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105. Rapid-onset dystonia-parkinsonism: linkage to chromosome 19q13.

Author

Kramer, Patricia L., Mineta, Mari, Klein, Christine, Schilling, Karla, De Leon, Deborah, Farlow, Martin R., Breakefield, Xandra O., Bressman, Susan B., Dobyns, William B., Ozelius, Laurie J., Brashear, Allison, Kramer, P L, Mineta, M, Klein, C, Schilling, K, de Leon, D, Farlow, M R, Breakefield, X O, Bressman, S B, and Dobyns, W B

Published
1999
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106. Expansion of the first PolyA tract of ARXcauses infantile spasms and status dystonicus

Author

Guerrini, R, Moro, F, Kato, M, Barkovich, A J., Shiihara, T, McShane, M A., Hurst, J, Loi, M, Tohyama, J, Norci, V, Hayasaka, K, Kang, U J., Das, S, and Dobyns, W B.

Abstract

ARXis a paired-type homeobox gene located on the X chromosome that contains five exons with four polyalanine (PolyA) tracts, a homeodomain, and a conserved C-terminal aristaless domain. Studies in humans have demonstrated remarkable pleiotropy: malformation phenotypes are associated with protein truncation mutations and missense mutations in the homeobox; nonmalformation phenotypes, including X-linked infantile spasms (ISS), are associated with missense mutations outside of the homeobox and expansion of the PolyA tracts.

Published
2007
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109. Rapidonset dystoniaparkinsonism

Author

Dobyns, W. B., Ozelius, L. J., Kramer, P. L., Brashear, A., Farlow, M. R., Perry, T. R., Walsh, L. E., Kasarskis, E. J., Butler, I. J., and Breakefield, X. O.

Abstract

We studied a large family with a previously undescribed, autosomal dominant dystonia-parkinsonism syndrome. We chose to call the disorder “rapid-onset dystonia-parkinsonism” (RDP) based on the unusually rapid evolution of signs and symptoms. Affected individuals developed dystonia and parkinsonism between 14 and 45 years of age. The onset was acute in six individuals with the abrupt onset of symptoms over the course of several hours, and subacute in four others who had evolution over several days or weeks. Thereafter, progression of symptoms was usually very slow. Two had intermittent focal dystonia without parkinsonism, and one obligate gene carrier was asymptomatic at 68 years. CSF levels of homovanillic acid were decreased in the two individuals tested, but dopaminergic therapy provided only slight benefit. The DYT1 gene responsible for early-onset, generalized idiopathic torsion dystonia in Jewish and some non-Jewish families has been mapped to chromosome 9q34. Linkage analysis with three markers near the DYT1 gene showed several obligate recombinations, excluding DYT1 as a candidate gene for RDP. We believe RDP is unique and should be classified separately from other forms of hereditary dystonia-parkinsonism.

Published
1993

111. Rapidonset dystoniaparkinsonism in a second family

Author

Brashear, A., DeLeon, D., Bressman, S. B., Thyagarajan, D., Farlow, M. R., and Dobyns, W. B.

Abstract

Rapid-onset dystonia-parkinsonism (RDP), first described in a large Midwestern family, is now reported in a second, apparently unrelated, family in which four individuals have this same syndrome. All four developed sudden onset of dysarthria, dysphagia, severe dystonic spasms, bradykinesia, and postural instability over less than 1 hour to a few days. Three of the four had stable limb dystonia for several years preceding the onset of combined dystonia-parkinsonism. Treatment with levodopa/carbidopa provided little benefit. We propose diagnostic criteria for RDP and further define the spectrum of this unusual disease.

Published
1997

112. Molecular detection of microscopic and submicroscopic deletions associated with Miller-Dieker syndrome

Author

Vantuinen, P., Dobyns, W. B., Rich, D. C., Summers, K. M., Terence J. Robinson, Nakamura, Y., and Ledbetter, D. H.

Subjects
hemic and lymphatic diseases
Abstract

Miller-Dieker syndrome (MDS), a disorder manifesting the severe brain malformation lissencephaly ("smooth brain"), is caused, in the majority of cases, by a chromosomal microdeletion of the distal short arm of chromosome 17. Using human chromosome 17-specific DNA probes, we have begun a molecular dissection of the critical region for MDS. To localize cloned DNA sequences to the MDS critical region, a human-rodent somatic cell hybrid panel was constructed which includes hybrids containing the abnormal chromosome 17 from three MDS patients with deletions of various sizes. Three genes (myosin heavy chain 2, tumor antigen p53, and RNA polymerase II) previously mapped to 17p were excluded from the MDS deletion region and therefore are unlikely to play a role in its pathogenesis. In contrast, three highly polymorphic anonymous probes, YNZ22.1 (D17S5), YNH37.3 (D17S28), and 144-D6 (D17S34), were deleted in each of four patients with visible deletions, including one with a ring chromosome 17 that is deleted for a portion of the single telomeric prometaphase subband p13.3. In two MDS patients with normal chromosomes, a combination of somatic cell hybrid, RFLP, and densitometric studies demonstrated deletion for YNZ22.1 and YNH37.3 in the paternally derived 17's of both patients, one of whom is also deleted for 144-D6. The results indicate that MDS can be caused by submicroscopic deletion and raises the possibility that all MDS patients will prove to have deletions at a molecular level. The two probes lie within a critical region of less than 3,000 kb and constitute potential starting points in the isolation of genes implicated in the severe brain maldevelopment in MDS.

113. Loss of neutral sphingomyelinase-3 (SMPD4) links neurodevelopmental disorders to cell cycle and nuclear envelope anomalies

Author

Smits, D. J., Magini, P., Vandervore, L., Schot, R., Columbaro, M., Kasteleijn, E., Ent, M., Palombo, F., Iommarini, L., Lequin, M. H., Porcelli, A. M., Govaert, P., Dremmen, M., Wit, M. C. Y., Severino, M., Divizia, M. T., Ordonez-Herrera, N., Alhashem, A., Al Fares, A., Al Ghamdi, M., Rolfs, A., Bauer, P., Demmers, J., Verheijen, F., Wilke, M., Slegtenhorst, M., Spek, P., Jansen, A., Rolf Stottmann, Hufnagel, R., Hopkin, R., Aljeaid, D., Wiszniewski, W., Gawlinski, P., Dobyns, W. B., Seri, M., Pippucci, T., Fornerod, M., and Mancini, G. M. S.

131. Heterogeneous clinical phenotypes and cerebral malformations reflected by rotatin cellular dynamics

Author

Marianne L. T. van der Sterre, Rachel Schot, Peter J. van der Spek, Daphne Heijsman, Leontine van Unen, Gert-Jan Kremers, Martyna M. Grochowska, Grazia M.S. Mancini, Laura Vandervore, Roy Masius, Gerben J. Schaaf, Martina Wilke, Nadia Bahi-Buisson, Anna Grandone, Renske Oegema, Anna Jansen, Patrick Rump, Arie van Haeringen, Tugba Kalayci, Frans W. Verheijen, Katrien Stouffs, Peter Elfferich, Els A. J. Peeters, Esmee Kasteleijn, Anton J. van Essen, Umut Altunoglu, Alexander Gheldof, Dick H. W. Dekkers, Johan A. Slotman, Jeroen Demmers, Raymond A. Poot, WB Dobyns, Vandervore, L. V., Schot, R., Kasteleijn, E., Oegema, R., Stouffs, K., Gheldof, A., Grochowska, M. M., Van Der Sterre, M. L. T., Van Unen, L. M. A., Wilke, M., Elfferich, P., Van Der Spek, P. J., Heijsman, D., Grandone, A., Demmers, J. A. A., Dekkers, D. H. W., Slotman, J. A., Kremers, G. -J., Schaaf, G. J., Masius, R. G., Van Essen, A. J., Rump, P., Van Haeringen, A., Peeters, E., Altunoglu, U., Kalayci, T., Poot, R. A., Dobyns, W. B., Bahi-Buisson, N., Verheijen, F. W., Jansen, A. C., Mancini, G. M. S., Clinical Genetics, Pathology, Molecular Genetics, Cell biology, Clinical sciences, Faculty of Medicine and Pharmacy, Medical Genetics, Reproduction and Genetics, Faculty of Psychology and Educational Sciences, Public Health Sciences, Mental Health and Wellbeing research group, Neurogenetics, and Pediatrics

Subjects
0301 basic medicine, Microcephaly, MIGRATION, MYH10, Clinical Neurology, Lissencephaly, PRIMARY CILIA, Cell Cycle Proteins, Biology, medicine.disease_cause, NONMUSCLE MYOSIN-II, 03 medical and health sciences, 0302 clinical medicine, Ciliogenesis, medicine, Polymicrogyria, Basal body, Humans, mitosis, Mutation, mitosi, DEFECTS, Original Articles, medicine.disease, POINT MUTATION, Cell biology, 030104 developmental biology, Phenotype, Centrosome, Neurology (clinical), centrosome amplification, Carrier Proteins, Multipolar spindles, RTTN, 030217 neurology & neurosurgery
Abstract

See Uzquiano and Francis (doi:10.1093/brain/awz048) for a scientific commentary on this article. Mutations in RTTN, which encodes Rotatin, give rise to various brain malformations. Vandervore et al. reveal mitotic failure, aneuploidy, apoptosis and defective ciliogenesis in patient cells. Rotatin binds to myosin subunits in the leading edge of human neurons, which may explain the proliferation and migration defects observed., Recessive mutations in RTTN, encoding the protein rotatin, were originally identified as cause of polymicrogyria, a cortical malformation. With time, a wide variety of other brain malformations has been ascribed to RTTN mutations, including primary microcephaly. Rotatin is a centrosomal protein possibly involved in centriolar elongation and ciliogenesis. However, the function of rotatin in brain development is largely unknown and the molecular disease mechanism underlying cortical malformations has not yet been elucidated. We performed both clinical and cell biological studies, aimed at clarifying rotatin function and pathogenesis. Review of the 23 published and five unpublished clinical cases and genomic mutations, including the effect of novel deep intronic pathogenic mutations on RTTN transcripts, allowed us to extrapolate the core phenotype, consisting of intellectual disability, short stature, microcephaly, lissencephaly, periventricular heterotopia, polymicrogyria and other malformations. We show that the severity of the phenotype is related to residual function of the protein, not only the level of mRNA expression. Skin fibroblasts from eight affected individuals were studied by high resolution immunomicroscopy and flow cytometry, in parallel with in vitro expression of RTTN in HEK293T cells. We demonstrate that rotatin regulates different phases of the cell cycle and is mislocalized in affected individuals. Mutant cells showed consistent and severe mitotic failure with centrosome amplification and multipolar spindle formation, leading to aneuploidy and apoptosis, which could relate to depletion of neuronal progenitors often observed in microcephaly. We confirmed the role of rotatin in functional and structural maintenance of primary cilia and determined that the protein localized not only to the basal body, but also to the axoneme, proving the functional interconnectivity between ciliogenesis and cell cycle progression. Proteomics analysis of both native and exogenous rotatin uncovered that rotatin interacts with the neuronal (non-muscle) myosin heavy chain subunits, motors of nucleokinesis during neuronal migration, and in human induced pluripotent stem cell-derived bipolar mature neurons rotatin localizes at the centrosome in the leading edge. This illustrates the role of rotatin in neuronal migration. These different functions of rotatin explain why RTTN mutations can lead to heterogeneous cerebral malformations, both related to proliferation and migration defects.

Published
2019

132. Loss of SMPD4 Causes a Developmental Disorder Characterized by Microcephaly and Congenital Arthrogryposis

Author

Flavia Palombo, Maarten Fornerod, Grazia M.S. Mancini, Joseph G. Gleeson, Lily Bazak, Esmee Kasteleijn, Natalia Ordonez-Herrera, Milena Laure-Kamionowska, Fowzan S. Alkuraya, Pawel Gawlinski, William B. Dobyns, Mariasavina Severino, Marjolein H G Dremmen, Marco Seri, Marie Claire Y. de Wit, Robert B. Hufnagel, Ghayda Mirzaa, Laura Vandervore, Rachel Schot, Maarten H. Lequin, Lina Basel-Salmon, Arndt Rolfs, Robert J. Hopkin, Ahmed Al Fares, Nicola Brunetti-Pierri, Bella Davidov, Gerarda Cappuccio, Maria Teresa Divizia, Rolf W. Stottmann, Daphne J. Smits, Aida M. Bertoli-Avella, Wojciech Wiszniewski, Damir Musaev, Valentina Stanley, Hanah Akleh, Peter Bauer, Amal Alhashem, Martina Wilke, Jeroen Demmers, Malak Al Ghamdi, Marjon van Slegtenhorst, Pasquale Striano, Mees van der Ent, Pamela Magini, Tommaso Pippucci, Marta Columbaro, Maha S. Zaki, Anna Jansen, Deema Aljeaid, Peter J. van der Spek, Noa Ruhrman Shahar, Frans W. Verheijen, Clinical Biology, Clinical sciences, Faculty of Medicine and Pharmacy, Physiotherapy, Human Physiology and Anatomy, Pediatrics, Public Health Sciences, Mental Health and Wellbeing research group, Neurogenetics, Magini, P., Smits, D. J., Vandervore, L., Schot, R., Columbaro, M., Kasteleijn, E., van der Ent, M., Palombo, Francesco, Lequin, M. H., Dremmen, M., de Wit, M. C. Y., Severino, M., Divizia, M. T., Striano, P., Ordonez-Herrera, N., Alhashem, A., Al Fares, A., Al Ghamdi, M., Rolfs, A., Bauer, P., Demmers, J., Verheijen, F. W., Wilke, M., van Slegtenhorst, M., van der Spek, P. J., Seri, M., Jansen, A. C., Stottmann, R. W., Hufnagel, R. B., Hopkin, R. J., Aljeaid, D., Wiszniewski, W., Gawlinski, P., Laure-Kamionowska, M., Alkuraya, F. S., Akleh, H., Stanley, V., Musaev, D., Gleeson, J. G., Zaki, M. S., Brunetti-Pierri, N., Cappuccio, G., Davidov, B., Basel-Salmon, L., Bazak, L., Shahar, N. R., Bertoli-Avella, A., Mirzaa, G. M., Dobyns, W. B., Pippucci, T., Fornerod, M., Mancini, G. M. S., Clinical Genetics, Clinical Chemistry, Cell biology, Radiology & Nuclear Medicine, Neurology, Biochemistry, Pathology, Magini P., Smits D.J., Vandervore L., Schot R., Columbaro M., Kasteleijn E., van der Ent M., Palombo F., Lequin M.H., Dremmen M., de Wit M.C.Y., Severino M., Divizia M.T., Striano P., Ordonez-Herrera N., Alhashem A., Al Fares A., Al Ghamdi M., Rolfs A., Bauer P., Demmers J., Verheijen F.W., Wilke M., van Slegtenhorst M., van der Spek P.J., Seri M., Jansen A.C., Stottmann R.W., Hufnagel R.B., Hopkin R.J., Aljeaid D., Wiszniewski W., Gawlinski P., Laure-Kamionowska M., Alkuraya F.S., Akleh H., Stanley V., Musaev D., Gleeson J.G., Zaki M.S., Brunetti-Pierri N., Cappuccio G., Davidov B., Basel-Salmon L., Bazak L., Shahar N.R., Bertoli-Avella A., Mirzaa G.M., Dobyns W.B., Pippucci T., Fornerod M., and Mancini G.M.S.

Subjects
Male, 0301 basic medicine, Microcephaly, Ceramide, RNA Splicing, Mitosis, Cell fate determination, Biology, Endoplasmic Reticulum, Article, arthrogryposis, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Genetics, medicine, Humans, Cell Lineage, microcephaly, Nuclear pore, Child, SMPD4, Genetics (clinical), Arthrogryposis, arthrogryposi, neutral-sphingomyelinase, Gene Expression Profiling, Autophagy, medicine.disease, Sphingolipid, Pedigree, NET13, Cell biology, HEK293 Cells, Sphingomyelin Phosphodiesterase, 030104 developmental biology, chemistry, Neurodevelopmental Disorders, Female, medicine.symptom, Sphingomyelin, 030217 neurology & neurosurgery
Abstract

Sphingomyelinases generate ceramide from sphingomyelin as a second messenger in intracellular signaling pathways involved in cell proliferation, differentiation, or apoptosis. Children from 12 unrelated families presented with microcephaly, simplified gyral pattern of the cortex, hypomyelination, cerebellar hypoplasia, congenital arthrogryposis, and early fetal/postnatal demise. Genomic analysis revealed bi-allelic loss-of-function variants in SMPD4, coding for the neutral sphingomyelinase-3 (nSMase-3/SMPD4). Overexpression of human Myc-tagged SMPD4 showed localization both to the outer nuclear envelope and the ER and additionally revealed interactions with several nuclear pore complex proteins by proteomics analysis. Fibroblasts from affected individuals showed ER cisternae abnormalities, suspected for increased autophagy, and were more susceptible to apoptosis under stress conditions, while treatment with siSMPD4 caused delayed cell cycle progression. Our data show that SMPD4 links homeostasis of membrane sphingolipids to cell fate by regulating the cross-talk between the ER and the outer nuclear envelope, while its loss reveals a pathogenic mechanism in microcephaly.

Published
2019

133. Diffuse CNS cortical vein malformations with chromosome 17q microduplication: Possible link to SEC14L1.

Author

Huang S, Dobyns W, Duncan C, and Nascene D

Abstract

Partial trisomy of the long arm of chromosome 17 (17q) is a rare but clinically recognized syndrome that involves facial dysmorphisms, skeletal abnormalities, and global developmental delay, as well as various reports of cardiovascular, renal, and central nervous system abnormalities. This report presents a novel neuroradiologic finding of diffuse enlarged, tortuous cortical veins with physiological antegrade flow in a child with a microduplication of the distal end of 17q. To our knowledge, this finding has not been described previously. Although the exact cause for the cortical vascular anomaly is currently unknown, this duplicated region contains genes of interest for future studies that focus on normal and abnormal angiogenesis.

Published
2024
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134. Dandy-Walker Phenotype with Brainstem Involvement: 2 Distinct Subgroups with Different Prognosis.

Author

Alves CAPF, Sidpra J, Manteghinejad A, Sudhakar S, Massey FV, Aldinger KA, Haldipur P, Lucato LT, Ferraciolli SF, Teixeira SR, Öztekin Ö, Bhattacharya D, Taranath A, Prabhu SP, Mirsky DM, Andronikou S, Millen KJ, Barkovich AJ, Boltshauser E, Dobyns WB, Barkovich MJ, Whitehead MT, and Mankad K

Subjects
Humans, Retrospective Studies, Brain Stem diagnostic imaging, Prognosis, Dandy-Walker Syndrome diagnostic imaging, Hydrocephalus, Nervous System Malformations
Abstract

Background and Purpose: Although cardinal imaging features for the diagnostic criteria of the Dandy-Walker phenotype have been recently defined, there is a large range of unreported malformations among these patients. The brainstem, in particular, deserves careful attention because malformations in this region have potentially important implications for clinical outcomes. In this article, we offer detailed information on the association of brainstem dysgenesis in a large, multicentric cohort of patients with the Dandy-Walker phenotype, defining different subtypes of involvement and their potential clinical impact., Materials and Methods: In this established multicenter cohort of 329 patients with the Dandy-Walker phenotype, we include and retrospectively review the MR imaging studies and clinical records of 73 subjects with additional brainstem malformations. Detailed evaluation of the different patterns of brainstem involvement and their potential clinical implications, along with comparisons between posterior fossa measurements for the diagnosis of the Dandy-Walker phenotype, was performed among the different subgroups of patients with brainstem involvement., Results: There were 2 major forms of brainstem involvement in patients with Dandy-Walker phenotype including the following: 1) the mild form with anteroposterior disproportions of the brainstem structures "only" (57/73; 78%), most frequently with pontine hypoplasia (44/57; 77%), and 2) the severe form with patients with tegmental dysplasia with folding, bumps, and/or clefts (16/73; 22%). Patients with severe forms of brainstem malformation had significantly increased rates of massive ventriculomegaly, additional malformations involving the corpus callosum and gray matter, and interhemispheric cysts. Clinically, patients with the severe form had significantly increased rates of bulbar dysfunction, seizures, and mortality., Conclusions: Additional brainstem malformations in patients with the Dandy-Walker phenotype can be divided into 2 major subgroups: mild and severe. The severe form, though less prevalent, has characteristic imaging features, including tegmental folding, bumps, and clefts, and is directly associated with a more severe clinical presentation and increased mortality., (© 2023 by American Journal of Neuroradiology.)

Published
2023
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135. Pathogenic variants in SMARCA1 cause an X-linked neurodevelopmental disorder modulated by NURF complex composition.

Author

Picketts D, Mirzaa G, Yan K, Relator R, Timpano S, Yalcin B, Collins S, Ziegler A, Pao E, Oyama N, Brischoux-Boucher E, Piard J, Monaghan K, Sacoto MG, Dobyns W, Park K, Fernández-Mayoralas D, Fernández-Jaén A, Jayakar P, Brusco A, Antona V, Giorgio E, Kvarnung M, Isidor B, Conrad S, Cogné B, Deb W, Stuurman KE, Sterbova K, Smal N, Weckhuysen S, Oegema R, Innes M, Latsko M, Ben-Omran T, Yeh R, Kruer M, Bakhtiari S, Papavasiliou A, Moutton S, Nambot S, Chanprasert S, Paolucci S, Miller K, Burton B, Kim K, O'Heir E, Bruwer Z, Donald K, Kleefstra T, Goldstein A, Angle B, Bontempo K, Miny P, Joset P, Demurger F, Hobson E, Pang L, Carpenter L, Li D, Bonneau D, and Sadikovic B

Abstract

Pathogenic variants in ATP-dependent chromatin remodeling proteins are a recurrent cause of neurodevelopmental disorders (NDDs). The NURF complex consists of BPTF and either the SNF2H ( SMARCA5 ) or SNF2L ( SMARCA1 ) ISWI-chromatin remodeling enzyme. Pathogenic variants in BPTF and SMARCA5 were previously implicated in NDDs. Here, we describe 40 individuals from 30 families with de novo or maternally inherited pathogenic variants in SMARCA1 . This novel NDD was associated with mild to severe ID/DD, delayed or regressive speech development, and some recurrent facial dysmorphisms. Individuals carrying SMARCA1 loss-of-function variants exhibited a mild genome-wide DNA methylation profile and a high penetrance of macrocephaly. Genetic dissection of the NURF complex using Smarca1, Smarca5 , and Bptfsingle and double mouse knockouts revealed the importance of NURF composition and dosage for proper forebrain development. Finally, we propose that genetic alterations affecting different NURF components result in a NDD with a broad clinical spectrum., Competing Interests: KGM and MJGS are employees of GeneDX, LLC. All remaining authors declare no competing financial interests.

Published
2023
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136. Refining the Neuroimaging Definition of the Dandy-Walker Phenotype.

Author

Whitehead MT, Barkovich MJ, Sidpra J, Alves CA, Mirsky DM, Öztekin Ö, Bhattacharya D, Lucato LT, Sudhakar S, Taranath A, Andronikou S, Prabhu SP, Aldinger KA, Haldipur P, Millen KJ, Barkovich AJ, Boltshauser E, Dobyns WB, and Mankad K

Subjects
Humans, Retrospective Studies, Cerebellum diagnostic imaging, Cerebellum abnormalities, Neuroimaging, Magnetic Resonance Imaging methods, Cranial Fossa, Posterior diagnostic imaging, Cranial Fossa, Posterior abnormalities, Dandy-Walker Syndrome diagnostic imaging, Cysts
Abstract

Background and Purpose: The traditionally described Dandy-Walker malformation comprises a range of cerebellar and posterior fossa abnormalities with variable clinical severity. We aimed to establish updated imaging criteria for Dandy-Walker malformation on the basis of cerebellar development., Materials and Methods: In this multicenter study, retrospective MR imaging examinations from fetuses and children previously diagnosed with Dandy-Walker malformation or vermian hypoplasia were re-evaluated, using the choroid plexus/tela choroidea location and the fastigial recess shape to differentiate Dandy-Walker malformation from vermian hypoplasia. Multiple additional measures of the posterior fossa and cerebellum were also obtained and compared between Dandy-Walker malformation and other diagnoses., Results: Four hundred forty-six examinations were analyzed (174 fetal and 272 postnatal). The most common diagnoses were Dandy-Walker malformation (78%), vermian hypoplasia (14%), vermian hypoplasia with Blake pouch cyst (9%), and Blake pouch cyst (4%). Most measures were significant differentiators of Dandy-Walker malformation from non-Dandy-Walker malformation both pre- and postnatally ( P  < .01); the tegmentovermian and fastigial recess angles were the most significant quantitative measures. Posterior fossa perimeter and vascular injury evidence were not significant differentiators pre- or postnatally ( P  > .3). The superior posterior fossa angle, torcular location, and vermian height differentiated groups postnatally ( P  < .01), but not prenatally ( P  > .07)., Conclusions: As confirmed by objective measures, the modern Dandy-Walker malformation phenotype is best defined by inferior predominant vermian hypoplasia, an enlarged tegmentovermian angle, inferolateral displacement of the tela choroidea/choroid plexus, an obtuse fastigial recess, and an unpaired caudal lobule. Posterior fossa size and torcular location should be eliminated from the diagnostic criteria. This refined phenotype may help guide future study of the numerous etiologies and varied clinical outcomes., (© 2022 by American Journal of Neuroradiology.)

Published
2022
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137. ACTA2 -Related Dysgyria: An Under-Recognized Malformation of Cortical Development.

Author

Subramanian S, Biswas A, Alves CAPF, Sudhakar SV, Shekdar KV, Krishnan P, Shroff M, Taranath A, Arrigoni F, Aldinger KA, Leventer RJ, Dobyns WB, and Mankad K

Subjects
Actins genetics, Humans, Mutation, Phenotype, Retrospective Studies, Nervous System Malformations
Abstract

Background and Purpose: Pathogenic variants in the ACTA2 gene cause a distinctive arterial phenotype that has recently been described to be associated with brain malformation. Our objective was to further characterize gyral abnormalities in patients with ACTA2 pathogenic variants as per the 2020 consensus recommendations for the definition and classification of malformations of cortical development., Materials and Methods: We performed a retrospective, multicentric review of patients with proved ACTA2 pathogenic variants, searching for the presence of malformations of cortical development. A consensus read was performed for all patients, and the type and location of cortical malformation were noted in each. The presence of the typical ACTA2 arterial phenotype as well as demographic and relevant clinical data was obtained., Results: We included 13 patients with ACTA2 pathogenic variants (Arg179His mutation, n  = 11, and Arg179Cys mutation, n  = 2). Ninety-two percent (12/13) of patients had peri-Sylvian dysgyria, 77% (10/13) had frontal dysgyria, and 15% (2/13) had generalized dysgyria. The peri-Sylvian location was involved in all patients with dysgyria (12/12). All patients with dysgyria had a characteristic arterial phenotype described in ACTA2 pathogenic variants. One patient did not have dysgyria or the characteristic arterial phenotype., Conclusions: Dysgyria is common in patients with ACTA2 pathogenic variants, with a peri-Sylvian and frontal predominance, and was seen in all our patients who also had the typical ACTA2 arterial phenotype., (© 2022 by American Journal of Neuroradiology.)

Published
2022
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138. Acetylsalicylic acid suppression of the PI3K pathway as a novel medical therapy for head and neck lymphatic malformations.

Author

Bonilla-Velez J, Whitlock KB, Ganti S, Zenner K, Cheng CV, Jensen DM, Pham MM, Mitchell RM, Dobyns W, Bly RA, Bennett JT, Dahl JP, and Perkins JA

Subjects
Aspirin therapeutic use, Child, Humans, Pilot Projects, Retrospective Studies, Lymphatic Abnormalities drug therapy, Lymphatic Abnormalities genetics, Phosphatidylinositol 3-Kinases
Abstract

Objectives: Head and neck lymphatic malformations (HNLM) are caused by gain-of-function somatic mutations in PIK3CA. Acetylsalicylic acid (ASA/aspirin) is thought to limit growth in PIK3CA-mutated neoplasms through PI3K pathway suppression. We sought to determine if ASA could be beneficial for HNLM., Methods: Retrospective case series of patients (0-18 years) offered ASA (3-5 mg/kg/day) for HNLM treatment (2010-2018). Clinical and treatment characteristics, patient-reported symptom improvement, medication tolerance, compliance, and complications were recorded. Treatment response was determined by change in patient/caregiver-reported symptoms, or HNLM size [complete (resolved), partial (decreased), or stable]., Results: Fifty-three patients were offered ASA, 23 (43%) accepted (median age 10 years, IQR 6-14). Compared to patients who declined, patients receiving ASA were more likely to have extensive malformations: ex-utero intrapartum treatment procedure, bilateral malformations, oral cavity location, ≥2 invasive treatments, or tracheotomy (p < 0.05). All patients with tissue available had PIK3CA mutations (13/23). Treatment indications included oral pain/blebs (12, 52%), recurrent pain/swelling (6, 26%), or sudden/persistent swelling (5, 22%). Treatment plan was commonly one 81 mg tablet daily (19, 83%) for 3-12 months (8, 42%). Therapeutic adherence was reported by 18 patients (78%). Symptoms improved in 18 patients [78%; decreased pain (9, 39%) and swelling (8, 35%)]. Treatment resulted in partial (14, 61%) or complete response (4, 17%). Three patients developed oral bleb bleeding, which resolved with medication discontinuation., Conclusion: ASA seems to be a well-tolerated, low-risk medication for HNLM treatment. This pilot study suggests that it often improves symptoms and reduces HNLM size. Further prospective, randomized studies are warranted to comprehensively assess indications, safety, and efficacy., Level of Evidence: Level 4., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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139. A de novo GRIN1 Variant Associated With Myoclonus and Developmental Delay: From Molecular Mechanism to Rescue Pharmacology.

Author

Zhang J, Tang W, Bhatia NK, Xu Y, Paudyal N, Liu D, Kim S, Song R, XiangWei W, Shaulsky G, Myers SJ, Dobyns W, Jayaraman V, Traynelis SF, Yuan H, and Bozarth X

Abstract

N -Methyl-D-aspartate receptors (NMDARs) are highly expressed in brain and play important roles in neurodevelopment and various neuropathologic conditions. Here, we describe a new phenotype in an individual associated with a novel de novo deleterious variant in GRIN1 (c.1595C>A, p.Pro532His). The clinical phenotype is characterized with developmental encephalopathy, striking stimulus-sensitive myoclonus, and frontal lobe and frontal white matter hypoplasia, with no apparent seizures detected. NMDARs that contained the P532H within the glycine-binding domain of GluN1 with either the GluN2A or GluN2B subunits were evaluated for changes in their pharmacological and biophysical properties, which surprisingly revealed only modest changes in glycine potency but a significant decrease in glutamate potency, an increase in sensitivity to endogenous zinc inhibition, a decrease in response to maximally effective concentrations of agonists, a shortened synaptic-like response time course, a decreased channel open probability, and a reduced receptor cell surface expression. Molecule dynamics simulations suggested that the variant can lead to additional interactions across the dimer interface in the agonist-binding domains, resulting in a more open GluN2 agonist-binding domain cleft, which was also confirmed by single-molecule fluorescence resonance energy transfer measurements. Based on the functional deficits identified, several positive modulators were evaluated to explore potential rescue pharmacology., Competing Interests: HY is PI on a research grant from Sage Therapeutics to Emory University School of Medicine. ST is PI on research grants from Janssen and Biogen to Emory University School of Medicine, is a member of the SAB for Sage Therapeutics and Eumentis, Inc., is co-founder of NeurOp Inc. and Agrithera Inc., and receives royalties for software. ST and HY are co-inventors on Emory-owned Intellectual Property that includes allosteric modulators of NMDA receptor function. SM owns shares in NeurOp. Inc. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Zhang, Tang, Bhatia, Xu, Paudyal, Liu, Kim, Song, XiangWei, Shaulsky, Myers, Dobyns, Jayaraman, Traynelis, Yuan and Bozarth.)

Published
2021
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140. Pathogenic DDX3X Mutations Impair RNA Metabolism and Neurogenesis during Fetal Cortical Development.

Author

Lennox AL, Hoye ML, Jiang R, Johnson-Kerner BL, Suit LA, Venkataramanan S, Sheehan CJ, Alsina FC, Fregeau B, Aldinger KA, Moey C, Lobach I, Afenjar A, Babovic-Vuksanovic D, Bézieau S, Blackburn PR, Bunt J, Burglen L, Campeau PM, Charles P, Chung BHY, Cogné B, Curry C, D'Agostino MD, Di Donato N, Faivre L, Héron D, Innes AM, Isidor B, Keren B, Kimball A, Klee EW, Kuentz P, Küry S, Martin-Coignard D, Mirzaa G, Mignot C, Miyake N, Matsumoto N, Fujita A, Nava C, Nizon M, Rodriguez D, Blok LS, Thauvin-Robinet C, Thevenon J, Vincent M, Ziegler A, Dobyns W, Richards LJ, Barkovich AJ, Floor SN, Silver DL, and Sherr EH

Subjects
Animals, Cell Line, Tumor, Cells, Cultured, Cerebral Cortex abnormalities, Cerebral Cortex embryology, Female, Humans, Male, Mice, Mice, Inbred C57BL, Neurodevelopmental Disorders pathology, RNA metabolism, Cerebral Cortex metabolism, DEAD-box RNA Helicases genetics, Mutation, Missense, Neurodevelopmental Disorders genetics, Neurogenesis
Abstract

De novo germline mutations in the RNA helicase DDX3X account for 1%-3% of unexplained intellectual disability (ID) cases in females and are associated with autism, brain malformations, and epilepsy. Yet, the developmental and molecular mechanisms by which DDX3X mutations impair brain function are unknown. Here, we use human and mouse genetics and cell biological and biochemical approaches to elucidate mechanisms by which pathogenic DDX3X variants disrupt brain development. We report the largest clinical cohort to date with DDX3X mutations (n = 107), demonstrating a striking correlation between recurrent dominant missense mutations, polymicrogyria, and the most severe clinical outcomes. We show that Ddx3x controls cortical development by regulating neuron generation. Severe DDX3X missense mutations profoundly disrupt RNA helicase activity, induce ectopic RNA-protein granules in neural progenitors and neurons, and impair translation. Together, these results uncover key mechanisms underlying DDX3X syndrome and highlight aberrant RNA metabolism in the pathogenesis of neurodevelopmental disease., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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141. Approach to overgrowth syndromes in the genome era.

Author

Burkardt DD, Tatton-Brown K, Dobyns W, and Graham JM Jr

Subjects
Brain growth & development, Humans, Syndrome, Growth Disorders genetics
Abstract

This introduction to the special issue of AJMG Part C: Overgrowth Syndromes updates the current understanding of overgrowth syndromes. We clarify the terminology associated with overgrowth, review some common pathways to overgrowth and present a preliminary classification based on currently known genomic and epigenetic mechanisms. We introduce the articles of this issue-new research and reviews of well-established and recently described overgrowth syndromes of the brain, body or both., (© 2019 Wiley Periodicals, Inc.)

Published
2019
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142. Costello syndrome: Clinical phenotype, genotype, and management guidelines.

Author

Gripp KW, Morse LA, Axelrad M, Chatfield KC, Chidekel A, Dobyns W, Doyle D, Kerr B, Lin AE, Schwartz DD, Sibbles BJ, Siegel D, Shankar SP, Stevenson DA, Thacker MM, Weaver KN, White SM, and Rauen KA

Subjects
Abnormalities, Multiple physiopathology, Costello Syndrome physiopathology, Costello Syndrome therapy, Developmental Disabilities genetics, Developmental Disabilities physiopathology, Disease Management, Face abnormalities, Gene Expression Regulation genetics, Genotype, Germ-Line Mutation genetics, Guidelines as Topic, Heart Defects, Congenital genetics, Heart Defects, Congenital physiopathology, Humans, Phenotype, Abnormalities, Multiple genetics, Costello Syndrome genetics, Heart physiopathology, Proto-Oncogene Proteins p21(ras) genetics
Abstract

Costello syndrome (CS) is a RASopathy caused by activating germline mutations in HRAS. Due to ubiquitous HRAS gene expression, CS affects multiple organ systems and individuals are predisposed to cancer. Individuals with CS may have distinctive craniofacial features, cardiac anomalies, growth and developmental delays, as well as dermatological, orthopedic, ocular, and neurological issues; however, considerable overlap with other RASopathies exists. Medical evaluation requires an understanding of the multifaceted phenotype. Subspecialists may have limited experience in caring for these individuals because of the rarity of CS. Furthermore, the phenotypic presentation may vary with the underlying genotype. These guidelines were developed by an interdisciplinary team of experts in order to encourage timely health care practices and provide medical management guidelines for the primary and specialty care provider, as well as for the families and affected individuals across their lifespan. These guidelines are based on expert opinion and do not represent evidence-based guidelines due to the lack of data for this rare condition., (© 2019 Wiley Periodicals, Inc.)

Published
2019
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143. Autosomal-dominant early-onset spastic paraparesis with brain calcification due to IFIH1 gain-of-function.

Author

Ruaud L, Rice GI, Cabrol C, Piard J, Rodero M, van Eyk L, Boucher-Brischoux E, de Noordhout AM, Maré R, Scalais E, Pauly F, Debray FG, Dobyns W, Uggenti C, Park JW, Hur S, Livingston JH, Crow YJ, and Van Maldergem L

Subjects
Algorithms, Brain Diseases genetics, Calcinosis genetics, Female, Gain of Function Mutation genetics, HEK293 Cells, Heterozygote, Humans, Male, Mutation, Missense genetics, Pedigree, Interferon-Induced Helicase, IFIH1 genetics, Paraparesis, Spastic genetics
Abstract

We describe progressive spastic paraparesis in two male siblings and the daughter of one of these individuals. Onset of disease occurred within the first decade, with stiffness and gait difficulties. Brisk deep tendon reflexes and extensor plantar responses were present, in the absence of intellectual disability or dermatological manifestations. Cerebral imaging identified intracranial calcification in all symptomatic family members. A marked upregulation of interferon-stimulated gene transcripts was recorded in all three affected individuals and in two clinically unaffected relatives. A heterozygous IFIH1 c.2544T>G missense variant (p.Asp848Glu) segregated with interferon status. Although not highly conserved (CADD score 10.08 vs. MSC-CADD score of 19.33) and predicted as benign by in silico algorithms, this variant is not present on publically available databases of control alleles, and expression of the D848E construct in HEK293T cells indicated that it confers a gain-of-function. This report illustrates, for the first time, the occurrence of autosomal-dominant spastic paraplegia with intracranial calcifications due to an IFIH1-related type 1 interferonopathy., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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144. Homozygous TAF8 mutation in a patient with intellectual disability results in undetectable TAF8 protein, but preserved RNA polymerase II transcription.

Author

El-Saafin F, Curry C, Ye T, Garnier JM, Kolb-Cheynel I, Stierle M, Downer NL, Dixon MP, Negroni L, Berger I, Thomas T, Voss AK, Dobyns W, Devys D, and Tora L

Subjects
Animals, Blastocyst metabolism, Cell Death genetics, Disease Models, Animal, Drosophila genetics, Homozygote, Humans, Intellectual Disability diagnostic imaging, Intellectual Disability physiopathology, Mice, Microcephaly diagnostic imaging, Microcephaly pathology, Mouse Embryonic Stem Cells metabolism, Mutation, RNA Polymerase II genetics, Intellectual Disability genetics, Microcephaly genetics, Transcription Factor TFIID genetics, Transcription, Genetic
Abstract

The human general transcription factor TFIID is composed of the TATA-binding protein (TBP) and 13 TBP-associated factors (TAFs). In eukaryotic cells, TFIID is thought to nucleate RNA polymerase II (Pol II) preinitiation complex formation on all protein coding gene promoters and thus, be crucial for Pol II transcription. In a child with intellectual disability, mild microcephaly, corpus callosum agenesis and poor growth, we identified a homozygous splice-site mutation in TAF8 (NM&#95;138572.2: c.781-1G > A). Our data indicate that the patient's mutation generates a frame shift and an unstable TAF8 mutant protein with an unrelated C-terminus. The mutant TAF8 protein could not be detected in extracts from the patient's fibroblasts, indicating a loss of TAF8 function and that the mutation is most likely causative. Moreover, our immunoprecipitation and proteomic analyses show that in patient cells only partial TAF complexes exist and that the formation of the canonical TFIID is impaired. In contrast, loss of TAF8 in mouse embryonic stem cells and blastocysts leads to cell death and to a global decrease in Pol II transcription. Astonishingly however, in human TAF8 patient cells, we could not detect any cellular phenotype, significant changes in genome-wide Pol II occupancy and pre-mRNA transcription. Thus, the disorganization of the essential holo-TFIID complex did not affect global Pol II transcription in the patient's fibroblasts. Our observations further suggest that partial TAF complexes, and/or an altered TFIID containing a mutated TAF8, could support human development and thus, the absence of holo-TFIID is less deleterious for transcription than originally predicted.

Published
2018
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145. Abstracts from Hydrocephalus 2016.

Author

Adam A, Robison J, Lu J, Jose R, Badran N, Vivas-Buitrago T, Rigamonti D, Sattar A, Omoush O, Hammad M, Dawood M, Maghaslah M, Belcher T, Carson K, Hoffberger J, Jusué Torres I, Foley S, Yasar S, Thai QA, Wemmer J, Klinge P, Al-Mutawa L, Al-Ghamdi H, Carson KA, Asgari M, de Zélicourt D, Kurtcuoglu V, Garnotel S, Salmon S, Balédent O, Lokossou A, Page G, Balardy L, Czosnyka Z, Payoux P, Schmidt EA, Zitoun M, Sevestre MA, Alperin N, Baudracco I, Craven C, Matloob S, Thompson S, Haylock Vize P, Thorne L, Watkins LD, Toma AK, Bechter K, Pong AC, Jugé L, Bilston LE, Cheng S, Bradley W, Hakim F, Ramón JF, Cárdenas MF, Davidson JS, García C, González D, Bermúdez S, Useche N, Mejía JA, Mayorga P, Cruz F, Martinez C, Matiz MC, Vallejo M, Ghotme K, Soto HA, Riveros D, Buitrago A, Mora M, Murcia L, Bermudez S, Cohen D, Dasgupta D, Curtis C, Domínguez L, Remolina AJ, Grijalba MA, Whitehouse KJ, Edwards RJ, Eleftheriou A, Lundin F, Fountas KN, Kapsalaki EZ, Smisson HF, Robinson JS, Fritsch MJ, Arouk W, Garzon M, Kang M, Sandhu K, Baghawatti D, Aquilina K, James G, Thompson D, Gehlen M, Schmid Daners M, Eklund A, Malm J, Gomez D, Guerra M, Jara M, Flores M, Vío K, Moreno I, Rodríguez S, Ortega E, Rodríguez EM, McAllister JP, Guerra MM, Morales DM, Sival D, Jimenez A, Limbrick DD, Ishikawa M, Yamada S, Yamamoto K, Junkkari A, Häyrinen A, Rauramaa T, Sintonen H, Nerg O, Koivisto AM, Roine RP, Viinamäki H, Soininen H, Luikku A, Jääskeläinen JE, Leinonen V, Kehler U, Lilja-Lund O, Kockum K, Larsson EM, Riklund K, Söderström L, Hellström P, Laurell K, Kojoukhova M, Sutela A, Vanninen R, Vanha KI, Timonen M, Rummukainen J, Korhonen V, Helisalmi S, Solje E, Remes AM, Huovinen J, Paananen J, Hiltunen M, Kurki M, Martin B, Loth F, Luciano M, Luikku AJ, Hall A, Herukka SK, Mattila J, Lötjönen J, Alafuzoff I, Jurjević I, Miyajima M, Nakajima M, Murai H, Shin T, Kawaguchi D, Akiba C, Ogino I, Karagiozov K, Arai H, Reis RC, Teixeira MJ, Valêncio CG, da Vigua D, Almeida-Lopes L, Mancini MW, Pinto FCG, Maykot RH, Calia G, Tornai J, Silvestre SSS, Mendes G, Sousa V, Bezerra B, Dutra P, Modesto P, Oliveira MF, Petitto CE, Pulhorn H, Chandran A, McMahon C, Rao AS, Jumaly M, Solomon D, Moghekar A, Relkin N, Hamilton M, Katzen H, Williams M, Bach T, Zuspan S, Holubkov R, Rigamonti A, Clemens G, Sharkey P, Sanyal A, Sankey E, Rigamonti K, Naqvi S, Hung A, Schmidt E, Ory-Magne F, Gantet P, Guenego A, Januel AC, Tall P, Fabre N, Mahieu L, Cognard C, Gray L, Buttner-Ennever JA, Takagi K, Onouchi K, Thompson SD, Thorne LD, Tully HM, Wenger TL, Kukull WA, Doherty D, Dobyns WB, Moran D, Vakili S, Patel MA, Elder B, Goodwin CR, Crawford JA, Pletnikov MV, Xu J, Blitz A, Herzka DA, Guerrero-Cazares H, Quiñones-Hinojosa A, Mori S, Saavedra P, Treviño H, Maitani K, Ziai WC, Eslami V, Nekoovaght-Tak S, Dlugash R, Yenokyan G, McBee N, and Hanley DF

Published
2017
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146. Description of 13 Infants Born During October 2015-January 2016 With Congenital Zika Virus Infection Without Microcephaly at Birth - Brazil.

Author

van der Linden V, Pessoa A, Dobyns W, Barkovich AJ, Júnior HV, Filho EL, Ribeiro EM, Leal MC, Coimbra PP, Aragão MF, Verçosa I, Ventura C, Ramos RC, Cruz DD, Cordeiro MT, Mota VM, Dott M, Hillard C, and Moore CA

Subjects
Brazil epidemiology, Female, Humans, Infant, Infant, Newborn, Male, Pregnancy, Pregnancy Complications, Infectious, Retrospective Studies, Microcephaly epidemiology, Zika Virus isolation & purification, Zika Virus Infection congenital, Zika Virus Infection diagnosis
Abstract

Congenital Zika virus infection can cause microcephaly and severe brain abnormalities (1). Congenital Zika syndrome comprises a spectrum of clinical features (2); however, as is the case with most newly recognized teratogens, the earliest documented clinical presentation is expected to be the most severe. Initial descriptions of the effects of in utero Zika virus infection centered prominently on the finding of congenital microcephaly (3). To assess the possibility of clinical presentations that do not include congenital microcephaly, a retrospective assessment of 13 infants from the Brazilian states of Pernambuco and Ceará with normal head size at birth and laboratory evidence of congenital Zika virus infection was conducted. All infants had brain abnormalities on neuroimaging consistent with congenital Zika syndrome, including decreased brain volume, ventriculomegaly, subcortical calcifications, and cortical malformations. The earliest evaluation occurred on the second day of life. Among all infants, head growth was documented to have decelerated as early as 5 months of age, and 11 infants had microcephaly. These findings provide evidence that among infants with prenatal exposure to Zika virus, the absence of microcephaly at birth does not exclude congenital Zika virus infection or the presence of Zika-related brain and other abnormalities. These findings support the recommendation for comprehensive medical and developmental follow-up of infants exposed to Zika virus prenatally. Early neuroimaging might identify brain abnormalities related to congenital Zika infection even among infants with a normal head circumference (4).

Published
2016
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147. PIK3CA-related overgrowth spectrum (PROS): diagnostic and testing eligibility criteria, differential diagnosis, and evaluation.

Author

Keppler-Noreuil KM, Rios JJ, Parker VE, Semple RK, Lindhurst MJ, Sapp JC, Alomari A, Ezaki M, Dobyns W, and Biesecker LG

Subjects
Class I Phosphatidylinositol 3-Kinases, Diagnosis, Differential, Genetic Association Studies, Genetic Testing, Humans, Phenotype, Phosphatidylinositol 3-Kinases metabolism, Syndrome, Growth Disorders diagnosis, Growth Disorders genetics, Phosphatidylinositol 3-Kinases genetics
Abstract

Somatic activating mutations in the phosphatidylinositol-3-kinase/AKT/mTOR pathway underlie heterogeneous segmental overgrowth phenotypes. Because of the extreme differences among patients, we sought to characterize the phenotypic spectrum associated with different genotypes and mutation burdens, including a better understanding of associated complications and natural history. Historically, the clinical diagnoses in patients with PIK3CA activating mutations have included Fibroadipose hyperplasia or Overgrowth (FAO), Hemihyperplasia Multiple Lipomatosis (HHML), Congenital Lipomatous Overgrowth, Vascular Malformations, Epidermal Nevi, Scoliosis/Skeletal and Spinal (CLOVES) syndrome, macrodactyly, Fibroadipose Infiltrating Lipomatosis, and the related megalencephaly syndromes, Megalencephaly-Capillary Malformation (MCAP or M-CM) and Dysplastic Megalencephaly (DMEG). A workshop was convened at the National Institutes of Health (NIH) to discuss and develop a consensus document regarding diagnosis and treatment of patients with PIK3CA-associated somatic overgrowth disorders. Participants in the workshop included a group of researchers from several institutions who have been studying these disorders and have published their findings, as well as representatives from patient-advocacy and support groups. The umbrella term of "PIK3CA-Related Overgrowth Spectrum (PROS)" was agreed upon to encompass both the known and emerging clinical entities associated with somatic PIK3CA mutations including, macrodactyly, FAO, HHML, CLOVES, and related megalencephaly conditions. Key clinical diagnostic features and criteria for testing were proposed, and testing approaches summarized. Preliminary recommendations for a uniform approach to assessment of overgrowth and molecular diagnostic testing were determined. Future areas to address include the surgical management of overgrowth tissue and vascular anomalies, the optimal approach to thrombosis risk, and the testing of potential pharmacologic therapies., (© 2014 Wiley Periodicals, Inc.)

Published
2015
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148. Ultra-high-field MR imaging in polymicrogyria and epilepsy.

Author

De Ciantis A, Barkovich AJ, Cosottini M, Barba C, Montanaro D, Costagli M, Tosetti M, Biagi L, Dobyns WB, and Guerrini R

Subjects
Adolescent, Adult, Cerebral Angiography methods, Cerebral Cortex pathology, Child, Child, Preschool, Epilepsy etiology, Female, Humans, Imaging, Three-Dimensional methods, Infant, Male, Middle Aged, Polymicrogyria complications, Epilepsy pathology, Magnetic Resonance Imaging methods, Neuroimaging methods, Polymicrogyria pathology
Abstract

Background and Purpose: Polymicrogyria is a malformation of cortical development that is often identified in children with epilepsy or delayed development. We investigated in vivo the potential of 7T imaging in characterizing polymicrogyria to determine whether additional features could be identified., Materials and Methods: Ten adult patients with polymicrogyria previously diagnosed by using 3T MR imaging underwent additional imaging at 7T. We assessed polymicrogyria according to topographic pattern, extent, symmetry, and morphology. Additional imaging sequences at 7T included 3D T2* susceptibility-weighted angiography and 2D tissue border enhancement FSE inversion recovery. Minimum intensity projections were used to assess the potential of the susceptibility-weighted angiography sequence for depiction of cerebral veins., Results: At 7T, we observed perisylvian polymicrogyria that was bilateral in 6 patients, unilateral in 3, and diffuse in 1. Four of the 6 bilateral abnormalities had been considered unilateral at 3T. While 3T imaging revealed 2 morphologic categories (coarse, delicate), 7T susceptibility-weighted angiography images disclosed a uniform ribbonlike pattern. Susceptibility-weighted angiography revealed numerous dilated superficial veins in all polymicrogyric areas. Tissue border enhancement imaging depicted a hypointense line corresponding to the gray-white interface, providing a high definition of the borders and, thereby, improving detection of the polymicrogyric cortex., Conclusions: 7T imaging reveals more anatomic details of polymicrogyria compared with 3T conventional sequences, with potential implications for diagnosis, genetic studies, and surgical treatment of associated epilepsy. Abnormalities of cortical veins may suggest a role for vascular dysgenesis in pathogenesis., (© 2015 by American Journal of Neuroradiology.)

Published
2015
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149. X Chromosome-Inactivation Patterns in 31 Individuals with PHACE Syndrome.

Author

Sullivan CT, Christian SL, Shieh JT, Metry D, Blei F, Krol A, Drolet BA, Frieden IJ, Dobyns WB, and Siegel DH

Abstract

Segmental hemangiomas of the head and neck can be associated with multiple congenital anomalies in the disorder known as PHACE syndrome (OMIM 606519) (posterior fossa malformations, hemangioma, arterial anomalies, cardiac defects, and eye anomalies). All reported cases of PHACE syndrome to date have been sporadic, and the genetic basis of this disorder has not yet been established. PHACE syndrome has a striking female predominance which has raised the question of X-linked inheritance. In this study, the X chromosome-inactivation (XCI) patterns of 31 females with PHACE syndrome and their mothers were analyzed using blood-derived DNA and X-chromosome locus methylation assay. This study was performed to test the hypothesis that some cases of PHACE syndrome are due to X-linked inheritance and favorable skewing in the mothers may protect against a severe phenotype, but the clinical phenotype may be unmasked in daughters with a random pattern of X-inactivation. XCI analysis was informative in 27/31 mothers. Our results identified skewed XCI in 5 of 27 (19%) informative mothers, which is not statistically significant with a p value of 0.41. None of the mothers reported significant medical problems, although a full PHACE work-up has not been performed in these individuals. Skewed XCI in the mothers of children with PHACE was identified in only a minority of cases. Based on these results, genetic heterogeneity is likely in PHACE syndrome, although it is possible a subset of cases are caused by a mutation in an X-linked gene.

Published
2013
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150. Bioinformatics and data-intensive scientific discovery in the beginning of the 21st century.

Author

Barga R, Howe B, Beck D, Bowers S, Dobyns W, Haynes W, Higdon R, Howard C, Roth C, Stewart E, Welch D, and Kolker E

Subjects
Computational Biology trends, Biological Science Disciplines methods, Computational Biology methods
Abstract

This article is a summary of the bioinformatics issues and challenges of data-intensive science as discussed in the NSF-funded Data-Intensive Science (DIS) workshop in Seattle, September 19-20, 2010., (© Mary Ann Liebert, Inc.)

Published
2011
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