Efficient amyloid-β degradation in Alzheimer's disease using SPYTACs
Summary
Clearance of aberrant cerebral amyloid-β (Aβ) deposits represents a promising therapeutic strategy for Alzheimer's disease (AD), yet current anti-Aβ immunotherapy raises safety concerns due to frequent adverse effects. Extracellular targeted protein degradation (eTPD) offers an approach for safe and efficient clearance of disease-causing proteins. Here, we develop a next-generation eTPD platform, synthetic peptide-programmed lysosome-targeting chimeras (SPYTACs), using entirely synthesized
Content
# Efficient amyloid-β degradation in Alzheimer's disease using SPYTACs
*Published: 2026 Apr 2*
Clearance of aberrant cerebral amyloid-β (Aβ) deposits represents a promising
therapeutic strategy for Alzheimer's disease (AD), yet current anti-Aβ
immunotherapy raises safety concerns due to frequent adverse effects.
Extracellular targeted protein degradation (eTPD) offers an approach for safe
and efficient clearance of disease-causing proteins. Here, we develop a
next-generation eTPD platform, synthetic peptide-programmed lysosome-targeting
chimeras (SPYTACs), using entirely synthesized bispecific peptides. Leveraging
low-density lipoprotein receptor-related protein 1 (LRP1), SPYTACs effectively
facilitate targeted degradation of extracellular proteins and enable
transcytosis across the blood-brain barrier. In vivo administration of SPYTACs
effectively reduces peripheral and cerebral Aβ burden, attenuates synapse loss,
and improves cognitive function in 5×FAD mice at both prodromal and symptomatic
stages. Notably, SPYTAC treatment shows fewer side effects, including
intracerebral hemorrhage and inflammation, compared with conventional
immunotherapies. The high modularity and genetic encodability enable SPYTACs to
target customized disease-causing proteins, underscoring their therapeutic
versatility and translational promise across diverse diseases driven by
pathogenic proteins.
DOI: 10.1016/j.cell.2026.01.034