<i>PRRT2</i> coding variants identified in this study.

<p>Schematic diagram of the <i>PRRT2</i> gene and of the three PRRT2 protein isoforms. Mutation identified in this study are indicated in green (controls and HGDP), orange (controls, HGDP, and patients) and red (patients only).</p

<i>PRRT2</i> coding variants identified in individuals with ASD and controls.

a<p>Variants observed in the human genome diversity panel.</p>b<p>The p.A361_P362del was considered as probably damaging since it affects conserved amino acids of PRRT2.</p>c<p>Odds ratio, confidence intervals (CI) and P values were calculated only for populations from European ancestry using a 2-tailed Fisher exact test.</p

Chromatograms of the <i>PRRT2</i> A217PfsX8 mutation before and after whole genome amplification.

<p>The chromatograms of <i>PRRT2</i> sequence before (Native DNA) and after whole genome amplification of the DNA from three independent patients using two different protocols GenomiPhi DNA Amplification Kit (WGA-1) or Repli-G Whole Genome Amplification kit (WGA-2). The mutation was not present in the native DNA, but was detected after whole genome amplification.</p

Zinc deficiency and low enterocyte zinc transporter expression in human patients with autism related mutations in SHANK3

Phelan McDermid Syndrome (PMDS) is a genetic disorder characterized by features of Autism spectrum disorders. Similar to reports of Zn deficiency in autistic children, we have previously reported high incidence of Zn deficiency in PMDS. However, the underlying mechanisms are currently not well understood. Here, using inductively coupled plasma mass-spectrometry to measure the concentration of Zinc (Zn) and Copper (Cu) in hair samples from individuals with PMDS with 22q13.3 deletion including SHANK3 (SH3 and multiple ankyrin repeat domains 3), we report a high rate of abnormally low Zn/Cu ratios. To investigate possible underlying mechanisms, we generated enterocytes from PMDS patient-derived induced pluripotent stem cells and used Caco-2 cells with knockdown of SHANK3. We detected decreased expression of Zn uptake transporters ZIP2 and ZIP4 on mRNA and protein level correlating with SHANK3 expression levels, and found reduced levels of ZIP4 protein co-localizing with SHANK3 at the plasma membrane. We demonstrated that especially ZIP4 exists in a complex with SHANK3. Furthermore, we performed immunohistochemistry on gut sections from Shank3αβ knockout mice and confirmed a link between enterocytic SHANK3, ZIP2 and ZIP4. We conclude that apart from its well-known role in the CNS, SHANK3 might play a specific role in the GI tract

Synonymous and nonsynonymous variations of <i>PRRT2</i> in worldwide populations.

a<p>Number of nonsynonymous and synonymous sites for PRRT2 are 668.5 and 231.5, respectively.</p>b<p>For the calculation of the pN/pS for Europe, the value of pS was set to 0.004 (the minimum of 1 synonymous variant observed in 159 individuals).</p

<i>PRRT2</i> variants identified in individuals from worldwide populations.

<p>A total of 961 individuals from the human genome diversity panel (HGDP) were sequenced for all <i>PRRT2</i> exons. The diameter of each circle is proportional to the number of individuals who were sequenced for <i>PRRT2</i>.</p

Genetic variability in Europe and Africa for all genes located within the 16p11.2 deletion.

<p>A. Nonsynonymous mutations per nonsynonymous sites (pN) and synonymous mutations per synonymous sites (pS) were estimated using the data from 4300 individuals from European ancestry and 2012 individuals from African ancestry available at the Exome Variant Server (<a href="http://evs.gs.washington.edu/EVS/" target="_blank">http://evs.gs.washington.edu/EVS/</a>). The horizontal lanes correspond to the means of pN and pS for the 27 genes. Difference of pN/pS between Europe and Africa were calculated using a 2-tailed Fisher exact test and the −Log₁₀ P value is indicated. B. Plot of the −Log₁₀ P values obtained for the difference between the pN/pS ratio in Africa and in Europe in relation the ratio (Europe pN/pS)/(Africa pN/pS).</p

Characterization of the functional impact of <i>SHANK2</i> mutations in cultured neuronal cells.

<p>A. The colocalization of <i>ProSAP1A/SHANK2</i>-EGFP (postsynaptic marker) and Bassoon (presynaptic marker) indicated that the mutations did not disturb the formation of SHANK2 clusters at excitatory synapses along the dendrites. B. The quantification of synapse density was performed on 20 transfected hippocampal neurons per construct from at least three independent experiments. The majority of the <i>ProSAP1A</i> variants affecting a conserved amino acid among SHANK proteins reduced significantly the synaptic density compared with the variants that affect amino acid non conserved among SHANK proteins (Mann-Whitney U-test: n_WT = 20, n_mut = 20; U_S557N = 82.5, p_S557N = 0.001; U_R569H = 124, p_R569H = 0.04; U_L629P = 149, p_L629P = 0.17; U_V717F = 114, p_V717F = 0.02; U_A729T = 73, p_A729T = 0.000; U_K780Q = 154, p_K780Q = 0.221; U_R818H = 108, p_R818H = 0.012; U_A822T = 154.5, p_A822T = 0.224; U_V823M = 129, p_V823M = 0.056; U_Y967C = 134, p_Y967C = 0.076; U_G1170R = 78, p_G1170R = 0.001; U_R1290W = 142, p_R1290W = 0.121; U_Q1308R = 162, p_Q1308R = 0.314; U_D1535N = 97, p_D1535N = 0.005; U_P1586L = 137, p_P1586L = 0.910; U_L1722P = 79, p_L1722P = 0.001, *p<0.05, **p<0.01, ***p<0.001). <b>C.</b> Effect of the variants on synaptic density. The y-axis represents −log P compared to WT (P obtained with Mann-Whitney test). After Bonferroni correction for 16 tests, only P values<0.003 were considered as significant. Variants represented in red were specific to ASD, in orange were shared by ASD and controls, and in green were specific to the controls. Open circles and filled circles represent non conserved and conserved amino acids, respectively. Prim, primary; second, secondary.</p

Scatter plots of the intellectual quotient and the Autism Diagnostic Interview-Revised (ADI-R) scores of the patients with ASD screened for <i>SHANK1-3</i> mutations.

<p>Mutations in <i>SHANK1-3</i> are associated with a gradient of severity in cognitive impairment. <i>SHANK1</i> mutations were reported in patients without ID (green dots). <i>SHANK2</i> mutations were reported in patients with mild ID (orange dots). <i>SHANK3</i> mutations were found in patients with moderate to severe deficit (red dots). Black dots correspond to the patients enrolled in the PARIS cohort screened for deleterious <i>SHANK1-3</i> mutations (n = 498). In addition to the PARIS cohort <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1004580#pgen.1004580-Durand1" target="_blank">[6]</a>, <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1004580#pgen.1004580-Pinto1" target="_blank">[8]</a>, <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1004580#pgen.1004580-Leblond1" target="_blank">[18]</a>, three patients with a <i>SHANK1</i> deletion <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1004580#pgen.1004580-Sato1" target="_blank">[19]</a> and two patients with a <i>SHANK2</i> deletion <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1004580#pgen.1004580-Berkel1" target="_blank">[14]</a> were included in the scatter plot. A high score of the ADI-R is associated with a more severe profile. The threshold of the “Social”, “Verbal”, “Non-Verbal” and “Repetitive Behavior” Scores are 10, 8, 7 and 3, respectively.</p

Genetic alterations identified in the control subject SWE_Q56_508.

<p>A. <i>SHANK2</i> splice mutation (IVS22+1G>T) detected in a Swedish female control, SWE_Q56_508. The mutation altered the donor splicing site of exon 22 and led to a premature stop in all <i>SHANK2</i> isoforms except for the <i>AF1411901</i> isoform, where it altered the protein sequence (G263V). B. CNVs in the same individual altering <i>LOC339822</i>, <i>SNTG2</i>, <i>PXDN</i> and <i>MYT1L</i>. The two close duplications span 264 kb and 245 kb on chromosome 2 and altered <i>LOC339822</i> and <i>SNTG2</i>, and <i>PXDN</i> and <i>MYT1L</i>, respectively. Dots show the B allele frequency (BAF; in green), Log R ratio (LRR; in red), and QuantiSNP score (in blue). Lower panel: all CNVs listed in the Database of Genomic Variants (DGV) are represented: loss (in red), gain (in blue), gain or loss (in brown). H, homer binding site; D, dynamin binding site; C, cortactin binding site.</p