance, many ASO-based drugs contain phosphorothioate substitutions and 2' sugar modifications to inhibit nuclease degradation enabling vehicle-free delivery to cells.[8][9]

In vivo delivery

Phosphorothioate ASOs can be delivered to cells without the need of a delivery vehicle. ASOs do not penetrate the

blood brain barrier when delivered systemically but they can distribute across the neuraxis if injected in the cerebrospinal fluid typically by intrathecal administration. Newer formulations using conjugated ligands greatly enhances delivery efficiency and cell-type specific targeting.[8]

Approved therapies

Amyotrophic lateral sclerosis

amyotrophic lateral sclerosis (ALS) in 2023.[10] It was developed by Biogen under a licensing agreement with Ionis Pharmaceuticals. In trials the drug was found to lower levels of an ALS biomarker, neurofilament light change, and in long-term trial extensions to slow disease.[10] Under the terms of the FDA's accelerated approval program, a confirmatory study will be conducted in presymptomatic gene carriers to provide additional evidence.[11]

Batten disease

Milasen is a novel individualized therapeutic agent that was designed and approved by the FDA for the treatment of Batten disease. This therapy serves as an example of personalized medicine.[12][13]

In 2019, a report was published detailing the development of milasen, an antisense oligonucleotide drug for Batten disease, under an expanded-access investigational clinical protocol authorized by the Food and Drug Administration (FDA).[12] Milasen "itself remains an investigational drug, and it is not suited for the treatment of other patients with Batten's disease" because it was customized for a single patient's specific mutation.[12] However it is an example of individualized genomic medicine therapeutical intervention.[12][14]

Cytomegalovirus retinitis

Fomivirsen (marketed as Vitravene), was approved by the U.S. FDA in August 1998, as a treatment for cytomegalovirus retinitis.[15]

Duchenne muscular dystrophy

Several morpholino oligos have been approved to treat specific groups of mutations causing Duchenne muscular dystrophy. In September 2016, eteplirsen (ExonDys51) received FDA approval[16] for the treatment of cases that can benefit from skipping exon 51 of the dystrophin transcript. In December 2019, golodirsen (Vyondys 53) received FDA approval[17] for the treatment of cases that can benefit from skipping exon 53 of the dystrophin transcript. In August 2020, viltolarsen (Viltepso) received FDA approval for the treatment of cases that can benefit from skipping exon 53 of the dystrophin transcript.[18]

Familial chylomicronaemia syndrome

Volanesorsen was approved by the European Medicines Agency (EMA) for the treatment of familial chylomicronaemia syndrome in May 2019.[19][20]

Familial hypercholesterolemia

In January 2013 mipomersen (marketed as Kynamro) was approved by the FDA for the treatment of homozygous familial hypercholesterolemia. [21][22][23]

Hereditary transthyretin-mediated amyloidosis

active substance of small interfering RNA (siRNA), which allows it to interfere with and block the production of transthyretin.[26] As such, it was the first FDA-approved siRNA therapeutic.[25]

Spinal muscular atrophy

In 2004, development of an antisense therapy for

FDA[27][28]
and soon after, from other regulatory agencies worldwide.

Investigational therapies

Current clinical trials

As of 2020 more than 50 antisense oligonucleotides were in clinical trials, including over 25 in

advanced clinical trials (phase II or III).[29][30]

Phase III trials

Hereditary transthyretin-mediated amyloidosis

A follow-on drug to Inotersen is being developed by Ionis Pharmaceuticals and under license to Akcea Therapeutics for hereditary transthyretin-mediated amyloidosis. In this formulation the ASO is conjugated to N-Acetylgalactosamine enabling hepatocyte-specific delivery, greatly reducing dose requirements and side effect profile while increasing the level of transthyretin reduction in patients.

Huntington's disease

Tominersen (also known as IONIS-HTTRx and RG6042) was tested in a phase 3 trial for

Roche
by Ionis Pharmaceuticals.

Phase I and II trials

Clinical trials are ongoing for several diseases and conditions including:

non-alcoholic fatty liver disease, Parkinson's disease, prostate cancer, Stargardt disease, STAT3-expressing cancers, Usher syndrome
.

Preclinical development

Several ASOs are currently being investigated in disease models for

spinocerebellar Ataxia Type 3
.

See also

References

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