A peptide blocking the ADORA1-neurabin interaction is anticonvulsant and inhibits epilepsy in an Alzheimer’s model
Shalini Saggu, Yunjia Chen, Liping Chen, Diana Pizarro, Sandipan Pati, Wen Jing Law, Lori McMahon, Kai Jiao, Qin Wang
Shalini Saggu, Yunjia Chen, Liping Chen, Diana Pizarro, Sandipan Pati, Wen Jing Law, Lori McMahon, Kai Jiao, Qin Wang
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Research Article Neuroscience Therapeutics

A peptide blocking the ADORA1-neurabin interaction is anticonvulsant and inhibits epilepsy in an Alzheimer’s model

Abstract

Epileptic seizures are common sequelae of stroke, acute brain injury, and chronic neurodegenerative diseases, including Alzheimer’s disease (AD), and cannot be effectively controlled in approximately 40% of patients, necessitating the development of novel therapeutic agents. Activation of the A1 receptor (A1R) by endogenous adenosine is an intrinsic mechanism to self-terminate seizures and protect neurons from excitotoxicity. However, targeting A1R for neurological disorders has been hindered by side effects associated with its broad expression outside the nervous system. Here we aim to target the neural-specific A1R/neurabin/regulator of G protein signaling 4 (A1R/neurabin/RGS4) complex that dictates A1R signaling strength and response outcome in the brain. We developed a peptide that blocks the A1R-neurabin interaction to enhance A1R activity. Intracerebroventricular or i.n. administration of this peptide shows marked protection against kainate-induced seizures and neuronal death. Furthermore, in an AD mouse model with spontaneous seizures, nasal delivery of this blocking peptide reduces epileptic spike frequency. Significantly, the anticonvulsant and neuroprotective effects of this peptide are achieved through enhanced A1R function in response to endogenous adenosine in the brain, thus, avoiding side effects associated with A1R activation in peripheral tissues and organs. Our study informs potentially new anti-seizure therapy applicable to epilepsy and other neurological illness with comorbid seizures.

Authors

Shalini Saggu, Yunjia Chen, Liping Chen, Diana Pizarro, Sandipan Pati, Wen Jing Law, Lori McMahon, Kai Jiao, Qin Wang

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Figure 4

The A1R-CT peptide blocks the A1R-neurabin interaction and restores A1R-mediated signaling in the presence of neurabin.

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The A1R-CT peptide blocks the A1R-neurabin interaction and restores A1R-...
(A) Competition pull-down assays testing the abilities of A1R 3i loop (3iL) and CT peptides in blocking the interaction between GST-Nrb331-453 and [35S]-labeled A1R202-326. Representative autoradiograph and Coomassie staining are shown. (B) Quantitation of the amount of [35S]A1R202-326 pulled down by GST-Nrb331-453. Free probe represents 1/10 of the input in each reaction. *P < 0.05 versus BSA control by 1-way ANOVA Dunnett’s multiple comparisons test. n = 3/group. (C) Expression of GFP-CT abolished agonist-induced interaction between neurabin and A1R in intact cells. Representative Western blots are shown. (D) Quantitation of the change of neurabin in the IP complex with HA-A1R. **P < 0.01; ns, no significance, R-PIA versus vehicle by 2-way ANOVA Sidak’s multiple comparisons test. n = 3/group. (E) Expression of GFP-CT restored A1R-mediated inhibition of cAMP production in the presence of neurabin expression. Cells stably expressing HA-A1R were cotransfected with vectors encoding indicated proteins. Vec, empty vector. Cells were treated with 10 μM forskolin alone or forskolin plus 1 μM R-PIA. Data are expressed as fold change in cAMP production over forskolin alone control. ***P < 0.001; ****P < 0.0001; forskolin+R-PIA versus forskolin by 2-way ANOVA Sidak’s multiple comparisons test. n = 6 for forskolin and n = 7 for forskolin+R-PIA in each set. (F) Expression of GFP-CT does not alter the cell surface level of A1R. n = 4/group. (G) Expression of GFP-CT enhances A1R-mediated Akt activation. Cells stably expressing HA-A1R with GFP or GFP-CT were stimulated with vehicle or 1 μM R-PIA. Representative blots are shown. (H) Quantitation of pAkt activation. The quantitative value of pAkt was normalized by that of Akt blotted on the same gel or on a separate gel that was run in parallel contemporaneously. **P < 0.01 by 2-tailed Student’s t test. n = 4/group. Error bars represent mean ± SEM.