Alzheimer’s disease (AD) is marked by synaptic failure, with actin cytoskeleton alterations playing a key role in its pathogenesis. Cofilin, a regulator of actin dynamics in dendritic spines, forms cofilin-actin rods upon exposure to amyloid-β (Aβ) oligomers, contributing to synaptic loss. Cyclase-associated protein 2 (CAP2) is crucial for regulating cofilin activity. During long-term potentiation, CAP2 dimerization is relevant for cofilin translocation to spines required for spine remodeling. In AD, CAP2 is downregulated, thus disrupting synaptic CAP2/cofilin complexes. To investigate the neuroprotective potential of CAP2 overexpression in preventing Aβ-induced synaptic dysfunction, we used adeno-associated virus serotype 9 (AAV) gene delivery to elevate CAP2 levels in APP/PS1 mice—a model of amyloid pathology—starting from the asymptomatic stage. APP/PS1 animals received bilateral stereotaxic injection of either AAV expressing CAP2 or a control AAV. This approach preserved synaptic CAP2/cofilin interaction, maintained synaptic plasticity pathways, and sustained cognitive function. CAP2 overexpression reduced cofilin-actin rod formation and mitigated tau abnormalities. Notably, CAP2 is present in cofilin-actin rods, and its dimerization is required to prevent Aβ-driven synaptic loss but not to protect neurons from rod formation. These findings highlight CAP2 upregulation as a promising strategy to enhance neuronal resilience and counteract Aβ synaptic toxicity in AD.
Cyclase-associated protein 2 gene delivery: A potential multi-target approach for preventing synaptic failure in Alzheimer’s disease / R. Stringhi, S. Pelucchi, L. D'Andrea, F. La Greca, E. Zianni, L. Targa, C. Mosconi, L. Vandermeulen, M. Ascagni, M.C. Speciani, F. Gardoni, D. Scheggia, V. Edefonti, M. Di Luca, E. Marcello. - In: MOLECULAR THERAPY. - ISSN 1525-0016. - (2026), pp. 1-23. [Epub ahead of print] [10.1016/j.ymthe.2025.12.023]
Cyclase-associated protein 2 gene delivery: A potential multi-target approach for preventing synaptic failure in Alzheimer’s disease
R. StringhiPrimo
;S. Pelucchi;L. D'Andrea;F. La Greca;E. Zianni;L. Targa;L. Vandermeulen;M. Ascagni;M.C. Speciani;F. Gardoni;D. Scheggia;V. Edefonti;M. Di Luca;E. Marcello
Ultimo
2026
Abstract
Alzheimer’s disease (AD) is marked by synaptic failure, with actin cytoskeleton alterations playing a key role in its pathogenesis. Cofilin, a regulator of actin dynamics in dendritic spines, forms cofilin-actin rods upon exposure to amyloid-β (Aβ) oligomers, contributing to synaptic loss. Cyclase-associated protein 2 (CAP2) is crucial for regulating cofilin activity. During long-term potentiation, CAP2 dimerization is relevant for cofilin translocation to spines required for spine remodeling. In AD, CAP2 is downregulated, thus disrupting synaptic CAP2/cofilin complexes. To investigate the neuroprotective potential of CAP2 overexpression in preventing Aβ-induced synaptic dysfunction, we used adeno-associated virus serotype 9 (AAV) gene delivery to elevate CAP2 levels in APP/PS1 mice—a model of amyloid pathology—starting from the asymptomatic stage. APP/PS1 animals received bilateral stereotaxic injection of either AAV expressing CAP2 or a control AAV. This approach preserved synaptic CAP2/cofilin interaction, maintained synaptic plasticity pathways, and sustained cognitive function. CAP2 overexpression reduced cofilin-actin rod formation and mitigated tau abnormalities. Notably, CAP2 is present in cofilin-actin rods, and its dimerization is required to prevent Aβ-driven synaptic loss but not to protect neurons from rod formation. These findings highlight CAP2 upregulation as a promising strategy to enhance neuronal resilience and counteract Aβ synaptic toxicity in AD.
| File | Dimensione | Formato | |
|---|---|---|---|
|
1-s2.0-S1525001625010469-main.pdf
accesso aperto
Descrizione: online firt, in press, corrected proof
Tipologia:
Publisher's version/PDF
Licenza:
Creative commons
Dimensione
9.7 MB
Formato
Adobe PDF
|
9.7 MB | Adobe PDF | Visualizza/Apri |
Pubblicazioni consigliate
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
