Netrin-G2 is a membrane-anchored protein known to play critical roles in neuronal circuit development and synaptic organization.In this study,we identify compound heterozygous mutations of c.547delC p.(Arg183Alafs*186...Netrin-G2 is a membrane-anchored protein known to play critical roles in neuronal circuit development and synaptic organization.In this study,we identify compound heterozygous mutations of c.547delC p.(Arg183Alafs*186)and c.605G>A,p.(Trp202X)in NTNG2 causing a syndrome exhibiting developmenta delay,intellectual disability,hypotonia,and facial dysmorphism.To elucidate the underlying cellular and molecular mechanisms,CRISPR-Cas9 technology is employed to generate a knock-in mouse mode expressing the R183Afs and W202X mutations.We report that the Ntng2^(R183Afs/W202X)mice exhibit hypo tonia and impaired learning and memory.We find that the levels of CaMKII and p-GluA1^(Ser831)are decreased,and excitatory postsynaptic transmission and long-term potentiation are impaired.To increase the activity of CaMKII,the mutant mice receive intraperitoneal injections of DCP-LA,a CaMKII agonist,and show improved cognitive function.Together,our findings reveal molecular mechanisms of how NTNG2deficiency leads to impairments of cognitive ability and synaptic plasticity.展开更多
基金National Key R&D Program of China(2022YFC2703400 to Y.G.Y.)National Natural Science Foundation of China(82001209 to S.S.D.,82271904 and 82070914 to Y.G.Y.)+2 种基金Shanghai Municipal Commission of Health and Family Planning(20204Y0451 to S.S.D.)Shanghai Scientific and Technological Innovation Action Plan(20YF1440600 to S.S.D.)Shanghai Natural Science Foundation of China(21ZR1452700 to Y.K.Z.)。
文摘Netrin-G2 is a membrane-anchored protein known to play critical roles in neuronal circuit development and synaptic organization.In this study,we identify compound heterozygous mutations of c.547delC p.(Arg183Alafs*186)and c.605G>A,p.(Trp202X)in NTNG2 causing a syndrome exhibiting developmenta delay,intellectual disability,hypotonia,and facial dysmorphism.To elucidate the underlying cellular and molecular mechanisms,CRISPR-Cas9 technology is employed to generate a knock-in mouse mode expressing the R183Afs and W202X mutations.We report that the Ntng2^(R183Afs/W202X)mice exhibit hypo tonia and impaired learning and memory.We find that the levels of CaMKII and p-GluA1^(Ser831)are decreased,and excitatory postsynaptic transmission and long-term potentiation are impaired.To increase the activity of CaMKII,the mutant mice receive intraperitoneal injections of DCP-LA,a CaMKII agonist,and show improved cognitive function.Together,our findings reveal molecular mechanisms of how NTNG2deficiency leads to impairments of cognitive ability and synaptic plasticity.
