A Novel Dimeric Dipeptide Mimetic of the Nerve Growth Factor Exhibits Pharmacological Effects upon Systemic Administration and Has No Side Effects Accompanying the Neurotrophin Treatment

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.

Dimeric Dipeptide Mimetics of NGF and BDNF Are Promising Agents for Post-Stroke Therapy

The dimeric dipeptide mimetics of the brain derived neurotrophic factor (BDNF) loops 1 and 4 and nerve growth factor (NGF) loop 4 were designed and synthesized at the Zakusov Research Institute of Pharmacology. There are respectively bis-(N-monosuccinyl-L-methionyl-L-serine) heptamethylenediamide(GSB-214), bis-(N-monosuccinyl-L-seryl-L-lysine) hexamethylenediamide (GSB-106) and bis-(N-monosuccinyl-L-glutamyl-L-lysine) hexamethylenediamide (GK-2). All of the ob-tained compounds activated a corresponding specific NGF or BDNF tyrosine kinase receptor (TrkA or TrkB), but had different postreceptor signaling patterns. GSB-106 activated the ERK and AKT, whereas GSB-214 and GK-2 only activated the AKT kinase. Here we report a comparative analysis of neuroprotective activity of these dipeptides in a model of ischemic stroke induced by transient middle cerebral artery occlusion (MCAO). The all three dimeric dipeptides showed a statistically significant decrease of infarct volumes with the treatment beginning 4 hour after surgery. In the experiment with BDNF mimetics, GSB-106 reduced this volume by 66% and GSB-214 by 26%. NGF GK-2 reduced the cerebral infarct volume by 45%. Thus, BDNF mimetic, which activated both the ERK and AKT, and NGF mimetic, which selectively activated PI3K/AKT, showed high neuroprotective efficacy. In addition, we studied neuroprotective effects of GK-2 at the beginning of the treatment 6, 8 and 24 hours after reperfusion. The neuroprotective effect of GK-2 persisted in all these conditions. The effectiveness of GK-2 at a delayed start of administration suggests that the dipeptide has neuroregenerative properties. The results obtained suggest a potential role for the dimeric dipeptide NGF and BDNF mimetics as therapeutic agents useful in the treatment of a stroke.

Transcriptomics and Proteomics in the Study of H1N1 2009

Influenza A virus (H1N1) 2009, a new swine-origin influenza A virus, has been spread worldwidely and caused great public fear. High-throughput transcriptomics and proteomics methods are now being used to identify H1N1 and H1N1-host interaction. This article reviews recent transcriptomics and proteomics research in H1N1 diagnosis, treatment, and H1N1 virus-host interaction, to offer some help for further understanding the infection mechanism and controlling H1N1 transmission.

Host Proteome Research in HIV Infection

Proteomics has been widely used in the last few years to look for new biomarkers and decipher the mechanism of HIV-host interaction.Herein,we review the recent developments of HIV/AIDS proteomic research,including the samples used in HIV/AIDS related research,the technologies used for proteomic study,the diagnosis biomarkers of HIV-associated disease especially HIV-associated neurocognitive impairment,the mechanisms of HIV-host interaction,HIV-associated dementia,substance abuse,and so on.In the end of this review,we also give some prospects about the limitation and future improvement of HIV/AIDS proteomic research.