| Literature DB >> 31470106 |
Wei Guo1, Keliang Pang1, Yanbo Chen2, Shudan Wang1, Heng Li3, Yihua Xu1, Fang Han1, Hongyang Yao2, Hang Liu1, Vanessa Lopes-Rodrigues4, Dang Sun2, Jingyu Shao2, Jianying Shen5, Yang Dou2, Wen Zhang2, He You2, Wutian Wu6, Bai Lu7.
Abstract
While Brain-derived Neurotrophic Factor (BDNF) has long been implicated in treating neurological diseases, recombinant BDNF protein has failed in multiple clinical trials. In addition to its unstable and adhesive nature, BDNF can activate p75NTR, a receptor mediating cellular functions opposite to those of TrkB. We have now identified TrkB agonistic antibodies (TrkB-agoAbs) with several properties superior to BDNF: They exhibit blood half-life of days instead of hours, diffuse centimeters in neural tissues instead millimeters, and bind and activate TrkB, but not p75NTR. In addition, TrkB-agoAbs elicit much longer TrkB activation, reduced TrkB internalization and less intracellular degradation, compared with BDNF. More importantly, some of these TrkB-agoAbs bind TrkB epitopes distinct from that by BDNF, and work cooperatively with endogenous BDNF. Unlike BDNF, the TrkB-agoAbs exhibit a half-life of days/weeks and diffused readily in nerve tissues. We tested one of TrkB-agoAbs further and showed that it enhanced motoneuron survival in the spinal-root avulsion model for motoneuron degeneration in vivo. Thus, TrkB-agoAbs are promising drug candidates for the treatment of neural injury.Entities:
Keywords: ALS; Agonistic antibody; BDNF; Drug discovery; Monoclonal antibody; Motoneuron degeneration; Neurotrophin; Receptor tyrosine kinase; TrkB signaling; p75(NTR)
Year: 2019 PMID: 31470106 DOI: 10.1016/j.nbd.2019.104590
Source DB: PubMed Journal: Neurobiol Dis ISSN: 0969-9961 Impact factor: 5.996