Alnylam Announces Publication of Preclinical Results Based on Novel Conjugate Technology That Facilitates Delivery of Short Interfering RNA to the Central Nervous System and Other Extrahepatic Tissues
Alnylam Pharmaceuticals has published promising preclinical data in Nature Biotechnology showing that 2'-O-hexadecyl (C16)-conjugated siRNA can effectively silence target genes outside the liver, particularly in the CNS, eye, and lung. In rodent and non-human primate models, C16-siRNA targeting amyloid beta precursor protein showed significant reductions in target levels and improved behavioral outcomes in an Alzheimer's disease model. The findings support infrequent dosing and have led to the initiation of a Phase 1 study for ALN-APP, targeting early-onset Alzheimer's.
- Preclinical data demonstrate robust and durable gene silencing in CNS and other tissues.
- C16-siRNA shows potential for treating CNS diseases, including Alzheimer's.
- Phase 1 study for ALN-APP has commenced, with early human data expected by year-end 2022.
- None.
- Conjugation of 2’-O-hexadecyl (C16) to siRNA Enables Therapeutic Silencing of Target Genes Outside the Liver with Infrequent Dosing in Rodents and Non-Human Primates -
- In a Mouse Model of Alzheimer’s Disease, C16-siRNA Targeting the Amyloid Beta Precursor Protein Gene Led to Potent and Durable Knockdown in the CNS and Ameliorated Physiological and Behavioral Deficits -
- Sustained Knockdown Observed May Allow for Infrequent Dosing of C16-siRNAs in Humans and Warrants Continued Investigation in Clinical Trials, Including an Ongoing Phase 1 Study of ALN-APP in Alzheimer’s Disease, in Which Dosing Has Been Initiated -
The published data show that conjugation of C16 to metabolically stable siRNAs enables robust and long-lasting gene silencing in the CNS, eye and lung in rodents and non-human primates (NHPs) with broad cell type specificity and a favorable nonclinical safety profile. The manuscript also provides evidence demonstrating C16-siRNA-mediated gene silencing translates into efficacy in an in vivo mouse model of neurodegenerative disease.
“Diseases of the CNS are some of the most difficult to treat. Thus, we are encouraged by these preclinical findings as they suggest siRNAs may have a role in treating diseases impacting the CNS, the eye, and the lung,” said
Delivery to the CNS
Based on the published results, a single intrathecal (IT) administration of C16 conjugated siRNA targeting SOD1 in rodents resulted in a widespread uptake of the conjugate in neurons, astrocytes, and microglial cells and a dose dependent SOD1 knockdown with greater than 75 percent target knockdown at the highest dose of 0.9 mg. These results were recapitulated in NHPs treated with C16-conjugated siRNA targeting amyloid beta precursor protein (APP), with up to 70 and 80 percent reductions in the spinal cord and brain, respectively, at three months post a single IT dose of 60 mg. These reductions were sustained beyond three months based on biomarker measurements in the cerebrospinal fluid. The APP-siRNAs were well-tolerated in NHPs and there were no test item-related microscopic findings in the examined brain, spinal cord, and dorsal root ganglia sections. The published data also provide a pre-clinical proof-of-concept, whereby administration of a C16-siRNA targeting both intracellular and extracellular APP in a mouse model of Alzheimer’s disease produced a sufficiently potent and durable knockdown in the CNS to alter both the physiological deficits in the diseased mice, such as Aβ deposition and inflammation, as well as, normalizing behavioral deficits as measured by an open field test. Reduction of APP expression was correlated with reduced expression of Iba1, a marker normally upregulated in human disease, and increased levels of glutamate, a metabolite associated with improved cognition.
The safety and efficacy of ALN-APP, an investigational RNAi therapeutic conjugated to C16 and targeting APP, is currently being evaluated in a Phase 1 clinical study for the treatment of early onset Alzheimer's disease.
Delivery to the eye and lung
C16 conjugation also enables ocular delivery in NHP via intravitreal administration with greater than 95 percent target knockdown noted in the retinal pigmented epithelium at 100 μg per eye of conjugated siRNA targeting transthyretin (TTR). Similarly, intranasal administration of C16 lipophile conjugated siRNA targeting mouse SOD1 resulted in broad uptake of the conjugate to mouse lung tissue, including bronchioles and alveoli, and 57 percent SOD1 mRNA knockdown sustained for two months post a 10 mg/kg dose.
About ALN-APP
ALN-APP is an investigational, intrathecally administered RNAi therapeutic targeting amyloid precursor protein (APP) in development in collaboration with Regeneron Pharmaceuticals for the treatment of Alzheimer’s disease (AD) and cerebral amyloid angiopathy (CAA). Genetic mutations that increase production of APP or alter its cleavage cause early-onset AD, early-onset CAA, or both. ALN-APP is designed to decrease APP mRNA in the central nervous system (CNS), to decrease synthesis of APP protein and all downstream intracellular and extracellular APP-derived cleavage products, including amyloid beta (Aβ). Reducing APP protein production is expected to reduce the secretion of Aβ peptides that aggregate into extracellular amyloid deposits and reduce the intraneuronal APP cleavage products that trigger the formation of neurofibrillary tangles and cause neuronal dysfunction in Alzheimer’s disease. ALN-APP is the first program utilizing Alnylam’s C16 conjugate technology, which enables enhanced delivery to cells in the CNS. The safety and efficacy of ALN-APP have not been evaluated by the FDA, EMA, or any other health authority.
About Early-Onset Alzheimer’s Disease
Alzheimer’s disease (AD) is the most common neurodegenerative disease and the most common form of dementia, affecting over 30 million people worldwide. AD is characterized by progressive memory loss and cognitive decline, with neuropathological accumulation of amyloid plaques, neurofibrillary tangles, and neuroinflammation, ultimately resulting in significant brain atrophy. Disease progression results in progressive loss of independence, increased caregiver burden, institutionalization, and premature death. Early-onset Alzheimer’s disease (EOAD) refers to a subgroup of AD with symptom onset prior to the age of 65, representing approximately
About RNAi
RNAi (RNA interference) is a natural cellular process of gene silencing that represents one of the most promising and rapidly advancing frontiers in biology and drug development today. Its discovery has been heralded as "a major scientific breakthrough that happens once every decade or so," and was recognized with the award of the 2006 Nobel Prize for Physiology or Medicine. By harnessing the natural biological process of RNAi occurring in our cells, a new class of medicines, known as RNAi therapeutics, is now a reality. Small interfering RNA (siRNA), the molecules that mediate RNAi and comprise
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