摘要
The development of small molecule nerve growth factor (NGF) mimetics is a promising approach to overcome limitations in the use of the neurotrophin as a drug, which are poor pharmacokinetics and undesirable side effects. We designed dimeric dipeptide called GK-2 (bis(N-succinyl-L-glutamyl-L-lysine)hexametylendiamide) on the base of beta-turn sequence of NGF loop4 which most exposed to solvent and hence can play the major role in the interaction of NGF with the receptor. It was shown, that GK-2 stimulates phosphorylation of TrkA receptor, selectively activates PI3K/Akt signaling cascade that is important for cell survival, and does not activate MAPK/Erk pathway, associated not only with cell survival but also with cell differentiation. According to these data, GK-2 in vitro prevented H2O2- or MPTP- or glutamate-induced neuronal cell death at nanomolar concentrations, but did not provoke neurite outgrowth in PC12 cells. In vivo GK-2 exhibits therapeutic effects in models of Parkinson’s disease, Alzheimer’s disease, brain ischemia and diabetes mellitus. GK-2 shows activity in doses 0.01 - 5 mg/kg intraperitoneally and retains the activity after oral administration in dose 10 mg/kg. GK-2 has no side effects accompanying NGF treatment namely hyperalgesia and weight loss. Thus, the designed dimeric substituted dipeptide provides promising drug candidate and a molecular tool for investigating the possibility of divergence in NGF therapeutic and adverse effects.
The development of small molecule nerve growth factor (NGF) mimetics is a promising approach to overcome limitations in the use of the neurotrophin as a drug, which are poor pharmacokinetics and undesirable side effects. We designed dimeric dipeptide called GK-2 (bis(N-succinyl-L-glutamyl-L-lysine)hexametylendiamide) on the base of beta-turn sequence of NGF loop4 which most exposed to solvent and hence can play the major role in the interaction of NGF with the receptor. It was shown, that GK-2 stimulates phosphorylation of TrkA receptor, selectively activates PI3K/Akt signaling cascade that is important for cell survival, and does not activate MAPK/Erk pathway, associated not only with cell survival but also with cell differentiation. According to these data, GK-2 in vitro prevented H2O2- or MPTP- or glutamate-induced neuronal cell death at nanomolar concentrations, but did not provoke neurite outgrowth in PC12 cells. In vivo GK-2 exhibits therapeutic effects in models of Parkinson’s disease, Alzheimer’s disease, brain ischemia and diabetes mellitus. GK-2 shows activity in doses 0.01 - 5 mg/kg intraperitoneally and retains the activity after oral administration in dose 10 mg/kg. GK-2 has no side effects accompanying NGF treatment namely hyperalgesia and weight loss. Thus, the designed dimeric substituted dipeptide provides promising drug candidate and a molecular tool for investigating the possibility of divergence in NGF therapeutic and adverse effects.
