Penn Researchers Restore Vision in Blind Patient with Rare Genetic Condition with RNA Therapy
April 2, 2021
Rare Daily Staff
A patient with a genetic form of childhood blindness gained vision, which lasted more than a year, after receiving a single injection of an experimental RNA therapy into the eye, researchers reported in a new paper.
Researchers at the Scheie Eye Institute in the Perelman School of Medicine at the University of Pennsylvania detailed the results of a clinical trial in a paper published in Nature Medicine. It showed that the treatment led to marked changes at the fovea, the most important locus of human central vision.
The treatment was designed for patients diagnosed with Leber congenital amaurosis (LCA) driven by a mutation in the CEP290 gene. There are at least 25 genes, many of which are critical for the development or function of photoreceptors, which have been identified as capable of causing LCA. The CEP290 gene is one of the more commonly implicated genes in patients with the disease. Patients with this form of LCA suffer from severe visual impairment, typically beginning in infancy.
“Our results set a new standard of what biological improvements are possible with antisense oligonucleotide therapy in LCA caused by CEP290 mutations,” said co-lead author Artur Cideciyan, a research professor of ophthalmology. “Importantly, we established a comparator for currently-ongoing gene editing therapies for the same disease, which will allow comparison of the relative merits of two different interventions.”
In an international clinical trial, participants received an intraocular injection of an antisense oligonucleotide called sepofarsen. This short RNA molecule works by increasing normal CEP290 protein levels in the eye’s photoreceptors and improving retinal function under day vision conditions. The trial is being funded by ProQR Therapeutics with additional support from the National Institutes of Health.
In a 2019 study published in Nature Medicine, Cideciyan, Jacobson, and collaborators found that injections of sepofarsen repeated every three months resulted in continued vision gains in 10 patients. The eleventh patient, whose treatment was detailed in the latest Nature Medicine paper, received only one injection and was examined over a 15-month period. Prior to treatment, the patient had reduced visual acuity, small visual fields, and no night vision. After the initial dose, the patient decided to forgo the quarterly maintenance doses, because the regular dosing could lead to cataracts.
After a single injection of sepofarsen, more than a dozen measurements of visual function and retinal structure showed large improvements supporting a biological effect from the treatment. A key finding from the case was that this biological effect was relatively slow in uptake. The researchers saw vision improvement after one month, but the patient’s vision reached a peak effect after month two. Most striking, the improvements remained when tested over 15 months after the first and only injection.
According to the researchers, the extended durability of vision improvement was unexpected and provides implications for treating other ciliopathies, a large category of diseases associated with genetic mutations encoding defective proteins that result in the abnormal function of cilia, a protruding sensory organelle found on cells.
“This work represents a really exciting direction for RNA antisense therapy. It’s been 30 years since there were new drugs using RNA antisense oligonucleotides, even though everybody realized that there was great promise for these treatments,” said Jacobson. “The unexpected stability of the ciliary transition zone noted in the patient prompts reconsideration of dosing schedules for sepofarsen, as well as other cilium-targeted therapies.
One reason why antisense oligonucleotide has proven successful in treating this rare disease, according to the researchers, is that these tiny RNA molecules are small enough to get into the cell nucleus, but are not cleared very quickly, so they remain long enough to do their work.
For future studies, the Penn authors are planning gene-specific therapies for other currently incurable blinding inherited retinal disorders.
Photo: Artur Cideciyan, a research professor of ophthalmology at Penn Medicine
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