Brain morphological analysis in mice with hyperactivation of the hedgehog signaling pathway.

Hedgehog signaling is a highly conserved pathway that plays pivotal roles in morphogenesis, tumorigenesis, osteogenesis, and wound healing. Previous investigations in patients with Gorlin syndrome found low harm avoidance traits, and increased volumes in the cerebrum, cerebellum, and cerebral ventricles, suggesting the association between brain morphology and the constitutive hyperactivation of hedgehog signaling, while the changes of regional brain volumes in upregulated hedgehog signaling pathway remains unclear so far. Herein, we investigated comprehensive brain regional volumes using quantitative structural brain MRI, and identified increased volumes of amygdala, striatum, and pallidum on the global segmentation, and increased volumes of the lateral and medial parts of the central nucleus of the amygdala on the detail segmentation in Ptch heterozygous deletion mice. Our data may enhance comprehension of the association between brain morphogenic changes and hyperactivity in hedgehog signaling.

Increase in children with developmental delay: Survey on 18-month-old children in Togane city, Japan.

BACKGROUND: Individuals who visit hospitals with neurodevelopmental disorders have recently increased. To locate the cause for this increase, various factors, such as environmental and genetic ones, are being investigated. The objective of this study is to analyze the developmental delay in children and their background. METHODS: The participants were children who underwent the checkup for 18-month-old children in Togane city, Japan, from 2011 to 2021; 4,145 children-2,147 boys and 1,998 girls with a mean age of 18.8 months-were included. To examine the tendency over time and the background, we used the questionnaire about development and lifestyle reported by parents. RESULTS: The number of children who did not produce pointing gestures or respond to their names and low-volume sounds tended to increase over the survey period (p = 0.0125, p = 0.0435, p = 0.0275). Next, we examined the relationship between pointing gestures and lifestyle and found that there was a relationship between attending a nursery school and bedtime and pointing gestures. CONCLUSION: A slow developmental trend over the last decade has been observed among children. The background was related to attending a nursery school and bedtime, suggesting that interaction with others and sleep are important for the development of children.

Nationwide survey of childhood Guillain-Barré syndrome, Fisher syndrome, and Bickerstaff brainstem encephalitis in Japan.

OBJECTIVE: Guillain-Barré syndrome (GBS), Fisher syndrome (FS), and Bickerstaff brainstem encephalitis (BBE) are immune-mediated neuropathies presenting with symptoms such as weakness, ophthalmoplegia, ataxia, and consciousness disturbances. Although the epidemiology of GBS and BBE in patients of all ages has been reported, childhood data have not been well-investigated. We aimed to determine the clinical features, therapeutics, and prognoses of childhood GBS, FS, and BBE in Japan. METHODS: We sent questionnaires to 1068 pediatric neurologists in Japan from 2014 to 2016 to determine the number of children less than 15 years old with GBS, FS, or BBE and their age and sex. We subsequently performed a secondary survey to investigate the clinical features, laboratory data, treatment, and prognosis. RESULTS: Five-hundred thirty-eight pediatric neurology specialists (50.4%) responded to the first survey. The total number of children with GBS, FS, and BBE in Japan from 2014 to 2016 were 87, 10, and 6, respectively. GBS was classified as acute inflammatory demyelinating neuropathy (35.6%), acute motor axonal neuropathy (20.7%), or acute motor-sensory axonal neuropathy (10.3%), with a male-to-female ratio of 1.29:1.0 and a wide distribution of onset ages. The disease severities of GBS, FS, and BBE were variable, but all children could walk within one year. CONCLUSION: The prognoses of childhood GBS, FS, and BBE were generally favorable, as long as the patient was promptly treated with either intravenous immunoglobulin or plasma exchange.

Specific temperament in patients with nevoid basal cell carcinoma syndrome.

BACKGROUND: Nevoid basal cell carcinoma syndrome (NBCCS) is a neurocutaneous disease, characterized by tumorigenesis and developmental anomalies due to aberrant sonic hedgehog (Shh) signaling. Patients with NBCCS typically appear calm and carefree, suggesting that a specific personality in these patients may be associated with an enhanced hedgehog pathway. Our study aimed to determine the personality type in these patients. METHODS: We enrolled 14 mentally normal patients with genetically confirmed NBCCS (seven males and seven females; mean age = 25.2 years) and 20 controls (10 males and 10 females; mean age = 27.9 years). The patients were assessed with the Japanese version of the Temperament and Character Inventory, based on the seven-dimensional model of temperament and character, and their clinical symptoms were evaluated. The amygdala volumes of six patients with NBCCS were measured using magnetic resonance imaging with image-processing software. RESULTS: Patients with NBCCS scored significantly lower on harm avoidance (0.89) than controls (1.00; P = 0.0084). Moreover, patients with NBCCS and developmental malformations such as rib anomalies, who may have experienced Shh signaling enhancement from the prenatal period, scored significantly lower on harm avoidance (0.80 [P = 0.0031]). The left amygdala volume was also significantly reduced in patients with NBCCS (P = 0.0426). CONCLUSIONS: Patients with NBCCS who experienced increased Shh signaling from the prenatal period showed significantly lower harm avoidance related to serotonin. The left amygdala volume was significantly reduced in these patients. Our results indicate that Shh signaling may influence the human personality.

MicroRNAs profiling in fibroblasts derived from patients with Gorlin syndrome.

Gorlin syndrome (GS) is a hereditary disorder with tumorigenicity, caused by constitutive hyperactivity of hedgehog signaling. Smoothened (SMO) antagonists have been effectively used in the clinical treatment of hedgehog signaling-related cancer. However, these treatments have led to problematic side effects, including severe adverse reactions and drug resistance from additional somatic mutations. We profiled microRNAs in GS fibroblasts to explore a novel therapeutic target for controlling hyper-activated hedgehog signaling. To identify GS-related microRNAs, we analyzed dermal fibroblasts from five patients with GS and three normal controls. We used microarray comparative genomic hybridization to screen 632 human microRNAs in GS fibroblasts. We identified 16 down- and 19 upregulated microRNAs with over twofold change in expression. We validated the increased expression of four microRNAs, confirming hsa-miR-196a-5p downregulation and hsa-miR-4485 upregulation using real-time PCR. Moreover, hsa-miR-196a-5p is complementary to sites in the 3' UTR of MAP3K1, which exhibits upregulated expression at mRNA and protein levels in GS fibroblasts. In addition, hedgehog signal induction with exogenous components decreased miR-196a-5p expression and increased map3k1 expression in a mouse mesenchymal cell line. Given that MAP3K1 has been reported to activate hedgehog signaling, hsa-miR-196a-5p may contribute to the positive feedback loop in this pathway.

Atypical moyamoya syndrome with brain calcification and stenosis of abdominal aorta and renal arteries.

Moyamoya syndrome is a progressive cerebrovascular disease that is characterized by stenosis of the terminal portion of the internal carotid artery and its main branches, in combination with an accompanying disease. We herein describe an 8-year-old boy exhibiting transient loss of consciousness, who had recurrent seizures in infancy with progressive brain calcification. On admission, he was alert but magnetic resonance angiography showed bilateral stenosis of the whole internal carotid artery and proliferation of vascular collaterals, and brain CT revealed calcification on bilateral putamen. Given that this fulfilled diagnostic criteria, we finally diagnosed him as having moyamoya syndrome, though the etiology was unclear. Interestingly, a whole vessel survey revealed vascular stenosis of abdominal aorta and renal arteries, in which the former has not been reported in moyamoya syndrome. We considered that brain calcification was gradually formed by decreased cerebral vascular flow from infancy, and stenosis of abdominal aorta was possibly extended from renal arteries. This is, moyamoya syndrome with brain calcification and stenosis of abdominal aorta, suggesting that morphological screening of whole vessels containing cerebral and abdominal arteries should be considered in cases of slowly progressive brain calcification.

Brain morphology in children with nevoid basal cell carcinoma syndrome.

Brain morphology is tightly regulated by diverse signaling pathways. Hedgehog signaling is a candidate pathway considered responsible for regulating brain morphology. Nevoid basal cell carcinoma syndrome (NBCCS), caused by a PTCH1 mutation in the hedgehog signaling pathway, occasionally exhibits macrocephaly and medulloblastoma. Although cerebellar enlargement occurs in ptch1 heterozygous-deficient mice, its impact on human brain development remains unknown. We investigated the brain morphological characteristics of children with NBCCS. We evaluated brain T1-weighted images from nine children with NBCCS and 15 age-matched normal control (NC) children (mean [standard deviation], 12.2 [2.8] vs. 11.6 [2.3] years old). The diameters of the cerebrum, corpus callosum, and brain stem and the cerebellar volume were compared using two-tailed t-tests with Welch's correction. The transverse diameters (150.4 [9.9] vs. 136.0 [5.5] mm, P = 0.002) and longitudinal diameters (165.4 [8.0] vs. 151.3 [8.7] mm, P = 0.0007) of the cerebrum, cross-sectional area of the cerebellar vermis (18.7 [2.6] vs. 11.8 [1.7] cm2 , P = 0.0001), and total volume of the cerebellar hemispheres (185.1 [13.0] vs. 131.9 [10.4] cm3 , P = 0.0001) were significantly larger in the children with NBCCS than in NC children. Thinning of the corpus callosum and ventricular enlargement were also confirmed in children with NBCCS. We demonstrate that, on examination of the brain morphology, an increase in the size of the cerebrum, cerebellum, and cerebral ventricles is revealed in children with NBCCS compared to NC children. This suggests that constitutively active hedgehog signaling affects human brain morphology and the PI3K/AKT and RAS/MAPK pathways.

Hedgehog signaling is synergistically enhanced by nutritional deprivation and ligand stimulation in human fibroblasts of Gorlin syndrome.

Hedgehog signaling is a pivotal developmental pathway that comprises hedgehog, PTCH1, SMO, and GLI proteins. Mutations in PTCH1 are responsible for Gorlin syndrome, which is characterized by developmental defects and tumorigenicity. Although the hedgehog pathway has been investigated extensively in Drosophila and mice, its functional roles have not yet been determined in human cells. In order to elucidate the mechanism by which transduction of the hedgehog signal is regulated in human tissues, we employed human fibroblasts derived from three Gorlin syndrome patients and normal controls. We investigated GLI1 transcription, downstream of hedgehog signaling, to assess native signal transduction, and then treated fibroblasts with a recombinant human hedgehog protein with or without serum deprivation. We also examined the transcriptional levels of hedgehog-related genes under these conditions. The expression of GLI1 mRNA was significantly higher in Gorlin syndrome-derived fibroblasts than in control cells. Hedgehog stimulation and nutritional deprivation synergistically enhanced GLI1 transcription levels, and this was blocked more efficiently by vismodegib, a SMO inhibitor, than by the natural compound, cyclopamine. Messenger RNA profiling revealed the increased expression of Wnt signaling and morphogenetic molecules in these fibroblasts. These results indicated that the hedgehog stimulation and nutritional deprivation synergistically activated the hedgehog signaling pathway in Gorlin syndrome fibroblasts, and this was associated with increments in the transcription levels of hedgehog-related genes such as those involved in Wnt signaling. These fibroblasts may become a significant tool for predicting the efficacies of hedgehog molecular-targeted therapies such as vismodegib.

Anterior Commissure Involvement in Humanherpes Virus 6 Encephalitis.

The anterior commissure is an evolutionarily conserved nerve bundle that connects the right and left hemispheres, playing pivotal neurological roles in visual, linguistic, and olfactory functions. The authors herein describe a 16-month-old boy with high fever, lethargy, and recurrent seizures. Polymerase chain reaction (PCR) examination detected human herpesvirus 6 (HHV-6) in both the cerebrospinal fluid and the pharyngeal swabs, leading to the diagnosis of HHV-6 encephalitis. Brain magnetic resonance imaging (MRI) 4 days after disease onset distinctly revealed anterior commissure involvement on diffusion-weighted images and apparent diffusion coefficient maps, suggesting that this lesion was cytotoxic edema. After treatment with 30 mg/kg/d methylprednisolone for 3 days, the anterior commissure involvement on MRI was completely diminished. This is the first MRI report rarely showing anterior commissure involvement in encephalitis, suggesting that this lesion might be caused by direct invasion of HHV-6 or transient axonal swelling associated with inferior temporal lobe damage.

Frameshift mutation in the PTCH2 gene can cause nevoid basal cell carcinoma syndrome.

Nevoid basal cell carcinoma syndrome (NBCCS) is an autosomal dominant disorder characterized by developmental defects and tumorigenesis. The gene responsible for NBCCS is PTCH1, encoding a receptor for the secreted protein, sonic hedgehog. Recently, a Chinese family with NBCCS carrying a missense mutation in PTCH2, a close homolog of PTCH1, was reported. However, the pathological significance of missense mutations should be discussed cautiously. Here, we report a 13-year-old girl diagnosed with NBCCS based on multiple keratocystic odontogenic tumors and rib anomalies carrying a frameshift mutation in the PTCH2 gene (c.1172_1173delCT). Considering the deleterious nature of the frameshift mutation, our study further confirmed a causative role for the PTCH2 mutation in NBCCS. The absence of typical phenotypes in this case such as palmar/plantar pits, macrocephaly, falx calcification, hypertelorism and coarse face, together with previously reported cases, suggested that individuals with NBCCS carrying a PTCH2 mutation may have a milder phenotype than those with a PTCH1 mutation.

Phrenic nerve palsy associated with birth trauma--case reports and a literature review.

Phrenic nerve palsy is a peripheral nerve disorder caused by excessive cervical extension due to birth trauma or cardiac surgery. We describe two new patients with phrenic nerve palsy associated with birth trauma. Both patients exhibited profound dyspnea and general hypotonia immediately after birth. A chest roentgenogram and fluoroscopy revealed elevation of the diaphragm, leading to a diagnosis of phrenic nerve palsy associated with birth trauma. Since they had intermittently exhibited dyspnea and recurrent infection, we performed video-assisted thoracoscopic surgery (VATS) plication in both cases, at an early and a late stage, respectively. Both patients subsequently exhibited a dramatic improvement in dyspnea and recurrent respiratory infection. Interestingly, the late stage operated infant exhibited spontaneous recovery at 7 months with cessation of mechanical ventilation once. However, this recovery was transient and subsequently led to an increased ventilation volume demand, finally resulting in surgical treatment at 15 months. Histological examination of the diaphragm at this time showed grouped muscle atrophy caused by phrenic nerve degeneration. To our knowledge, this is the first pathologically proven report of grouped muscle atrophy of the diaphragm due to phrenic nerve degeneration, suggesting that partial impairment of phrenic nerves resulted in respiratory dysfunction with incomplete recovery. We conclude that recently developed VATS plication is a safe and effective treatment for infants with phrenic nerve palsy, and should be considered as a surgical treatment at an early period.

14-3-3 proteins, particularly of the epsilon isoform, are detectable in cerebrospinal fluids of cerebellar diseases in children.

BACKGROUND: Detection of 14-3-3 proteins in cerebrospinal fluid (CSF) is a powerful tool for elucidating the mechanisms of neurological disorders. There have been useful studies on 14-3-3 CSF protein detection in Creutzfeldt-Jakob disease and other neurological disorders, but none on cerebellar diseases. OBJECTIVE: To elucidate whether 14-3-3 CSF proteins are a sensitive biomarker of cerebellar disruption in children. MATERIALS AND METHODS: We examined 14-3-3 CSF proteins by immunoblotting in seven patients with cerebellar disorders: two with acute cerebellitis, two with acute cerebellar ataxia, and three with cerebellar atrophy. We also investigated 14-3-3 CSF proteins in four cases of febrile seizure and three of influenza-related encephalopathy. Isoforms of 14-3-3 proteins were also identified using isoform-specific antibodies. RESULTS: 14-3-3 proteins were detected in CSF of six patients with cerebellar disorders, the exception being one with acute cerebellar ataxia caused by viral infection. Interestingly, only the 14-3-3 ε isoform was detected in two tested patients with cerebellar involvement. Moreover, longitudinal analysis of 14-3-3 CSF proteins in one patient with infantile neuroaxonal dystrophy showed that the 14-3-3 band density proportionally decreased when the cerebellar atrophy gradually progressed. Another CSF derived from a case of febrile seizure showed no 14-3-3 proteins, whereas all those derived from influenza-related encephalopathy demonstrated 14-3-3 CSF proteins with six isoforms. CONCLUSIONS: This is the first report on 14-3-3 CSF proteins as a significant biomarker of cerebellar disruption, as well as other brain diseases. Since 14-3-3 ε is localized in the molecular layer of cerebellum, the unique detection of 14-3-3 ε may indicate cerebellar involvement in the brain.

Reversible cerebral vasoconstriction syndrome associated with brain parenchymal hemorrhage.

We described a 7-year-old girl with reversible cerebral vasoconstriction syndrome associated with brain parenchymal hemorrhage. She initially presented with high fever and pancytopenia, leading to a diagnosis of most severe type aplastic anemia. We treated her with cyclosporine, methylprednisolone and anti-thymocyte globulin. Thereafter she recurrently complained of a very severe headache called as thunderclap, and finally exhibited loss of consciousness. Brain imaging revealed massive parenchymal hemorrhage between the left occipital and parietal lobes on computed tomography, and diffuse cerebral vasoconstriction on magnetic resonance angiography. The cerebral vasoconstriction resolved within two months, and thus we diagnosed her as having reversible cerebral vasoconstriction syndrome associated with brain parenchymal hemorrhage. This syndrome has been frequently reported in adult females, but rarely in children. However, even in children, a so called thunderclap headache may become a clue for the diagnosis of reversible cerebral vasoconstriction syndrome, especially in cases taking immunosuppressive agents. Immediate magnetic resonance angiography is essential to diagnose this syndrome, and a prompt application of calcium channel inhibitors should be considered to resolve constriction of the vessels and to prevent subsequent brain damage.

Multiple cavitations in posterior reversible leukoencephalopathy syndrome associated with hemolytic-uremic syndrome.

We describe a 4-year-old boy with posterior reversible leukoencephalopathy syndrome associated with hemolytic-uremic syndrome. He exhibited bloody stool by Escherichia coli O157: H7 infection with acute renal failure. He subsequently presented high blood pressure, followed by visual disturbance and loss of consciousness. Brain MRI revealed bilateral occipital high intensities by T2-weighted images and high value by apparent diffusion coefficient map, thus we made a diagnosis of posterior reversible leukoencephaly syndrome associated with hemolytic-uremic syndrome. In spite of immediate blood pressure control, occipital lesions developed day by day, resulting in multiple subcortical cavitations. Although posterior reversible leukoencephalopathy syndrome is originally characterized by reversible vasogenic edema, this case rarely resulted in irreversible changes with cystic formation. We concluded that precipitating factors, i.e., clotting abnormalities, Shiga toxin, vasospasms and endothelial dysfunction might have synergistically induced irreversible brain infarcts, and caused unusual cavitations.

[Clinical manifestations in 25 Japanese patients with Gorlin syndrome].

We investigated the clinical manifestations of 25 Japanese patients with Gorlin syndrome. We revealed the frequencies of major five symptoms in Japanese Gorlin syndrome patients, i.e., basal cell carcinomas (BCCs) (20%), jaw cysts (80%), palmar and plantar pits (64%), calcification of the falx cerebri (64%), and rib abnormalities (44%). Compared with the previous studies in the United States, the United Kingdom, and Australia, Japanese Gorlin syndrome patients showed a significantly lower rate of BCCs, and no medulloblastomas in this study. We also revealed minor symptoms which were not included in the diagnostic criteria, i.e., empty sellas, lipomas, ulcerative colitis, dysgenesis of the corpus callosum, and cardiac fibromas. We conclude that clinical manifestations other than major symptoms are quite variable, and racial differences may influence the occurrence of BCCs in Gorlin syndrome patients.

[PTCH1 gene analysis in 25 Japanese patients with Gorlin syndrome].

Gorlin syndrome is an autosomal dominant disorder characterized by congenital anomalies and tumorigenesis. The gene responsible for Gorlin syndrome is PTCH1, a human homologue of the Drosophila segment polarity gene, patched. We analysed the PTCH1 gene in 25 patients in 22 families with Gorlin syndrome. We detected PTCH1 mutations in 22 patients in 19 families, including insertion/deletion mutations in 13 patients in 11 families (86%), chromosomal deletions in 4 patients in 3 families (16%), nonsense mutations in 2 patients in 2 families (11%), splicing mutations in 3 patients in 3 families (16%), and a missense mutation in 1 patient (5.3%). The sixteen mutations were distributed in extracellular loops (10 mutations: 63%), intracellular loops (four mutations: 25%), and transmembrane portions (two mutations: 13%). Our detection rate of PTCH1 mutations, i.e., 86%, was much higher than those previously reported from other countries. The differences may be derived either from ethnicity or the detection methods.

Acute motor axonal neuropathy during intensive immunosuppressive therapy for macrophage activation syndrome.

We describe a 2-year-old girl with refractory macrophage activation syndrome (MAS), which is a serious complication of inflammatory disorders associated with rheumatic disease in children. Although she was treated with intensive immunosuppressive therapies such as immunoglobulin, plasma exchange, dexamethasone, methotrexate, cyclosporine, and etoposide, she subsequently developed motor deficit with the abolition of deep tendon reflexes. Since nerve conduction study revealed low-amplitude compound muscle action potentials and motor conduction slowing, she was diagnosed as having acute motor axonal neuropathy (AMAN) associated with refractory MAS. This is the first report of AMAN occurring during immunosuppressive therapy for extremely refractory MAS, suggesting that hypercytokinemia or activated macrophages may have played a critical role in the pathogenesis of AMAN in this patient.

U7 snRNA-mediated correction of aberrant splicing caused by activation of cryptic splice sites.

A considerable fraction of mutations associated with hereditary disorders and cancers affect splicing. Some of them cause exon skipping or the inclusion of an additional exon, whereas others lead to the inclusion of intronic sequences or deletion of exonic sequences through the activation of cryptic splice sites. We focused on the latter cases and have designed a series of vectors that express modified U7 small nuclear RNAs (snRNAs) containing a sequence antisense to the cryptic splice site. Three cases of such mutation were investigated in this study. In two of them, which occurred in the PTCH1 and BRCA1 genes, canonical splice donor sites had been partially impaired by mutations that activated nearby intronic cryptic splice donor sites. Another mutation found in exonic region in CYP11A created a novel splice donor site. Transient expression of the engineered U7 snRNAs in HeLa cells restored correct splicing in a sequence-specific and dose-dependent manner in the former two cases. In contrast, the third case, in which the cryptic splice donor site in the exonic sequence was activated, the expression of modified U7 snRNA resulted in exon skipping. The correction of aberrant splicing by suppressing intronic cryptic splice sites with modified U7 is expected be a promising alternative to gene replacement therapy.