miR-128 regulates epilepsy sensitivity in mice by suppressing SNAP-25 and SYT1 expression in the hippocampus.

Epilepsy is accompanied by abnormal neurotransmission, and microRNAs, as versatile players in the modulation of gene expression, are important in epilepsy pathology. Here, we found that miR-128 expression was elevated in the acute seizure phase and decreased during the recurrent seizure phase after status epilepticus in mice. Both SNAP-25 and SYT1 are regulated by miR-128 in vitro and in vivo. Overexpressing miR-128 in cultured neurons decreased neurotransmitter released by suppressing SNAP-25 and SYT1 expression. Anti-miR-128 injection before kainic acid (KA) injection increased the sensitivity of mice to KA-induced seizures, while overexpressing miR-128 at the latent and recurrent phases had a neuroprotective effect in KA-induced seizures. Our study shows for the first time that miR-128, a key regulator of neurotransmission, plays an important role in epilepsy pathology and that miR-128 might be a potential candidate molecular target for epilepsy therapy.

Dendritic targeted mRNA expression via a cis-acting RNA UTR element.

Local translation in neurites is considered as an important mechanism to modulate synaptic plasticity of neurons. However, it is hard to specifically express a protein-coding gene in neurites. Recently, the 5'-UTR of Tick-borne encephalitis virus (TBEV) is reported to be able to drive its RNA to the dendrites of infected neurons, as a cis-acting RNA element. To construct a neurite specific gene expression system, present study tested the ability of 5'-UTR of TBEV to bring a mRNA (mCherry CDS) to the neurites for targeted expression. We showed that both the 5'-UTR of TBEV and the 3'-UTR of Actb gene could bring the protein coding mRNA to neurites, and the TBEV 5'-UTR bearing mRNA was more robust targeted into neurites. About the safety of the TBEV 5'-UTR, there was no obvious cytotoxicity to the neurons when adding either cis-acting RNA element to the protein-expressing plasmid vectors. Given the short length and high efficiency of the TBEV 5'-UTR, the 5'-UTR of TBEV were assemble into an AAV plasmid to produce virus particles for expressing protein-coding gene in vivo. After two weeks infection, the TBEV 5'-UTR infected neurons expressed more mCherry protein in their neurites. In conclusion, as a short while high efficient cis-acting RNA element, TBEV 5'-UTR could be useful in neural system research and locally express synaptic proteins more precisely.

Oxytocinergic neurons, but not oxytocin, are crucial for male penile erection.

The cumulative evidence suggests that oxytocin is involved in the male sexual behaviors. However, no significant sexual impairments were observed in oxytocin gene knock-out (KO) mice, suggesting that oxytocin is not necessary for sexual behavior in male mice. To better understand the role of oxytocin in male erection, two types of oxytocin gene KO mice were created. In the first type, the oxytocin gene was deleted in the zygote, while in the second type, the oxytocin gene was mutated in adulthood by injecting the CRISPR/Cas9 AAVs. The results showed that disrupting the oxytocin gene at either the embryonic or adult stage did not affect erection, indicating that oxytocin is not necessary for penile erection. Pharmacologically, injecting oxytocin receptor agonist Carbetocin into the VTA of the oxytocin gene KO mice still evoked penile erection. By employing the Oxt-Ires-Cre mice, we found that specifically activating oxytocinergic neurons through chemogenetics strongly induced penile erection, while inhibiting these neurons blocked the erection responses. Furthermore, ablating PVN oxytocinergic neurons abolished the male erection response. In conclusion, although the neuropeptide oxytocin is not essential for male erection, the activity of oxytocinergic neurons is required. Our results might reflect the redundancy in the central nerve system in the sense that many signals contribute to the activation of oxytocinergic neurons to evoke penile erection during sexual behaviors.