6gbx Citations

The structure of the human glutaminyl cyclase-SEN177 complex indicates routes for developing new potent inhibitors as possible agents for the treatment of neurological disorders.

Pozzi C, Di Pisa F, Benvenuti M, Mangani S
J Biol Inorg Chem 23 1219-1226 (2018)
Cited: 5 times
EuropePMC logo PMID: 30132075

Abstract

Recent evidence links the role of human glutaminyl cyclase (hQC) to the amyloidogenic process involved in Alzheimer's disease (AD). hQC is a zinc enzyme present in neuronal tissue and its activity is responsible for the cyclization of N-terminal Gln or Glu β-amyloid peptides, leading to N-pyroglutamic acid peptides (pE-Aβ) that is probably a crucial event in the initiation and progress of the disease. Indeed, pE-containing peptides exhibit an elevated neurotoxicity and a tendency to aggregate. These observations render hQC inhibition an attractive strategy for developing new molecules active against AD. We present here the crystal structure of hQC in complex with SEN177, a newly designed molecule. The SEN177-binding mode to hQC differs from that of the known hQC inhibitors. SEN177 Ki on hQC is 20 nM, comparable or better than that of the most potent known hQC inhibitors PBD150 and PQ912. In addition, SEN177 already demonstrated relevant pharmacological properties in in vivo models of Huntington's disease. All these properties make SEN177 an important scaffold for developing molecules acting on AD and related diseases.

Reviews citing this publication (2)

  1. Development and evolution of human glutaminyl cyclase inhibitors (QCIs): an alternative promising approach for disease-modifying treatment of Alzheimer's disease. Chen D, Chen Q, Qin X, Tong P, Peng L, Zhang T, Xia C. Front Aging Neurosci 15 1209863 (2023)
  2. New hope for tumor immunotherapy: the macrophage-related "do not eat me" signaling pathway. Deng H, Wang G, Zhao S, Tao Y, Zhang Z, Yang J, Lei Y. Front Pharmacol 14 1228962 (2023)

Articles citing this publication (3)

  1. A homogeneous SIRPα-CD47 cell-based, ligand-binding assay: Utility for small molecule drug development in immuno-oncology. Burgess TL, Amason JD, Rubin JS, Duveau DY, Lamy L, Roberts DD, Farrell CL, Inglese J, Thomas CJ, Miller TW. PLoS One 15 e0226661 (2020)
  2. In vitro and in silico determination of glutaminyl cyclase inhibitors. Tran PT, Hoang VH, Lee J, Hien TTT, Tung NT, Ngo ST. RSC Adv 9 29619-29627 (2019)
  3. Enhancement of epidermal growth factor receptor antibody tumor immunotherapy by glutaminyl cyclase inhibition to interfere with CD47/signal regulatory protein alpha interactions. Baumann N, Rösner T, Jansen JHM, Chan C, Marie Eichholz K, Klausz K, Winterberg D, Müller K, Humpe A, Burger R, Peipp M, Schewe DM, Kellner C, Leusen JHW, Valerius T. Cancer Sci 112 3029-3040 (2021)


Quick links