A positive allosteric modulator of TRPC6 promotes neuroprotective effects in vitro
- Autores: Zernov N.I.1, Melentieva D.M.1, Ghamaryan V.S.2, Makichyan A.T.2, Hunanyan L.S.1,2, Popugaeva E.A.1
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Afiliações:
- Peter the Great St. Petersburg Polytechnic University
- Russian-Armenian University
- Edição: Volume 18, Nº 4 (2023)
- Páginas: 694-696
- Seção: Conference proceedings
- URL: https://ogarev-online.ru/2313-1829/article/view/256382
- DOI: https://doi.org/10.17816/gc623415
- ID: 256382
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Resumo
Alzheimer’s disease is a neurodegenerative disorder and the primary cause of dementia among elderly individuals. Unfortunately, there is no known cure for Alzheimer’s disease. Recently, a TRPC6-mediated intracellular signaling pathway was discovered, which plays a vital role in memory formation by regulating dendritic spine stability. Knockdown of TRPC6 expression was found to prevent store-operated calcium entry. The overexpression of TRPC6 or its pharmacological activation restores store-operated calcium entry in hippocampal neurons affected by Alzheimer’s disease [1, 2]. TRPC6 overexpression rescues mushroom spine loss in presenilin and APP knock-in mouse models of Alzheimer’s disease [1] and protects neurons from ischemic brain damage. Mice that overexpress TRPC6 in the brain exhibit improved cognitive function and increased excitatory synapse formation. These findings propose TRPC6 as a promising molecular target for the treatment of synaptic deficiency. We recently demonstrated that compound 51164 (N-(2-chlorophenyl)-2-(4-phenylpiperazine-1-yl) acetamide), a piperazine derivative, enhances TRPC6 channels and induces an upregulation of postsynaptic neuronal store-operated calcium entry. Furthermore, it increases mushroom spine percentage and recovers synaptic plasticity in mouse models of Alzheimer’s disease that have an amyloidogenic nature [2]. However, additional investigations of 51164 have demonstrated that the compound is unstable in plasma and cannot penetrate the blood-brain barrier (unpublished data). As such, the aim of this study is to discover a new piperazine derivative that functions as a positive modulator for TRPC6-specific and showcases neuroprotective qualities.
In this study, we present in silico and in vitro investigations of a novel TRPC6 specific modulator. Based on our in silico research, we narrowed down the selection to 14 compounds through the piperazine derivative 51164 that met all drug-lead likeness criteria and showed a high affinity for the active center of TRPC6. Calcium imaging technique was usedto establish that the compound z12_30 triggered the activation of TRPC6 but not the structurally linked TRPC3 channel. In addition, a molecular dynamics approach revealed that z12_30 forms a stable complex with the TRPC6 active site. As a result, z12_30 was selected as the lead compound for further investigation. Studies showed that z12_30 safeguards hippocampal mushroom spines from amyloid toxicity in vitro and effectively restores synaptic plasticity in brain slices from aged 5xFAD mice. Preclinical trials demonstrate that z12_30 remains stable in both human and mouse plasma samples.
We suggest that z12_30 is a promising prototype of a TRPC6-selective drug suitable for treating synaptic deficiency in hippocampal neurons affected by Alzheimer’s disease.
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Alzheimer’s disease is a neurodegenerative disorder and the primary cause of dementia among elderly individuals. Unfortunately, there is no known cure for Alzheimer’s disease. Recently, a TRPC6-mediated intracellular signaling pathway was discovered, which plays a vital role in memory formation by regulating dendritic spine stability. Knockdown of TRPC6 expression was found to prevent store-operated calcium entry. The overexpression of TRPC6 or its pharmacological activation restores store-operated calcium entry in hippocampal neurons affected by Alzheimer’s disease [1, 2]. TRPC6 overexpression rescues mushroom spine loss in presenilin and APP knock-in mouse models of Alzheimer’s disease [1] and protects neurons from ischemic brain damage. Mice that overexpress TRPC6 in the brain exhibit improved cognitive function and increased excitatory synapse formation. These findings propose TRPC6 as a promising molecular target for the treatment of synaptic deficiency. We recently demonstrated that compound 51164 (N-(2-chlorophenyl)-2-(4-phenylpiperazine-1-yl) acetamide), a piperazine derivative, enhances TRPC6 channels and induces an upregulation of postsynaptic neuronal store-operated calcium entry. Furthermore, it increases mushroom spine percentage and recovers synaptic plasticity in mouse models of Alzheimer’s disease that have an amyloidogenic nature [2]. However, additional investigations of 51164 have demonstrated that the compound is unstable in plasma and cannot penetrate the blood-brain barrier (unpublished data). As such, the aim of this study is to discover a new piperazine derivative that functions as a positive modulator for TRPC6-specific and showcases neuroprotective qualities.
In this study, we present in silico and in vitro investigations of a novel TRPC6 specific modulator. Based on our in silico research, we narrowed down the selection to 14 compounds through the piperazine derivative 51164 that met all drug-lead likeness criteria and showed a high affinity for the active center of TRPC6. Calcium imaging technique was usedto establish that the compound z12_30 triggered the activation of TRPC6 but not the structurally linked TRPC3 channel. In addition, a molecular dynamics approach revealed that z12_30 forms a stable complex with the TRPC6 active site. As a result, z12_30 was selected as the lead compound for further investigation. Studies showed that z12_30 safeguards hippocampal mushroom spines from amyloid toxicity in vitro and effectively restores synaptic plasticity in brain slices from aged 5xFAD mice. Preclinical trials demonstrate that z12_30 remains stable in both human and mouse plasma samples.
We suggest that z12_30 is a promising prototype of a TRPC6-selective drug suitable for treating synaptic deficiency in hippocampal neurons affected by Alzheimer’s disease.
ADDITIONAL INFORMATION
Funding sources. This research was funded by the Russian Science Foundation, grant No. 20-75-10026.
Sobre autores
N. Zernov
Peter the Great St. Petersburg Polytechnic University
Autor responsável pela correspondência
Email: quakenbush97@gmail.com
Rússia, Saint Petersburg
D. Melentieva
Peter the Great St. Petersburg Polytechnic University
Email: quakenbush97@gmail.com
Rússia, Saint Petersburg
V. Ghamaryan
Russian-Armenian University
Email: quakenbush97@gmail.com
Armênia, Yerevan
A. Makichyan
Russian-Armenian University
Email: quakenbush97@gmail.com
Armênia, Yerevan
L. Hunanyan
Peter the Great St. Petersburg Polytechnic University; Russian-Armenian University
Email: quakenbush97@gmail.com
Rússia, Saint Petersburg; Yerevan, Armenia
E. Popugaeva
Peter the Great St. Petersburg Polytechnic University
Email: quakenbush97@gmail.com
Rússia, Saint Petersburg
Bibliografia
- Zhang H, Sun S, Wu L, et al. Store-Operated Calcium Channel Complex in Postsynaptic Spines: A New Therapeutic Target for Alzheimer’s Disease Treatment. Journal of Neuroscience. 2016;36(47):11837–11850. doi: 10.1523/JNEUROSCI.1188-16.2016
- Popugaeva E, Chernyuk D, Zhang H, et al. Derivatives of Piperazines as Potential Therapeutic Agents for Alzheimer’s Disease. Molecular Pharmacology. 2019;95(4):337–348. doi: 10.1124/mol.118.114348
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