RESUMO
Epilepsy is a disorder of the brain charac-terized by abnormal neuron excitability.However,the underlying molecular mechanism of neuron excitability modulation remains elusive.With the help of bioinformatic methods,we have identified receptor-type tyrosine-pro-tein phosphatase-like N(PTPRN)as a critical gene dur-ing epileptogenesis.PTPRN recruits NEDD4L ubiquitin E3 ligase to NaV1.2 sodium channels,facilitating NEDD4L-mediated ubiquitination and endocytosis.Knockout of PTPRN endows hippocampal granule cells with augmented depolarization currents and higher intrinsic excitability,which is reflected by increased seizure susceptibility of transgenic mice.On the contrary,reduced neuron excit-ability and decreased seizure susceptibility are observed after PTPRN overexpression.Meanwhile,we find that a 133 aa fragment recaptures modulation effect of PTPRN full-length,and this fragment shows therapeutic potential towards epilepsy caused by NaV1.2 gain of function vari-ants.In brief,our results demonstrate PTPRN playsa criti-calroleinregulatingneuronexcitability,providing a poten-tial therapeutic approach for epilepsy.
RESUMO
Substances addiction is one of the important factors that deeply affect human health.At present, there is still lack of effective treatment drugs in the clinic.Exploring mechanisms of substances addiction, finding new therapeutic targets and developing effective therapeutic drugs are important issues to be solved.Hyperpolarization-activated cyclic nucleotide gated cation channels (HCN channels) participate in many advanced brain activities and are closely related to the occurrence and progression of various brain diseases.Among them, the researches on the role and mechanism of HCN channels in substances addiction are gradually gaining attention.Reviewing the researches regarding substances addiction, abnormal function and abnormal expression of HCN channels were observed in many brain regions under the condition of psychoactive substances addiction.However, it has not yet been able to fully understand the mechanism and the behavioral consequences of this change.Therefore, we review the neurobiological mechanisms of HCN channels in substances addiction induced by opioids, cocaine, cannabis, amphetamines, alcohol and tobacco, in order to provide new ideas for the mechanism researches and treatment of substance addiction.