AM404 Analogs as Activators of the 20S Isoform of the Human Proteasome.

The proteasome is a multisubunit protease system responsible for the majority of the protein turnover in eukaryotic organisms. Dysregulation of this enzymatic complex leads to protein accumulation, subsequent aggregation, and ultimately diseased states; for that reason, positive modulation of its activity has been recently investigated as a therapeutic strategy for neurodegenerative and age-related diseases. The small molecule AM404 was recently identified as an activator of the 20S isoform of the proteasome and further exploration of the scaffold revealed the importance of the polyunsaturated fatty acid chain to elicit activity. Herein, we report the investigation of the aromatic region of the scaffold and the evaluation of the small molecules in a variety of proteasome activity and protein degradation assays. We found that derivatives A22 and A23, compared to AM404, exhibit enhanced proteasome activity in biochemical and cellular proteasome assays and more favorable cellular viability profiles. Additionally, these compounds demonstrate the ability to degrade intrinsically disordered proteins, regardless of their molecular weight, and the ability to restore the proteasome activity in the presence of toxic oligomeric α-Syn species in a biochemical setting.

Design and characterization of fibroblast activation protein targeted pan-cancer imaging agent for fluorescence-guided surgery of solid tumors.

Tumor-targeted fluorescent dyes have been shown to significantly improve a surgeon's ability to locate and resect occult malignant lesions, thereby enhancing a patient's chances of long term survival. Although several tumor-targeted fluorescent dyes have been developed for imaging specific subsets of human cancers, no tumor-targeted dye has been designed that can image all cancer types. Based on observations that fibroblast activation protein (FAP) is upregulated on cancer-associated fibroblasts (CAFs) that infiltrate essentially all solid tumors, we have undertaken to develop a FAP-targeted fluorescent dye that can image CAFs without accumulating in healthy cells or fibroblasts. We report here that FTL-S-S0456, a novel FAP-targeted near infrared dye that binds FAP with high affinity (∼12 nM) and specificity (>5000-fold over PREP and DPP-IV), concentrates in all seven solid tumor types examined, yielding fluorescence images with high tumor to background ratios that persist for several days. We conclude that FTL-S-S0456 constitutes an excellent ligand-targeted near infrared dye that enables intra-operative imaging of most if not all solid tumors.