| Literature DB >> 26675527 |
Nathanael J Lee1, Jung Min Song1, Hyun-Ji Cho2, You Me Sung3, Taehee Lee1, Andrew Chung1, Sung-Ha Hong3, Jessica L Cifelli4, Mark Rubinshtein4, Lila K Habib5, Christina C Capule4, R Scott Turner6, Daniel T S Pak7, Jerry Yang4, Hyang-Sook Hoe8.
Abstract
Our recent study demonstrated that an amyloid-β binding molecule, BTA-EG4, increases dendritic spine number via Ras-mediated signaling. To potentially optimize the potency of the BTA compounds, we synthesized and evaluated an amyloid-β binding analog of BTA-EG4 with increased solubility in aqueous solution, BTA-EG6. We initially examined the effects of BTA-EG6 on dendritic spine formation and found that BTA-EG6-treated primary hippocampal neurons had significantly increased dendritic spine number compared to control treatment. In addition, BTA-EG6 significantly increased the surface level of AMPA receptors. Upon investigation into the molecular mechanism by which BTA-EG6 promotes dendritic spine formation, we found that BTA-EG6 may exert its effects on spinogenesis via RasGRF1-ERK signaling, with potential involvement of other spinogenesis-related proteins such as Cdc42 and CDK5. Taken together, our data suggest that BTA-EG6 boosts spine and synapse number, which may have a beneficial effect of enhancing neuronal and synaptic function in the normal healthy brain.Entities:
Keywords: BTA-EG6; Dendritic spine; Rap signaling; Ras signaling
Mesh:
Substances:
Year: 2015 PMID: 26675527 DOI: 10.1016/j.bbadis.2015.12.007
Source DB: PubMed Journal: Biochim Biophys Acta ISSN: 0006-3002