Your search keyword '"Hajianpour MJ"' showing total 13 results

1. Clustered de novo start-loss variants in GLUL result in a developmental and epileptic encephalopathy via stabilization of glutamine synthetase.

Author

Jones AG, Aquilino M, Tinker RJ, Duncan L, Jenkins Z, Carvill GL, DeWard SJ, Grange DK, Hajianpour MJ, Halliday BJ, Holder-Espinasse M, Horvath J, Maitz S, Nigro V, Morleo M, Paul V, Spencer C, Esterhuizen AI, Polster T, Spano A, Gómez-Lozano I, Kumar A, Poke G, Phillips JA 3rd, Underhill HR, Gimenez G, Namba T, and Robertson SP

Subjects

Animals, Humans, Mice, Brain metabolism, Glutamates metabolism, Epilepsy, Generalized genetics, Glutamate-Ammonia Ligase genetics, Glutamate-Ammonia Ligase metabolism, Glutamine genetics, Glutamine metabolism

Abstract

Glutamine synthetase (GS), encoded by GLUL, catalyzes the conversion of glutamate to glutamine. GS is pivotal for the generation of the neurotransmitters glutamate and gamma-aminobutyric acid and is the primary mechanism of ammonia detoxification in the brain. GS levels are regulated post-translationally by an N-terminal degron that enables the ubiquitin-mediated degradation of GS in a glutamine-induced manner. GS deficiency in humans is known to lead to neurological defects and death in infancy, yet how dysregulation of the degron-mediated control of GS levels might affect neurodevelopment is unknown. We ascertained nine individuals with severe developmental delay, seizures, and white matter abnormalities but normal plasma and cerebrospinal fluid biochemistry with de novo variants in GLUL. Seven out of nine were start-loss variants and two out of nine disrupted 5' UTR splicing resulting in splice exclusion of the initiation codon. Using transfection-based expression systems and mass spectrometry, these variants were shown to lead to translation initiation of GS from methionine 18, downstream of the N-terminal degron motif, resulting in a protein that is stable and enzymatically competent but insensitive to negative feedback by glutamine. Analysis of human single-cell transcriptomes demonstrated that GLUL is widely expressed in neuro- and glial-progenitor cells and mature astrocytes but not in post-mitotic neurons. One individual with a start-loss GLUL variant demonstrated periventricular nodular heterotopia, a neuronal migration disorder, yet overexpression of stabilized GS in mice using in utero electroporation demonstrated no migratory deficits. These findings underline the importance of tight regulation of glutamine metabolism during neurodevelopment in humans., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 American Society of Human Genetics. All rights reserved.)

Published

2024

2. Unveiling the crucial neuronal role of the proteasomal ATPase subunit gene PSMC5 in neurodevelopmental proteasomopathies.

Author

Küry S, Stanton JE, van Woerden G, Hsieh TC, Rosenfelt C, Scott-Boyer MP, Most V, Wang T, Papendorf JJ, de Konink C, Deb W, Vignard V, Studencka-Turski M, Besnard T, Hajdukowicz AM, Thiel F, Möller S, Florenceau L, Cuinat S, Marsac S, Wentzensen I, Tuttle A, Forster C, Striesow J, Golnik R, Ortiz D, Jenkins L, Rosenfeld JA, Ziegler A, Houdayer C, Bonneau D, Torti E, Begtrup A, Monaghan KG, Mullegama SV, Volker-Touw CMLN, van Gassen KLI, Oegema R, de Pagter M, Steindl K, Rauch A, Ivanovski I, McDonald K, Boothe E, Dauber A, Baker J, Fabie NAV, Bernier RA, Turner TN, Srivastava S, Dies KA, Swanson L, Costin C, Jobling RK, Pappas J, Rabin R, Niyazov D, Tsai AC, Kovak K, Beck DB, Malicdan M, Adams DR, Wolfe L, Ganetzky RD, Muraresku C, Babikyan D, Sedláček Z, Hančárová M, Timberlake AT, Al Saif H, Nestler B, King K, Hajianpour MJ, Costain G, Prendergast D, Li C, Geneviève D, Vitobello A, Sorlin A, Philippe C, Harel T, Toker O, Sabir A, Lim D, Hamilton M, Bryson L, Cleary E, Weber S, Hoffman TL, Cueto-González AM, Tizzano EF, Gómez-Andrés D, Codina-Solà M, Ververi A, Pavlidou E, Lambropoulos A, Garganis K, Rio M, Levy J, Jurgensmeyer S, McRae AM, Lessard MK, D'Agostino MD, De Bie I, Wegler M, Jamra RA, Kamphausen SB, Bothe V, Busch LM, Völker U, Hammer E, Wende K, Cogné B, Isidor B, Meiler J, Bosc-Rosati A, Marcoux J, Bousquet MP, Poschmann J, Laumonnier F, Hildebrand PW, Eichler EE, McWalter K, Krawitz PM, Droit A, Elgersma Y, Grabrucker AM, Bolduc FV, Bézieau S, Ebstein F, and Krüger E

Abstract

Neurodevelopmental proteasomopathies represent a distinctive category of neurodevelopmental disorders (NDD) characterized by genetic variations within the 26S proteasome, a protein complex governing eukaryotic cellular protein homeostasis. In our comprehensive study, we identified 23 unique variants in PSMC5 , which encodes the AAA-ATPase proteasome subunit PSMC5/Rpt6, causing syndromic NDD in 38 unrelated individuals. Overexpression of PSMC5 variants altered human hippocampal neuron morphology, while PSMC5 knockdown led to impaired reversal learning in flies and loss of excitatory synapses in rat hippocampal neurons. PSMC5 loss-of-function resulted in abnormal protein aggregation, profoundly impacting innate immune signaling, mitophagy rates, and lipid metabolism in affected individuals. Importantly, targeting key components of the integrated stress response, such as PKR and GCN2 kinases, ameliorated immune dysregulations in cells from affected individuals. These findings significantly advance our understanding of the molecular mechanisms underlying neurodevelopmental proteasomopathies, provide links to research in neurodegenerative diseases, and open up potential therapeutic avenues.

Published

2024

3. SLC6A1 variant pathogenicity, molecular function and phenotype: a genetic and clinical analysis.

Author

Stefanski A, Pérez-Palma E, Brünger T, Montanucci L, Gati C, Klöckner C, Johannesen KM, Goodspeed K, Macnee M, Deng AT, Aledo-Serrano Á, Borovikov A, Kava M, Bouman AM, Hajianpour MJ, Pal DK, Engelen M, Hagebeuk EEO, Shinawi M, Heidlebaugh AR, Oetjens K, Hoffman TL, Striano P, Freed AS, Futtrup L, Balslev T, Abulí A, Danvoye L, Lederer D, Balci T, Nouri MN, Butler E, Drewes S, van Engelen K, Howell KB, Khoury J, May P, Trinidad M, Froelich S, Lemke JR, Tiller J, Freed AN, Kang JQ, Wuster A, Møller RS, and Lal D

Subjects

Humans, Phenotype, GABA Plasma Membrane Transport Proteins genetics, GABA Plasma Membrane Transport Proteins metabolism, Genetic Association Studies, Mutation, Missense

Abstract

Genetic variants in the SLC6A1 gene can cause a broad phenotypic disease spectrum by altering the protein function. Thus, systematically curated clinically relevant genotype-phenotype associations are needed to understand the disease mechanism and improve therapeutic decision-making. We aggregated genetic and clinical data from 172 individuals with likely pathogenic/pathogenic (lp/p) SLC6A1 variants and functional data for 184 variants (14.1% lp/p). Clinical and functional data were available for a subset of 126 individuals. We explored the potential associations of variant positions on the GAT1 3D structure with variant pathogenicity, altered molecular function and phenotype severity using bioinformatic approaches. The GAT1 transmembrane domains 1, 6 and extracellular loop 4 (EL4) were enriched for patient over population variants. Across functionally tested missense variants (n = 156), the spatial proximity from the ligand was associated with loss-of-function in the GAT1 transporter activity. For variants with complete loss of in vitro GABA uptake, we found a 4.6-fold enrichment in patients having severe disease versus non-severe disease (P = 2.9 × 10-3, 95% confidence interval: 1.5-15.3). In summary, we delineated associations between the 3D structure and variant pathogenicity, variant function and phenotype in SLC6A1-related disorders. This knowledge supports biology-informed variant interpretation and research on GAT1 function. All our data can be interactively explored in the SLC6A1 portal (https://slc6a1-portal.broadinstitute.org/)., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2023

4. Gain and loss of function variants in EZH1 disrupt neurogenesis and cause dominant and recessive neurodevelopmental disorders.

Author

Gracia-Diaz C, Zhou Y, Yang Q, Maroofian R, Espana-Bonilla P, Lee CH, Zhang S, Padilla N, Fueyo R, Waxman EA, Lei S, Otrimski G, Li D, Sheppard SE, Mark P, Harr MH, Hakonarson H, Rodan L, Jackson A, Vasudevan P, Powel C, Mohammed S, Maddirevula S, Alzaidan H, Faqeih EA, Efthymiou S, Turchetti V, Rahman F, Maqbool S, Salpietro V, Ibrahim SH, di Rosa G, Houlden H, Alharbi MN, Al-Sannaa NA, Bauer P, Zifarelli G, Estaras C, Hurst ACE, Thompson ML, Chassevent A, Smith-Hicks CL, de la Cruz X, Holtz AM, Elloumi HZ, Hajianpour MJ, Rieubland C, Braun D, Banka S, French DL, Heller EA, Saade M, Song H, Ming GL, Alkuraya FS, Agrawal PB, Reinberg D, Bhoj EJ, Martínez-Balbás MA, and Akizu N

Subjects

Animals, Chick Embryo, Humans, Cell Differentiation genetics, Cell Nucleus, Chromatin genetics, Methyltransferases, Neurodevelopmental Disorders genetics, Neurogenesis genetics, Polycomb Repressive Complex 2 genetics

Abstract

Genetic variants in chromatin regulators are frequently found in neurodevelopmental disorders, but their effect in disease etiology is rarely determined. Here, we uncover and functionally define pathogenic variants in the chromatin modifier EZH1 as the cause of dominant and recessive neurodevelopmental disorders in 19 individuals. EZH1 encodes one of the two alternative histone H3 lysine 27 methyltransferases of the PRC2 complex. Unlike the other PRC2 subunits, which are involved in cancers and developmental syndromes, the implication of EZH1 in human development and disease is largely unknown. Using cellular and biochemical studies, we demonstrate that recessive variants impair EZH1 expression causing loss of function effects, while dominant variants are missense mutations that affect evolutionarily conserved aminoacids, likely impacting EZH1 structure or function. Accordingly, we found increased methyltransferase activity leading to gain of function of two EZH1 missense variants. Furthermore, we show that EZH1 is necessary and sufficient for differentiation of neural progenitor cells in the developing chick embryo neural tube. Finally, using human pluripotent stem cell-derived neural cultures and forebrain organoids, we demonstrate that EZH1 variants perturb cortical neuron differentiation. Overall, our work reveals a critical role of EZH1 in neurogenesis regulation and provides molecular diagnosis for previously undefined neurodevelopmental disorders., (© 2023. The Author(s).)

Published

2023

5. New insights into the clinical and molecular spectrum of the novel CYFIP2-related neurodevelopmental disorder and impairment of the WRC-mediated actin dynamics.

Author

Begemann A, Sticht H, Begtrup A, Vitobello A, Faivre L, Banka S, Alhaddad B, Asadollahi R, Becker J, Bierhals T, Brown KE, Bruel AL, Brunet T, Carneiro M, Cremer K, Day R, Denommé-Pichon AS, Dyment DA, Engels H, Fisher R, Goh ES, Hajianpour MJ, Haertel LRM, Hauer N, Hempel M, Herget T, Johannsen J, Kraus C, Le Guyader G, Lesca G, Mau-Them FT, McDermott JH, McWalter K, Meyer P, Õunap K, Popp B, Reimand T, Riedhammer KM, Russo M, Sadleir LG, Saenz M, Schiff M, Schuler E, Syrbe S, Van der Ven AT, Verloes A, Willems M, Zweier C, Steindl K, Zweier M, and Rauch A

Subjects

Actins genetics, Adaptor Proteins, Signal Transducing metabolism, Humans, Seizures, Intellectual Disability genetics, Neurodevelopmental Disorders genetics

Abstract

Purpose: A few de novo missense variants in the cytoplasmic FMRP-interacting protein 2 (CYFIP2) gene have recently been described as a novel cause of severe intellectual disability, seizures, and hypotonia in 18 individuals, with p.Arg87 substitutions in the majority., Methods: We assembled data from 19 newly identified and all 18 previously published individuals with CYFIP2 variants. By structural modeling and investigation of WAVE-regulatory complex (WRC)-mediated actin polymerization in six patient fibroblast lines we assessed the impact of CYFIP2 variants on the WRC., Results: Sixteen of 19 individuals harbor two previously described and 11 novel (likely) disease-associated missense variants. We report p.Asp724 as second mutational hotspot (4/19 cases). Genotype-phenotype correlation confirms a consistently severe phenotype in p.Arg87 patients but a more variable phenotype in p.Asp724 and other substitutions. Three individuals with milder phenotypes carry putative loss-of-function variants, which remain of unclear pathogenicity. Structural modeling predicted missense variants to disturb interactions within the WRC or impair CYFIP2 stability. Consistent with its role in WRC-mediated actin polymerization we substantiate aberrant regulation of the actin cytoskeleton in patient fibroblasts., Conclusion: Our study expands the clinical and molecular spectrum of CYFIP2-related neurodevelopmental disorder and provides evidence for aberrant WRC-mediated actin dynamics as contributing cellular pathomechanism.

Published

2021

6. GATAD2B-associated neurodevelopmental disorder (GAND): clinical and molecular insights into a NuRD-related disorder.

Author

Shieh C, Jones N, Vanle B, Au M, Huang AY, Silva APG, Lee H, Douine ED, Otero MG, Choi A, Grand K, Taff IP, Delgado MR, Hajianpour MJ, Seeley A, Rohena L, Vernon H, Gripp KW, Vergano SA, Mahida S, Naidu S, Sousa AB, Wain KE, Challman TD, Beek G, Basel D, Ranells J, Smith R, Yusupov R, Freckmann ML, Ohden L, Davis-Keppen L, Chitayat D, Dowling JJ, Finkel R, Dauber A, Spillmann R, Pena LDM, Metcalfe K, Splitt M, Lachlan K, McKee SA, Hurst J, Fitzpatrick DR, Morton JEV, Cox H, Venkateswaran S, Young JI, Marsh ED, Nelson SF, Martinez JA, Graham JM Jr, Kini U, Mackay JP, and Pierson TM

Subjects

Child, Female, GATA Transcription Factors genetics, Humans, Nucleosomes, Phenotype, Pregnancy, Repressor Proteins, Intellectual Disability genetics, Megalencephaly, Neurodevelopmental Disorders genetics

Abstract

Purpose: Determination of genotypic/phenotypic features of GATAD2B-associated neurodevelopmental disorder (GAND)., Methods: Fifty GAND subjects were evaluated to determine consistent genotypic/phenotypic features. Immunoprecipitation assays utilizing in vitro transcription-translation products were used to evaluate GATAD2B missense variants' ability to interact with binding partners within the nucleosome remodeling and deacetylase (NuRD) complex., Results: Subjects had clinical findings that included macrocephaly, hypotonia, intellectual disability, neonatal feeding issues, polyhydramnios, apraxia of speech, epilepsy, and bicuspid aortic valves. Forty-one novelGATAD2B variants were identified with multiple variant types (nonsense, truncating frameshift, splice-site variants, deletions, and missense). Seven subjects were identified with missense variants that localized within two conserved region domains (CR1 or CR2) of the GATAD2B protein. Immunoprecipitation assays revealed several of these missense variants disrupted GATAD2B interactions with its NuRD complex binding partners., Conclusions: A consistent GAND phenotype was caused by a range of genetic variants in GATAD2B that include loss-of-function and missense subtypes. Missense variants were present in conserved region domains that disrupted assembly of NuRD complex proteins. GAND's clinical phenotype had substantial clinical overlap with other disorders associated with the NuRD complex that involve CHD3 and CHD4, with clinical features of hypotonia, intellectual disability, cardiac defects, childhood apraxia of speech, and macrocephaly.

Published

2020

7. Correction: GATAD2B-associated neurodevelopmental disorder (GAND): clinical and molecular insights into a NuRD-related disorder.

Author

Shieh C, Jones N, Vanle B, Au M, Huang AY, Silva APG, Lee H, Douine ED, Otero MG, Choi A, Grand K, Taff IP, Delgado MR, Hajianpour MJ, Seeley A, Rohena L, Vernon H, Gripp KW, Vergano SA, Mahida S, Naidu S, Sousa AB, Wain KE, Challman TD, Beek G, Basel D, Ranells J, Smith R, Yusupov R, Freckmann ML, Ohden L, Davis-Keppen L, Chitayat D, Dowling JJ, Finkel R, Dauber A, Spillmann R, Pena LDM, Metcalfe K, Splitt M, Lachlan K, McKee SA, Hurst J, Fitzpatrick DR, Morton JEV, Cox H, Venkateswaran S, Young JI, Marsh ED, Nelson SF, Martinez JA, Graham JM Jr, Kini U, Mackay JP, and Pierson TM

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

8. Childhood cancers and systems medicine.

Author

Stone WL, Klopfenstein KJ, Hajianpour MJ, Popescu MI, Cook CM, and Krishnan K

Subjects

Child, Epigenesis, Genetic, Female, Genomics, Humans, Male, Mutation, Neoplasms genetics, Neoplasms therapy, Obesity complications, Oncolytic Virotherapy, Proteomics, Systems Analysis, Theranostic Nanomedicine, Neoplasms etiology

Abstract

Despite major advances in treatment, pediatric cancers in the 5-16 age group remain the most common cause of disease death, and one out of eight children with cancer will not survive. Among children that do survive, some 60% suffer from late effects such as cancer recurrence and increased risk of obesity. This paper will provide a broad overview of pediatric oncology in the context of systems medicine. Systems medicine utilizes an integrative approach that relies on patient information gained from omics technology. A major goal of a systems medicine is to provide personalized medicine that optimizes positive outcomes while minimizing deleterious short and long-term side-effects. There is an ever increasing development of effective cancer drugs, but a major challenge lies in picking the most effective drug for a particular patient. As detailed below, high-throughput omics technology holds the promise of solving this problem. Omics includes genomics, epigenomics, and proteomics. System medicine integrates omics information and provides detailed insights into disease mechanisms which can then inform the optimal treatment strategy.

Published

2017

9. Dental issues in lacrimo-auriculo-dento-digital syndrome: An autosomal dominant condition with clinical and genetic variability.

Author

Hajianpour MJ, Bombei H, Lieberman SM, Revell R, Krishna R, Gregorsok R, Kao S, and Milunsky JM

Subjects

Child, Child, Preschool, Diagnosis, Differential, Female, Humans, Male, Mutation, Pedigree, Abnormalities, Multiple diagnosis, Abnormalities, Multiple genetics, Dental Care for Children, Dental Care for Chronically Ill, Hearing Loss diagnosis, Hearing Loss genetics, Lacrimal Apparatus Diseases diagnosis, Lacrimal Apparatus Diseases genetics, Syndactyly diagnosis, Syndactyly genetics, Tooth Abnormalities diagnosis, Tooth Abnormalities genetics

Abstract

Background and Overview: Lacrimo-auriculo-dento-digital (LADD) syndrome is an autosomal dominant disorder with variable lacrimal and salivary gland hypoplasia and aplasia, auricular anomalies and hearing loss, dental defects and caries, and digital anomalies., Case Description: The authors present the cases of 2 unrelated children with enamel defects and history of dry mouth leading to recurrent dental caries. The referring diagnoses were Sjögren disease and hypohidrotic ectodermal dysplasia, respectively. The geneticist suspected LADD syndrome, which was confirmed by means of molecular studies showing mutations of 2 genes: fibroblast growth factor receptor 2 and fibroblast growth factor 10, respectively. Similarly affected relatives indicated an autosomal dominant inheritance. These relatives needed multiple dental rehabilitations during childhood and dentures in adulthood., Conclusions and Practical Implications: Dry mouth, multiple caries, enamel defects, and abnormal tooth morphology were the reasons for seeking care from dentists. However, clinical evaluation and diagnostic imaging studies helped identify anomalies of the lacrimal and salivary glands, ears, and digits, indicating involvement of different areas of the body, compatible with LADD syndrome. Accordingly, dentists should consider genetic disorders in patients with multiple anomalies. For instance, oculodentodigital syndrome, oral-facial-digital syndrome, and LADD syndrome (among others) may have dental issues as the major clinical manifestation. Accurate identification of a particular syndrome is now commonplace with the use of genetic testing. When a patient has multiple anomalies suggestive of a syndromic condition, appropriate genetic testing can help verify the clinical diagnosis. Keeping genetics in mind helps earlier identification of other affected family members with diagnostic genetic testing and appropriate treatment; the economic advantage is to shorten the diagnostic odyssey and possibly preserve dentition., (Copyright © 2017 American Dental Association. Published by Elsevier Inc. All rights reserved.)

Published

2017

10. Mosaic trisomy 16 ascertained through amniocentesis: evaluation of 11 new cases.

Author

Hsu WT, Shchepin DA, Mao R, Berry-Kravis E, Garber AP, Fischel-Ghodsian N, Falk RE, Carlson DE, Roeder ER, Leeth EA, Hajianpour MJ, Wang JC, Rosenblum-Vos LS, Bhatt SD, Karson EM, Hux CH, Trunca C, Bialer MG, Linn SK, and Schreck RR

Subjects

Amniocentesis, Female, Humans, In Situ Hybridization, Fluorescence, Microsatellite Repeats, Pregnancy, Pregnancy Outcome genetics, alpha-Fetoproteins, Chromosomes, Human, Pair 16 genetics, Mosaicism genetics, Trisomy genetics

Abstract

Trisomy 16, once thought to result uniformly in early pregnancy loss, has been detected in chorionic villus samples (CVS) from on-going pregnancies and was initially ascribed to a second, nonviable pregnancy. Prenatally detected trisomy 16 in CVS and its resolution to disomy has led to the reexamination of the viability of trisomy 16. This study evaluates 11 cases of mosaic trisomy 16 detected through second trimester amniocentesis. In 9 of the 11 cases, amniocenteses were performed in women under the age of 35 because of abnormal levels of maternal serum alpha-fetoprotein (MSAFP) or maternal serum human chorionic gonadotropin (MShCG). The other two amniocenteses were performed for advanced maternal age. Five of the 11 pregnancies resulted in liveborn infants, and six pregnancies were electively terminated. The liveborn infants all had some combination of intrauterine growth retardation (IUGR), congenital heart defects (CHD), or minor anomalies. Two of them died neonatally because of complications of severe congenital heart defects. The three surviving children have variable growth retardation, developmental delay, congenital anomalies, and/or minor anomalies. In the terminated pregnancies, the four fetuses evaluated by ultrasound or autopsy demonstrated various congenital anomalies and/or IUGR. Cytogenetic and fluorescent in situ hybridization studies identified true mosaicism in 5 of 10 cases examined, although the abnormal cell line was never seen in more than 1% of cultured lymphocytes. Placental mosaicism was seen in all placentas examined and was associated with IUGR in four of seven cases. Maternal uniparental disomy was identified in three cases. Mosaic trisomy 16 detected through amniocentesis is not a benign finding but associated with a high risk of abnormal outcome, most commonly IUGR, CHD, developmental delay, and minor anomalies. The various outcomes may reflect the diversity of mechanisms involved in the resolution of this abnormality. As 80% of these patients were ascertained because of the presence of abnormal levels of MSAFP or MShCG, the increased use of maternal serum screening should bring more such cases to clinical attention.

Published

1998

11. Molecular cytogenetic characterization of 18;21 whole arm translocation associated with monosomy 18p.

Author

Wang JC, Nemana L, Kou SY, Habibian R, and Hajianpour MJ

Subjects

Adult, Amniocentesis, Centromere, Chromosome Banding, Chromosome Mapping, DNA, Satellite, Female, Genetic Markers, Holoprosencephaly diagnosis, Holoprosencephaly embryology, Humans, Infant, Newborn, Karyotyping, Male, Pregnancy, Ultrasonography, Prenatal, Chromosomes, Human, Pair 18, Chromosomes, Human, Pair 21, Holoprosencephaly genetics, Monosomy, Translocation, Genetic

Abstract

Monosomy of the entire short arm of chromosome 18 as a result of an 18;acrocentric whole arm translocation has been reported in over 20 patients, 3 of which were familial. The centromeric origin in de novo cases has not been characterized. We report molecular cytogenetic studies of two prenatally-detected de novo cases. Amniocenteses were performed because of sonographic findings of fetal holoprosencephaly. Cytogenetic studies and dual color fluorescence in situ hybridization using Oncor alpha-satellite probes for D18Z1 and D13Z1/D21Z1 showed monosomy 18p with presence of a dicentric 18;21 chromosome in both cases [45,XY,dic(18;21)(p11.1;p11.1)]. In one case, a second cell line was found, which contained 46 chromosomes with a del(18)(p11.1) and an apparently telocentric 21 not present in either parent [46,XY,del(18)(p11.1),del(21)(p11.1)]. The del(18)(p11.1) contained only the 18 alphoid sequence and the telocentric 21 contained only the 21 alphoid sequence. No centromeric break was detected. We propose that the second cell line arose from dissociation of the dic(18;21) with no centromeric DNA break. In addition to our case, there have been three previous reports of dissociation of dicentric 18;acrocentric chromosomes indicating that the translocation site can be unstable and dissociate.

Published

1997

12. Leiomyoma of uterus in a patient with ring chromosome 12: case presentation and literature review.

Author

Hajianpour MJ, Hajianpour AK, Habibian R, and Wohlmuth C

Subjects

Abnormalities, Multiple physiopathology, Adult, Dinucleotide Repeats, Face abnormalities, Female, Genetic Markers, Growth Disorders physiopathology, Humans, Intellectual Disability, Leiomyoma complications, Mosaicism, Uterine Neoplasms complications, Abnormalities, Multiple genetics, Chromosomes, Human, Pair 12, Leiomyoma genetics, Ring Chromosomes, Uterine Neoplasms genetics

Abstract

We report on a 30-year-old women with de novo ring chromosome 12 mosaicism, 46,XX, r(12)(p13.3q24.3)/46,XX. In addition to the clinical manifestations generally observed in "ring syndrome" cases such as growth retardation, short stature, microcephaly, and mental deficiency, she had a broad nasal bridge, micrognathia with overbite, underdeveloped breasts, mild dorsal scoliosis, clinodactyly of the fifth fingers with a single interdigital crease, symphalangism of thumbs, tapering fingers, mild cutaneous syndactyly between the second and third toes, multiple café-au-lait spots, sebaceous acne on the face and back, and mild dystrophic toenails. She developed a large, pedunculated uterine leiomyoma at age 28 years. To our knowledge, uterine leiomyoma in association with r(12) has not been reported previously. However, a gain of chromosome 12 and translocations involving 12q14-15 have been described.

Published

1996

13. Postnatally confirmed trisomy 16 mosaicism: follow-up on a previously reported patient.

Author

Hajianpour MJ

Subjects

Amniocentesis, Child, Preschool, Facies, Female, Follow-Up Studies, Humans, Mosaicism, Pregnancy, Ultrasonography, Prenatal, Abnormalities, Multiple genetics, Chromosomes, Human, Pair 16 genetics, Trisomy genetics

Published

1995