Identification of ultra-rare genetic variants in Pediatric Acute Onset Neuropsychiatric Syndrome (PANS) by exome and whole genome sequencing

Abstract

AbstractPediatric acute onset neuropsychiatric syndrome (PANS) is viewed as an autoimmune/autoinflammatory condition characterized by the abrupt onset of severe neurological and psychiatric symptoms, in particular obsessive-compulsive disorder (OCD), tics, anxiety, mood swings, irritability, and restricted eating, often triggered by infections. However, direct evidence of autoimmunity, infections, or a proinflammatory state is often lacking, and there is no unifying pathogenic pathway. This could be due to underlying genetic heterogeneity, which could lead to the development of PANS through different cellular and molecular pathways. Unfortunately, little is known about the genetic basis of PANS. Consequently, we carried out whole exome sequencing (WES) on a U.S. cohort of 386 cases who met diagnostic criteria for PANS, including 133 family triads, and whole genome sequencing (WGS) on ten cases from the European Union, who were selected for WGS because of severe PANS symptoms. We focused on identifying potentially deleterious genetic variants that were either de novo or ultra-rare with a minor allele frequency (MAF) < 0.001. Candidate mutations were found in 11 genes: PPM1D, SGCE, PLCG2, NLRC4, CACNA1B, SHANK3, CHK2, GRIN2A, RAG1, GABRG2, and SYNGAP1 in a total of 20 cases, which included two sets of siblings, and two or more unrelated subjects with ultra-rare variants in SGCE, NLRC4, RAG1, and SHANK3. The PANS candidate genes we identified separate into two broad functional categories. One group regulates peripheral innate and adaptive immune responses (e.g., PPM1D, CHK2, NLRC4, RAG1, PLCG2), some of which also influence microglia function. Another is expressed primarily at neuronal synapses or directly modulates synaptic function (SHANK3, SYNGAP1, GRIN2A, GABRG2, CACNA1B, SGCE). These neuronal PANS candidate genes are often mutated in autism spectrum disorder, developmental disorders, and myoclonus-dystonia. In fact, eight out of 20 cases in this study developed PANS superimposed on a preexisting neurodevelopmental disorder. There is, however, clinical overlap between these two groups and some crossover expression (e.g., some neuronal genes are expressed in immune cells and vice versa) that diminishes the neuronal/immune dichotomy. Genes in both categories are also highly expressed in the enteric nervous system, and in the choroid plexus and brain vasculature, suggesting they might contribute to a breach in the blood-CSF barrier and blood-brain barrier (BBB) that would permit the entry of autoantibodies, inflammatory cytokines, chemokines, prostaglandins, and autoantibodies into the brain. Thus, PANS is a genetically heterogeneous condition that can occur as a stand-alone neuropsychiatric condition or co-morbid with neurodevelopmental disorders, with candidate genes functioning at several levels of the neuroinflammatory axis.