SUMMARY
The widespread resistance of malaria parasites to all affordable drugs has made the identification of new targets urgent. Dipeptidyl aminopeptidases (DPAPs) represent potentially valuable new targets that are involved in hemoglobin degradation (DPAP1) and parasite egress (DPAP3). Here we use activity-based probes to demonstrate that specific inhibition of DPAP1 by a small molecule results in the formation of an immature trophozoite that leads to parasite death. Using computational methods we designed stable, non-peptidic covalent inhibitors that kill Plasmodium falciparum at low nanomolar concentrations. These compounds show signs of slowing parasite growth in a murine model of malaria, which suggests that DPAP1 might be a viable anti-malarial target. Interestingly, we found that re-synthesis and activation of DPAP1 after inhibition is rapid, suggesting that effective drugs would need to sustain DPAP1 inhibition for a period of 2–3h.
SUMMARY
Macrophage infiltration into tumors has been correlated with poor clinical outcome in multiple cancer types. Therefore, new tools to image tumor-associated macrophages could be valuable for diagnosis and prognosis of cancer. Herein we describe the synthesis and characterization of a cathepsin S-directed, quenched activity-based probe (qABP), BMV083. This probe makes use of an optimized non-peptidic scaffold leading to enhanced in vivo properties relative to previously reported peptide-based probes. In a syngeneic breast cancer model, BMV083 provides high tumor specific fluorescence that can be visualized using noninvasive optical imaging methods. Furthermore, analysis of probe labeled cells demonstrates that the probe primarily targets macrophages with an M2 phenotype. Thus, BMV083 is a potential valuable new in vivo reporter for tumor-associated macrophages that could greatly facilitate the future studies of macrophage function in the process of tumorigenesis.
SUMMARY
Huntington’s Disease (HD) is characterized by a mutation in the huntingtin gene encoding an expansion of glutamine repeats on the N-terminus of the huntingtin (Htt) protein. Numerous studies have identified Htt proteolysis as a critical pathological event in post mortem human tissue and mouse HD models, and proteases known as caspases have emerged as attractive HD targets. We report the use of the substrate activity screening method against caspases-3 and -6 to identify three novel, pan-caspase inhibitors that block proteolysis of Htt at caspase-3 and -6 cleavage sites. In HD models, these irreversible inhibitors suppressed Hdh111Q/111Q-mediated toxicity and rescued rat striatal and cortical neurons from cell death. In this study the identified nonpeptidic caspase inhibitors were used to confirm the role of caspase-mediated Htt proteolysis in HD. These results further implicate caspases as promising targets for HD therapeutic development.
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