Rare SHANK2 deletions have been identified in ASD cases, but not in controls (PMIDs 20473310, 20531469, 22346768); all SHANK2 deletions were de novo in origin and were predicted to disrupt coding exons , although a meta-analysis failed to reach statistical significance (P=0.076) (PMID 25188300). De novo LoF variants in SHANK2 have been identified in simplex ASD cases that were not observed in controls (PMIDs 20473310, 22495306, 31981491). Rare coding-sequence variants in SHANK2 affecting conserved amino acids/predicted to be damaging have been shown to be statistically enriched in ASD cases vs. controls (PMIDs 22346768, 25188300); many of these variants have been found to have functional consequences in neuronal cell cultures (PMIDs 21994763, 22346768). Mice deficient in SHANK2 exhibit hyperactivity and autistic behaviors, such repetitive grooming and abnormalities in vocal and social behavior (PMID 22699619). Integrated Transmission and De Novo Association (TADA) analysis of small de novo deletions and exome mutations from the Simons Simplex Collection, the Autism Sequencing Consortium, and the Autism Genome Project identified SHANK2 as a ASD risk gene with a false discovery rate (FDR) 0.01 (Sanders et al., 2015); a false discovery rate (FDR) 0.01 for SHANK2 was replicated following TADA analysis of de novo variants from the Simons Simplex Collection and the Autism Sequencing Consortium and protein-truncating variants from iPSYCH in Satterstrom et al., 2020. Analysis of cortical neurons from induced pluripotent stem cells derived from two ASD probands with de novo mutations in SHANK2 that were originally reported in Berkel et al., 2010 demonstrated increases in dendritic length and complexity, synapse number, and frequency of spontaneous excitatory postsynaptic currents compared to controls (Zaslavsky et al., 2019). A two-stage analysis of rare de novo and inherited coding variants in 42,607 ASD cases, including 35,130 new cases from the SPARK cohort, in Zhou et al., 2022 identified SHANK2 as a gene reaching exome-wide significance (P < 2.5E-06). Hassani Nia et al., 2022 described a 17-year-old German male with a de novo missense variant in the SHANK2 gene (NM_012309.5:c.1927G>C;p.Gly643Arg) who presented with autism spectrum disorder, intellectual disability, and epilepsy; functional assessment demonstrated that this variant reduced post-synaptic targeting of Shank2 in primary cultured neurons, altered glutamatergic synaptic transmission, and interfered with the formation of post-synaptic clusters.
Molecular Function
Shank proteins contain multiple domains for protein-protein interactions and function as molecular scaffolds in the postsynaptic density (PSD).
External Links
References
Type
Title
Type of Disorder
Associated Disorders
Author, Year
Primary
Mutations in the SHANK2 synaptic scaffolding gene in autism spectrum disorder and mental retardation.
134 Chinese male ASD probands and a control cohort of 232 typically developing Chinese boys and 256 pseudo-controls constructed from genotyping data from 256 family trios
298 Chinese male ADHD probands and a control cohort of 232 typically developing Chinese boys and 256 pseudo-controls constructed from genotyping data from 256 family trios
298 Chinese male ADHD probands and a control cohort of 232 typically developing Chinese boys and 256 pseudo-controls constructed from genotyping data from 256 family trios
298 Chinese male ADHD probands and a control cohort of 232 typically developing Chinese boys and 256 pseudo-controls constructed from genotyping data from 256 family trios
298 Chinese male ADHD probands and a control cohort of 232 typically developing Chinese boys and 256 pseudo-controls constructed from genotyping data from 256 family trios
Gene Name: SH3 and multiple ankyrin repeat domains 2
Aliases: SH3 and multiple ankyrin repeat domains protein 2; cortBP1; cortactin-binding protein 1
Human Ortholog: SHANK2
Summary Statistics:
# of Reports: 9
# of Models: 24
Learning and reaction times in mouse touchscreen tests are differentially impacted by mutations in genes encoding postsynaptic interacting proteins SYNGAP1, NLGN3, DLGAP1, DLGAP2 and SHANK2
Model Type:
Genetic
Model Genotype:
Homozygous
Mutation:
Homologous recombination mediated deletion of exon 7 of Shank2 gene.
Allele Type: Targeted (Knockout)
Strain of Origin: C57BL/6
Genetic Background: Not Specified
ES Cell Line: RI
Mutant ES Cell Line: Not specified
Model Source: Not specified
Model Type:
Genetic
Model Genotype:
Heterozygous
Mutation:
Homologous recombination mediated deletion of exon 7 of Shank2 gene.
Allele Type: Targeted (Knockout)
Strain of Origin: C57BL/6
Genetic Background: Not Specified
ES Cell Line: RI
Mutant ES Cell Line: Not specified
Model Source: Not specified
Model Type:
Genetic
Model Genotype:
Homozygous
Mutation:
Targeted deletion of exons 6 and 7 and a frame shift of Shank2 gene.
Allele Type: Targeted (Knockout)
Strain of Origin: 129S4/SvJae
Genetic Background: C57BL/6*129S4
ES Cell Line: J1
Mutant ES Cell Line: Not specified
Model Source: Not specified
Model Type:
Genetic
Model Genotype:
Heterozygous
Mutation:
Targeted deletion of exons 6 and 7 and a frame shift of Shank2 gene.
Allele Type: Targeted (Knockout)
Strain of Origin: Not specified
Genetic Background: Not Specified
ES Cell Line: Not specified
Mutant ES Cell Line: Not specified
Model Source: Not specified
Model Type:
Genetic
Model Genotype:
Homozygous
Mutation:
Mice homozygous for the targeted deletion of exons 6 and 7 causing a frame shift of Shank2 gene were backcrossed to a C57BL/6 background for more than 20 generations.
Allele Type: Targeted (Knockout)
Strain of Origin: 129S4/SvJae
Genetic Background: C57BL/6
ES Cell Line: J1
Mutant ES Cell Line: Model Source:
Model Type:
Genetic
Model Genotype:
Heterozygous
Mutation:
Shank2 KO mice with deleted exons 6 and 7 on a mixed background of 46 % C57Bl/6J and 54 % C57Bl/6N.
Allele Type: Targeted
Strain of Origin: C57Bl/6N
Genetic Background: C57Bl/6J * C57Bl/6N
ES Cell Line: Unreported
Mutant ES Cell Line: Unreported
Model Source: Seoul National University
Model Type:
Genetic
Model Genotype:
Heterozygous
Mutation:
Shank2 KO mice with deleted exon 7 on a mixed background of 75 % C57Bl/6J and 25 % C57Bl/6N.
Allele Type: Targeted
Strain of Origin: C57Bl/6J
Genetic Background: C57Bl/6J * C57Bl/6N
ES Cell Line: Unreported
Mutant ES Cell Line: Unreported
Model Source: Seoul National University
Model Type:
Genetic
Model Genotype:
Homozygous
Mutation:
Conditional deletion of exons 6 and 7 of the Shank2 gene using L7-cre, in the Purkinje cells of the cerebellum
Allele Type: Conditional loss-of-function
Strain of Origin: C57BL/6J
Genetic Background: C57BL/6J
ES Cell Line: J1
Mutant ES Cell Line: Not specified
Model Source: Biocytogen
Model Type:
Genetic
Model Genotype:
Homozygous
Mutation:
Conditional deletion of exons 6-7 of the Shank2 gene using Pvalb-cre, in parvalbumin expressing interneurons
Allele Type: Conditional loss-of-function
Strain of Origin: C57BL/6J
Genetic Background: C57BL/6J*129P2/OlaHsd
ES Cell Line: Not specified
Mutant ES Cell Line: Not specified
Model Source: 27903723; JacksonLaboratory, #8069 (Pv-Cre): B6;129P2-Pvalb^tm1(cre)Arbr/J
Model Type:
Genetic
Model Genotype:
Homozygous
Mutation:
Mice homozygous for targeted deletion of exon 24.
Allele Type: Targeted (Knockout)
Strain of Origin: Not specified
Genetic Background: Not specified
ES Cell Line: Not specified
Mutant ES Cell Line: Model Source: Duke University, PMID 29046483
Model Type:
Genetic
Model Genotype:
Homozygous
Mutation:
Mice homozygous for the targeted deletion of exons 6 and 7 causing a frame shift of Shank2 gene were backcrossed to a C57BL/6 background for more than 20 generations.
Allele Type: Targeted (Knockout)
Strain of Origin: 129S4/SvJae
Genetic Background: C57BL/6J
ES Cell Line: J1
Mutant ES Cell Line: Model Source: Korea Advanced Institute of Science and Technology (KAIST)
Model Type:
Genetic LOF
Model Genotype:
Homozygous
Mutation:
Targeted homologous recombination replaced most of shank2 exon 11 with a selection cassette in mutant mice and created a frameshift between exons 11 and 12. 1.1kb of shank2 genomic dna (x144179906 to x144180964; ensemble build 75) was replaced with ires-lacz-neo cassette.
Allele Type: Knockout
Strain of Origin: 129 S5*C57BL/6J
Genetic Background: 129 S5*C57BL/6J
ES Cell Line: E14TG2a
Mutant ES Cell Line: E14TG2a
Model Source: University of Edinburgh
Model Type:
Genetic LOF
Model Genotype:
Heterozygous
Mutation:
Targeted homologous recombination replaced most of Shank2 exon 11 with a selection cassette in mutant mice and created a frameshift between exons 11 and 12.
Allele Type: knockout
Strain of Origin: 129 S5*C57BL/6J
Genetic Background: 129 S5*C57BL/6J
ES Cell Line: E14TG2a
Mutant ES Cell Line: E14TG2a
Model Source: University of Edinburgh
Description: Increased locomotor activity as measured by distance traveled and number of transitions
Exp Paradigm: Open field test, 3 chamber test, y maze test
Description: Mutants show increased expression of cell surface glun1 compared to controls, in the hippocampus. mutants show no change in the total expression of analyzed recpetors.
Exp Paradigm: NA
Description: Mutants show decreased cell surface mglur5 in the hippocampus, and glua2 in the cerebellum, compared to controls. mutants show no change in the total expression of analyzed recpetors.
Exp Paradigm: NA
Description: Mutants show decreased cell surface gaba(a)-ra1 in the thalamus compared to controls. mutants show no change in the total expression of analyzed recpetors.
Exp Paradigm: NA
Description: Mutants show reduced expression of cell surface glun1 compared to controls, in the striatum, cortex, and thalamus. mutants show no change in the total expression of analyzed recpetors.
Exp Paradigm: NA
Synaptic neuroreceptor ratio (nmdar/ampar) dependent transmission3
Increased
Description: Mutants show increase in nmda/ampa ratio at schaffer collateral-ca1 pyramidal synapses at 3-4 weeks but not at 2 weeks compared with control.
Exp Paradigm: NA
Synaptic neuroreceptor ratio (nmdar/ampar) dependent transmission1
Increased
Description: Increased nmda/ampa ratio
Exp Paradigm: Whole-cell patch clamp recordings from ca1 pyramidal cells of compound epscs were evoked at -60 and +40 mv
Description: Decreased synaptic transmission demonstrated by decreased field excitatory postsynaptic potentials (fepsps)
Exp Paradigm: Extracellular field and whole-cell patch clamp recordings from ca1 pyramidal cells in acute hippocampal slices
Miniature post synaptic current frequency: excitatory3
Decreased
Description: Mutants show decrease in mepsc frequency at schaffer collateral-ca1 pyramidal synapses at 3-4 weeks compared with controls.
Exp Paradigm: NA
Description: Increased synaptic plasticity indicated by enhanced long-term potentiation induced by hig h frequency stimulation of schaffer collaterals
Exp Paradigm: Whole-cell patch clamp recordings of long-term potentiation induced by a single tetanus of 100 pulses at 100 hz
Description: Decreased social interactions indicated by difficulty maintaining social contacts
Exp Paradigm: Free same-sex social interactions (residentintruder),
Description: Decreased social interaction indicated by increased latency for first contact
Exp Paradigm: Free interactions of a tested male mouse with an oestrus c57bl/6 female mouse
Description: Decreased ultrasonic vocalizations indicated by longer latency to emit first vocalization, fewer vocalization plus short and unstructured calls during female-female interactions
Exp Paradigm: Ultrasonic vocalization (usv) during female-female free interaction
Description: Decreased ultrasonic vocalizations indicated by longer latency to emit first vocalization as well as short and unstructured calls during male-esterous female interactions
Exp Paradigm: Ultrasonic vocalization (usv) during male-esterous female free interaction
Description: Increased anxiety demonstrated by decreased latency to enter and increased proportion time spent in dark compartment
Exp Paradigm: Light-dark box test
Description: Shank2 homozygous knockout mice show reduced motor coordination measured by an increased frequency of missteps, compared with wildtype mice.
Exp Paradigm: Males only.
Description: Shank2 homozygous knockout mice show altered contact and alignment of the postsynaptic density with presynaptic axon terminals, and decreased density of excitatory synapses, compared to wild type controls.
Exp Paradigm: Altered synaptic alignment was measured by number of free spines that were not in close contact with the presynaptic nerve terminals and number of mismatched excitatory synapses, in which the postsynaptic density was misaligned with the presynaptic nerve terminal.
Description: Decreased long-term depression (ltd) induced by low-frequency stimulation at sc-ca1 synapses
Exp Paradigm: Extracellular recordings at hippocampal schaffer-collateral-ca1-pyramidal synapses of ltd induced by dhpg
Miniature post synaptic current frequency: excitatory2
Decreased
Description: Shank2 homozygous knockout mice show reduced frequency of mepsps compared to wild type control mice.
Exp Paradigm: Males and females tested.
Description: Decreased social interaction demonstrated by decreased preference to explore novel mouse over inanimate object
Exp Paradigm: Three-chambered social interaction assay between novel mouse and inanimate object
Description: Decreased ultrasonic vocalizations as indicated by longer latency and lower frequency of calls
Exp Paradigm: Ultrasonic vocalization (usv) during interaction of male with novel female
Description: Increased anxiety shown by decreased time spent in open arms, increased time spent in closed arms, and increased number of closed, but not open, arm entries
Exp Paradigm: Elevated plus maze test
Description: Decreased spatial learning as indicated by reduced amount of time in target quadrant and less frequency of crossing platform area
Exp Paradigm: Morris water maze test
Description: Shank2 homozygous knockout mice show reductions in the levels of excitatory synaptic membrane proteins, including glud2, the nmda receptor subunit glun2c, and ampa receptor subunits (glua1 and glua2), compared to wild type control mice.
Exp Paradigm: Crude synaptosomal and total synaptic proteins were measured. males and females tested.
Description: Shank2 homozygous knockout mice show no expression of shank2 protein in total cerebellar lysates or cerebellar shank2 localized at the molecular cell layer of the cerebellar cortex, at parallel fiber excitatory synapses or in the dendrites of purkinje cells as seen in wild type controls.
Exp Paradigm: Calbindin was used to label purkinje cells. vglut1 and vgat were used as excitatory and inhibitory synaptic markers, respectively. males and females tested.-immunofluorescence staining
Description: Shank2 homozygous knockout mice show reductions in the levels of cytoplasmic proteins such as psd-95, psd-93, and homer, compared to wild type controls.
Exp Paradigm: Males and females tested.
Description: Shank2 homozygous knockout mice show no expression of shank2 protein in total cerebellar lysates or cerebellar shank2 localized at the molecular cell layer of the cerebellar cortex, at parallel fiber excitatory synapses or in the dendrites of purkinje cells as seen in wild type controls.
Exp Paradigm: Calbindin was used to label purkinje cells. vglut1 and vgat were used as excitatory and inhibitory synaptic markers, respectively. males and females tested.- western blot: cerebellum
Description: Shank2 homozygous knockout mice show reduced total levels of the cerebellar proteins, glud2, glua2, glua2/3, glun1, mglur1, psd93, homer, ip3r, camkiia/b, neurolignin1, vglut1, and cerebellar inhibitory synaptic proteins (gephyrin, vgat, and gad65) compared to wild type controls.
Exp Paradigm: Males and females tested.
Description: Mutants show increased brain protein levels of phosphorylated s896-glun1 and s-1303-glun2b at 2 weeks. mutants show decreased brain protein levels of phosphorylated s896-glun1 and s-1303-glun2b at 2 weeks. mutants show no change in total glun1, glun2b, glun2a, glun3a, or glun2b phosphorylated at any other residue, at 2 and 3 weeks.
Exp Paradigm: NA
Synaptic neuroreceptor ratio (nmdar/ampar) dependent transmission2
Decreased
Description: Mutants show decrease in nmda/ampa ratio at schaffer ca1 synapses and at layer ii/iii pyramidal neurons in the medial prefrontal cortex compared with controls.
Exp Paradigm: NA
Decay kinetics of miniature post synaptic currents2
Decreased
Description: Mutants show slower decay kinetics of nmdar currents and increased sensitivity of the nmdar currents to the glun2b specific inhibitor ifenprodil, compared with controls, indicating that the increased nmdar function involves mainly the glun2b subunit.
Exp Paradigm: NA
Synaptic neuroreceptor ratio (nmdar/ampar) dependent transmission2
Increased
Description: Mutants show an increase of the ratio of nmdar/ampar mediated synaptic transmission at schaffer collateral-ca1 pyramidal synapses and at layer ii/iii pyramidal neurons in the medial prefrontal cortex at p14 compared with controls.
Exp Paradigm: NA
Miniature post synaptic current frequency: excitatory2
Decreased
Description: Mutants show decreased mepsc frequency in the medial prefrontal cortex but no change in mepsc frequency in ca1 pyramidal neurons compared with controls.
Exp Paradigm: NA
Description: Mutants show increased submissiveness in urine tests compared with controls. increased submissiveness in mutants did not correlate with social interaction.
Exp Paradigm: NA
Description: Mutants show increased submissiveness in the tube test compared with controls. increased submissiveness in mutants did not correlate with social interaction.
Exp Paradigm: NA
Description: Shank 2 null mice have reduced sociabilityor preference towards a stranger mouse in the three chamber social approach test.
Exp Paradigm: NA
Description: Shank 2 null mice have increased anxiety-like behavior as they spend significantly reduced time in the center of the open field
Exp Paradigm: NA
Description: Mutants show no change in brain protein levels of phosphorylated pka compared with controls at 2 or 3 weeks. mutants show decrease in brain protein levels of pka at 2 but not 3 weeks.
Exp Paradigm: NA
Description: Mutants show increase in brain protein levels of phosphorylated erk1 at 2 but not 3 weeks. mutants show no change in total erk1, phosphorylated erk2, and total erk2 at 2 or 3 weeks. mutants show decrease in phosphorylated p38 at 3 but not 2 weeks. mutants show decrease in total p38 at 2 but not 3 weeks.
Exp Paradigm: NA
Description: Mutants show indetectable shorter shank2a splice variant and decreased levels of longer shank2b splice variant compared with controls.
Exp Paradigm: NA
Description: Mutants show increase in the brain protein levels of camkiialpha at 3 but not 2 weeks. mutants show no change in brain protein levels of phosphorylated camkiialpha or beta or total camkiibeta at 2 or 3 weeks.
Exp Paradigm: NA
Description: Mutants show 16 differentially expressed genes (degs) in the brain at p14 and 35 at p25 compared with controls. degs were associated with ribosome, translation, excitatory post synaptic compartments, excitatory synapse, postsynaptic membrane, and post synaptic density. mutants show enrichment of genes associated with nmdar activation and nmdar dependent ltp and ltd.
Exp Paradigm: NA
Description: Mutants show increase in brain levels of phosphorylated creb at 2 but not 3 weeks. mutants show no change in brain protein levels of total creb at 2 or 3 weeks compared with controls.
Exp Paradigm: NA
Description: Mutants show decreased brain protein levels of total pkcalpha at 3 but not 2 weeks. mutants show no change in brain protein levels of phosphorylated pkcalpha at 2 or 3 weeks.
Exp Paradigm: NA
Description: Shank2 exon 6-7 ko mice showed longer total distance travelled in the elevated zero-maze and open-field test, showing that the ko mice are hyperactive compared to wildtype controls
Exp Paradigm: Movement was tracked for 5 min under bright lights using ethovision 9.0, nodulus.-elevated zero maze test
Description: Shank2 exon 6-7 ko mice showed longer total distance travelled in the elevated zero-maze and open-field test, showing that the ko mice are hyperactive compared to wildtype controls
Exp Paradigm: Movement was tracked for 5 min under bright lights using ethovision 9.0, nodulus.- open field test
Description: Shank2 exon 6-7 ko mice show decreased input-output relationships of gabaergic inhibitory current and decreased inhibitory/excitatory current ratios in ca1 neurons, compared to wt littermates
Exp Paradigm: Gabaa-r mediated currents were recorded from ca1 pyramidal neurons by holding at 0mv in ap5 and cnqx-containing acsf. stimulation intensity was adjusted to obtain approximately 300 pa of gaba current.
Description: Shank2 exon 6-7 ko mice show decreased social approach measured by reduced time spent exploring a stranger mouse compared to wt littermates
Exp Paradigm: Exploration time for the cup with a block (object) and the cup with a stranger mouse (stranger) was measured.
Description: Shank2 exon 6-7 ko mice showed a significant increase in anxiety in the open field paradigm measured by increased time spent in the periphery, compared to wildtype controls.
Exp Paradigm: Movement was tracked for 5 min under bright lights using ethovision 9.0, nodulus.
Description: Shank2 exon 6-7 ko mice showed a significant deficit in spatial learning during training sessions compared to wildtype controls.
Exp Paradigm: Learning curve during 6 days of training in the morris water maze task plotted latency for mice to reach the platform.
Description: Shank2 exon 6-7 ko mice show decreased ability to find the removed platform during probe trial by swimming randomly whereas wt control mice spend more time in the target quadrant.
Exp Paradigm: Learning curve during 6 days of training in the morris water maze task plotted latency for mice to reach the platform. probe tests were performed as training trials with no platform and the mice were tracked for 60s.
Description: Shank2 exon 6-7 ko mice show reduced protein expression of gaba-a receptor alpha2 subunit in the hippocampus, compared to wt
Exp Paradigm: NA
Description: Shank2 exon 6-7 ko mice show reduced transcription of gabra5 and grin1 compared to wildtype controls.
Exp Paradigm: Total rna was extracted in trizol. raw sequence data were mapped onto the mouse genome reference mm10 using gsnap. cufflinks package was used to identify differentially expressed genes (degs, greater than 1.5 fold difference). to assess expression levels of genes, the rpkm (reads per kilobase of exon per million mapped reads) measure was calculated. panther and go were used to classify degs into functional protein classes. gapdh internal control was used in qrt-pcr.-rna sequencing: hippocampus
Description: Shank2 exon 6-7 ko mice show reduced transcription of gabra5 and grin1 compared to wildtype controls.
Exp Paradigm: Total rna was extracted in trizol. raw sequence data were mapped onto the mouse genome reference mm10 using gsnap. cufflinks package was used to identify differentially expressed genes (degs, greater than 1.5 fold difference). to assess expression levels of genes, the rpkm (reads per kilobase of exon per million mapped reads) measure was calculated. panther and go were used to classify degs into functional protein classes. gapdh internal control was used in qrt-pcr.- quantitative pcr (qrt-pcr)
Description: Shank2 exon 7 ko mice show decreased ability to find the removed platform during probe trial by swimming randomly whereas wt control mice spend more time in the target quadrant.
Exp Paradigm: Learning curve during 6 days of training in the morris water maze task plotted latency for mice to reach the platform. probe tests were performed as training trials with no platform and the mice were tracked for 60s.
Description: Shank2 exon 7 ko mice showed a significant deficit in spatial learning during training sessions compared to wildtype controls.
Exp Paradigm: Learning curve during 6 days of training in the morris water maze task plotted latency for mice to reach the platform.
Description: Shank2 exon 6-7 ko mice show increased transcription of gria1 and dlg4 compared to wildtype controls.
Exp Paradigm: Total rna was extracted in trizol. raw sequence data were mapped onto the mouse genome reference mm10 using gsnap. cufflinks package was used to identify differentially expressed genes (degs, greater than 1.5 fold difference). to assess expression levels of genes, the rpkm (reads per kilobase of exon per million mapped reads) measure was calculated. panther and go were used to classify degs into functional protein classes. gapdh internal control was used in qrt-pcr.-rna sequencing: hippocampus
Description: Shank2 exon 6-7 ko mice show increased transcription of gria1 and dlg4 compared to wildtype controls.
Exp Paradigm: Total rna was extracted in trizol. raw sequence data were mapped onto the mouse genome reference mm10 using gsnap. cufflinks package was used to identify differentially expressed genes (degs, greater than 1.5 fold difference). to assess expression levels of genes, the rpkm (reads per kilobase of exon per million mapped reads) measure was calculated. panther and go were used to classify degs into functional protein classes. gapdh internal control was used in qrt-pcr.- quantitative pcr (qrt-pcr)
Description: Shank2 conditional knockout mice show increased number of missteps and fewer normal steps compared with wildtype mice.
Exp Paradigm: Males only.
Miniature post synaptic current frequency: excitatory1
Decreased
Description: Shank2 conditional knockout mice show reduced frequency of mepsps compared to wild type control mice.
Exp Paradigm: Males and females tested.
Description: Shank2 conditional knockout mice show increased repetitive nose pokes compared to wild type controls.
Exp Paradigm: The frequency of nose-poking into a hole was counted manually in a blind manner. males only.
Description: Shank2 conditional knockout mice show reductions in the levels of cerebellar excitatory synaptic membrane proteins, including glud2 and psd-93, and reduction of homer and glud2 but not psd93 in total cerebellar lysates, compared to wild type control mice.
Exp Paradigm: Males and females tested.
Description: Shank2 conditional knockout mice show reduced expression of shank2 protein in total cerebellar lysates or cerebellar shank2 localized at the molecular cell layer of the cerebellar cortex, at parallel fiber excitatory synapses or in the dendrites of purkinje cells as seen in wild type controls.
Exp Paradigm: Calbindin was used to label purkinje cells. males and females tested.-immunofluorescence staining
Description: Shank2 conditional knockout mice show reduced expression of shank2 protein in total cerebellar lysates or cerebellar shank2 localized at the molecular cell layer of the cerebellar cortex, at parallel fiber excitatory synapses or in the dendrites of purkinje cells as seen in wild type controls.
Exp Paradigm: Calbindin was used to label purkinje cells. males and females tested.- western blot: cerebellum
Description: Shank2 conditional knockout mice show reductions in the levels of excitatory synaptic membrane proteins, including glud2 and psd93, compared to wild type control mice. reduced synaptic levels of glud2 are caused by reduction in total levels, whereas of psd-93 is possibly due to reduced trafficking to the synapse.
Exp Paradigm: Crude synaptosomal and total synaptic proteins were measured. males and females tested.
Electroencephalogram (eeg): signature of seizure/epilepsy1
Decreased
Description: Mutants show a delay in the progression to seizure stage after ptz injection compared to controls, indicating mutants are more resistant to ptz induced seizures. mutants show an increase in latency to reach the first myoclonic seizure compared to controls
Exp Paradigm: NA
Description: Mutants show decrease in shank2 protein in the cerebellum and the thalamic reticular nuclei of the thalamus, with no punctate expression in the neutropill regions, compared to controls.
Exp Paradigm: NA
Description: Mutants show decreased nmdar mediated epscs at schaffer collateral-ca1 pyramidal synapses at 3 weeks compared with controls.
Exp Paradigm: NA
Synaptic neuroreceptor ratio (nmdar/ampar) dependent transmission1
Decreased
Description: Mutants show decrease in nmda/ampa ratio at schaffer collateral-ca1 pyramidal synapses at 3 weeks compared with controls.
Exp Paradigm: NA
Miniature post synaptic current amplitude: excitatory1
Decreased
Description: Mutants show decrease in nmdar mepsc amplitude at schaffer collateral-ca1 pyramidal synapses at 3-4 weeks compared with controls.
Exp Paradigm: NA
