Your search keyword '"Omodysplasia"' showing total 12 results

1. FZD2 regulates limb development by mediating β-catenin-dependent and -independent Wnt signaling pathways

Author

Xuming Zhu, Mingang Xu, N. Adrian Leu, Edward E. Morrisey, and Sarah E. Millar

Subjects

fzd2, wnt, limb, robinow syndrome, omodysplasia, Medicine, Pathology, RB1-214

Published

2023

2. The Putative Link Between Omodysplasia and Treatment-Resistant Schizophrenia: A Complex Clinical Presentation of a Rare Genetic Disorder.

Author

Das S, Giri S, Shah DB, Fichadia PA, Rao M, and Ravilla S

Abstract

Genetic and metabolic disorders present unique challenges in understanding the pathophysiology and outcomes of specific symptoms and presentations due to their broad spectrum of manifestations and etiologies. In this case report, we have studied a 26-year-old who was diagnosed with omodysplasia, a rare form of skeletal dysplasia. She exhibits atypical symptoms of psychosis and was diagnosed with schizophreniform disorder at an early age. Various antipsychotic medications were administered; however, minimal to no improvement was noted in the symptoms. On the contrary, she reported adverse effects to some antipsychotics. She continued to exhibit delusions and hallucinations and showed clinical improvement after treatment with olanzapine. Her clinical course was further complicated by the presence of borderline personality traits, which went unnoticed earlier. Here, we would like to highlight the course of her symptoms, the different treatments administered, and the possible link between omodysplasia and treatment-resistant schizophrenia., Competing Interests: Human subjects: Consent was obtained or waived by all participants in this study. Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: All authors have declared that no financial support was received from any organization for the submitted work. Financial relationships: All authors have declared that they have no financial relationships at present or within the previous three years with any organizations that might have an interest in the submitted work. Other relationships: All authors have declared that there are no other relationships or activities that could appear to have influenced the submitted work., (Copyright © 2024, Das et al.)

Published

2024

3. Two unrelated patients with autosomal dominant omodysplasia and FRIZZLED2 mutations.

Author

Warren, Hannah E., Louie, Raymond J., Friez, Michael J., Frías, Jaime L., Leroy, Jules G., Spranger, Jürgen W., Skinner, Steven A., and Champaigne, Neena L.

Subjects

*GENETIC mutation, *CHROMOSOME abnormalities, *MOSAICISM, *HYDROTHERMAL alteration, *GENE expression

Abstract

Key Clinical Message: Presented are two patients with autosomal dominant omodysplasia and mutations in the FZD2 gene. The mutations identified have been recently reported, suggesting the possibility of recurrent mutations. The phenotypes of these patients overlap with what has been previously reported, though intellectual disability as seen in our patient is not typical. Presented are two patients with autosomal dominant omodysplasia and mutations in the FZD2 gene. The mutations identified have been recently reported, suggesting the possibility of recurrent mutations. The phenotypes of these patients overlap with what has been previously reported, though intellectual disability as seen in our patient is not typical. [ABSTRACT FROM AUTHOR]

Published

2018

4. Novel Clinical and Radiological Findings in a Family with Autosomal Recessive Omodysplasia

Author

Gen Nishimura, Finn Stener Jørgensen, Morton Dunø, Hanne B Hove, Allan Bayat, and Maria Kirchhoff

Subjects

Omodysplasia, Autosomal dominant omodysplasia, Autosomal recessive omodysplasia, business.industry, Elbow, Radiological feature, Anatomy, medicine.disease, Short stature, Recessive omodysplasia, medicine.anatomical_structure, Novel Insights from Clinical Practice, Pathognomonic, Dysplasia, GPC6, Skeletal dysplasia, Genetics, medicine, medicine.symptom, Craniofacial, business, Genetics (clinical)

Abstract

Autosomal recessive omodysplasia (GPC6-related) is a rare short-limb skeletal dysplasia caused by biallelic mutations in the GPC6 gene. Affected individuals manifest with rhizomelic short stature, decreased mobility of elbow and knee joints as well as craniofacial anomalies. Both upper and lower limbs are severely affected. These manifestations contrast with normal height and limb shortening restricted to the arms in autosomal dominant omodysplasia (FZD2-related). Here, we report 2 affected brothers of Pakistani descent from Denmark with GPC6-related omodysplasia, aiming to highlight the clinical and radiological findings. A homozygous deletion of exon 6 in the GPC6 gene was detected. The pathognomonic radiological findings were distally tapered humeri and femora as well as severe proximal radioulnar diastasis. On close observations, we identified a recurrent and not previously described type of abnormal patterning in all long bones.

Published

2020

5. FZD2 regulates limb development by mediating β-catenin-dependent and -independent Wnt signaling pathways.

Author

Zhu X, Xu M, Leu NA, Morrisey EE, and Millar SE

Subjects

Humans, Animals, Mice, beta Catenin metabolism, Facies, Frizzled Receptors genetics, Frizzled Receptors metabolism, Wnt Signaling Pathway, Osteochondrodysplasias genetics

Abstract

Human Robinow syndrome (RS) and dominant omodysplasia type 2 (OMOD2), characterized by skeletal limb and craniofacial defects, are associated with heterozygous mutations in the Wnt receptor FZD2. However, as FZD2 can activate both canonical and non-canonical Wnt pathways, its precise functions and mechanisms of action in limb development are unclear. To address these questions, we generated mice harboring a single-nucleotide insertion in Fzd2 (Fzd2em1Smill), causing a frameshift mutation in the final Dishevelled-interacting domain. Fzd2em1Smill mutant mice had shortened limbs, resembling those of RS and OMOD2 patients, indicating that FZD2 mutations are causative. Fzd2em1Smill mutant embryos displayed decreased canonical Wnt signaling in developing limb mesenchyme and disruption of digit chondrocyte elongation and orientation, which is controlled by the β-catenin-independent WNT5A/planar cell polarity (PCP) pathway. In line with these observations, we found that disruption of FZD function in limb mesenchyme caused formation of shortened bone elements and defects in Wnt/β-catenin and WNT5A/PCP signaling. These findings indicate that FZD2 controls limb development by mediating both canonical and non-canonical Wnt pathways and reveal causality of pathogenic FZD2 mutations in RS and OMOD2 patients., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2023. Published by The Company of Biologists Ltd.)

Published

2023

6. Two unrelated patients with autosomal dominant omodysplasia and FRIZZLED2 mutations

Author

Jules G. Leroy, Hannah Warren, Jaime L. Frias, Michael J. Friez, Neena L. Champaigne, Jürgen Spranger, Raymond J. Louie, and Steven A. Skinner

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, media_common.quotation_subject, Nonsense, Case Report, Case Reports, 030105 genetics & heredity, Short stature, 03 medical and health sciences, Medicine, Missense mutation, media_common, Omodysplasia, Autosomal dominant omodysplasia, business.industry, Rhizomelia, FRIZZLED2, rhizomelia, General Medicine, medicine.disease, Robinow syndrome, 030104 developmental biology, Dysplasia, omodysplasia, medicine.symptom, business

Abstract

Autosomal dominant omodysplasia (OMOD2) is a rare skeletal dysplasia delineated and clinically differentiated from its autosomal recessive counterpart (OMOD1) by Maroteaux et al.1 OMOD2 is clinically characterized primarily by short upper extremities, with rhizomelic greater than mesomelic shortness, radial dislocation, short first metacarpals, facial dysmorphism, and genital anomalies. Additional features that have been variably reported include short stature, femoral anomalies, and vertebral anomalies. Saal et al2 recently described an alteration (c.1644G>A, p.Trp548*) in the FRIZZLED2 (FZD2) gene causative of OMOD2. Subsequently, there have been two additional reports of a novel missense alteration (c.1301G>T, p.Gly434Val) and a novel nonsense alteration (c.1640C>A, p.Ser547*) in the FZD2 gene associated with OMOD2.3, 4 The purposes of this report are to communicate the detection of the p.Trp548* FZD2 alteration in a previously described patient and to describe a new unrelated patient initially considered to have features more consistent with Robinow syndrome.

Published

2018

7. VP16.13: Prenatal findings of a fetus with the autosomal recessive form of omodysplasia

Author

I. Bueloni Ghiorzi, B. de Borba Telles, R. da Silva Batisti, M. dos Santos Taiarol, J. Alberto Bianchi Telles, A. Eduardo Virmond Faria, E. Beck Fernandes, M. da Rocha Besson, and R. Fabiano Machado Rosa

Subjects

Genetics, Fetus, Omodysplasia, Reproductive Medicine, Radiological and Ultrasound Technology, business.industry, Obstetrics and Gynecology, Medicine, Radiology, Nuclear Medicine and imaging, General Medicine, Autosomal recessive form, business

Published

2021

8. A Novel de novo FZD2 Mutation in a Patient with Autosomal Dominant Omodysplasia

Author

Seval Türkmen, Nilay Güneş, Malte Spielmann, Beyhan Tüysüz, Ricarda Flöttmann, Alexej Knaus, and Stefan Mundlos

Subjects

0301 basic medicine, Frizzled, Omodysplasia, Autosomal dominant omodysplasia, business.industry, Anatomy, Phalanx, medicine.disease, 03 medical and health sciences, 030104 developmental biology, Novel Insights from Clinical Practice, Bilateral cleft lip, Dysplasia, Mutation (genetic algorithm), Genetics, medicine, Hypertelorism, medicine.symptom, business, Genetics (clinical)

Abstract

We described a heterozygous de novo mutation (G434V) in the frizzled class receptor 2 (FZD2) gene in a patient with distinct facial features including hypertelorism, bilateral cleft lip/palate, short nose with a broad nasal bridge, microretrognathia, and bilateral shortness of the upper limbs, first metacarpal bones, and middle phalanges of the 5th digits. The findings of our patient were compared to an autosomal dominant omodysplasia (OMOD2) family with FZD2 mutation reported in the literature. OMOD2 is a rare skeletal dysplasia and characterized by facial dysmorphism and shortness of the upper extremities and first metacarpal bones. This is the second report which supports the findings of the first family described and points out that heterozygous FZD2 mutations may be disease-causing for OMOD2.

Published

2017

9. A mutation in FRIZZLED2 impairs Wnt signaling and causes autosomal dominant omodysplasia

Author

Howard M. Saal, Rolf W. Stottmann, Kristen L. Sund, Samantha A. Brugmann, Milene Donlin, Cynthia A. Prows, Iris Guerreiro, Luke Knudson, and Ching-Fang Chang

Subjects

Adult, Proband, DNA Mutational Analysis, Mutant, Gene Expression, Biology, Osteochondrodysplasias, Bone and Bones, Genetics, Humans, Exome, Amino Acid Sequence, Wnt Signaling Pathway, Molecular Biology, Genetics (clinical), Exome sequencing, chemistry.chemical_classification, Omodysplasia, Autosomal dominant omodysplasia, Wnt signaling pathway, Facies, High-Throughput Nucleotide Sequencing, Infant, Articles, General Medicine, Humerus, Metacarpal Bones, Frizzled Receptors, Pedigree, Dishevelled, Radiography, Protein Transport, Phenotype, Amino Acid Substitution, chemistry, Mutation, Mutation (genetic algorithm), Female, Protein Binding

Abstract

Autosomal dominant omodysplasia is a rare skeletal dysplasia characterized by short humeri, radial head dislocation, short first metacarpals, facial dysmorphism and genitourinary anomalies. We performed next-generation whole-exome sequencing and comparative analysis of a proband with omodysplasia, her unaffected parents and her affected daughter. We identified a de novo mutation in FRIZZLED2 (FZD2) in the proband and her daughter that was not found in unaffected family members. The FZD2 mutation (c.1644G>A) changes a tryptophan residue at amino acid 548 to a premature stop (p.Trp548*). This altered protein is still produced in vitro, but we show reduced ability of this mutant form of FZD2 to interact with its downstream target DISHEVELLED. Furthermore, expressing the mutant form of FZD2 in vitro is not able to facilitate the cellular response to canonical Wnt signaling like wild-type FZD2. We therefore conclude that the FRIZZLED2 mutation is a de novo, novel cause for autosomal dominant omodysplasia.

Published

2015

10. Novel Clinical and Radiological Findings in a Family with Autosomal Recessive Omodysplasia.

Author

Bayat A, Dunø M, Kirchhoff M, Jørgensen FS, Nishimura G, and Hove HB

Abstract

Autosomal recessive omodysplasia ( GPC6 -related) is a rare short-limb skeletal dysplasia caused by biallelic mutations in the GPC6 gene. Affected individuals manifest with rhizomelic short stature, decreased mobility of elbow and knee joints as well as craniofacial anomalies. Both upper and lower limbs are severely affected. These manifestations contrast with normal height and limb shortening restricted to the arms in autosomal dominant omodysplasia ( FZD2 -related). Here, we report 2 affected brothers of Pakistani descent from Denmark with GPC6 -related omodysplasia, aiming to highlight the clinical and radiological findings. A homozygous deletion of exon 6 in the GPC6 gene was detected. The pathognomonic radiological findings were distally tapered humeri and femora as well as severe proximal radioulnar diastasis. On close observations, we identified a recurrent and not previously described type of abnormal patterning in all long bones., (Copyright © 2020 by S. Karger AG, Basel.)

Published

2020

11. Omodysplasia: the first reported Brazilian case

Author

Juliana F. Mazzu, Luiz Antônio Nunes Oliveira, Chong Ae Kim, Lilian Maria José Albano, and Débora Romeo Bertola

Subjects

lcsh:R5-920, Omodysplasia, Prominent forehead, business.industry, Ulna, Long philtrum, General Medicine, Anatomy, Condyle, Frontal Bossing, medicine.anatomical_structure, Medicine, Humerus, Tibia, business, lcsh:Medicine (General)

Abstract

logical findings: a round and flat facies with a prominent forehead, frontal bossing, short nose with a depressed broad bridge, short columella, anteverted nostrils, long philtrum and small chin. A rhizomelic shortening and radial head dislocation that leads to a characteristic limited extension of the elbows are observed. They also present a short and broad chest, widely spaced nipples and, in males, criptorchidism is frequent. Mental retardation was reported in four patients and delayed motor development occurred in a few cases. Skeletal findings are confined to the limbs with shortened humeri with hypoplastic condyles and axial rotation of their shafts. At birth, radius and ulna are short and thick, but straighten with age. Likewise, in newborns, the humerus is shorter than the radius, but with age it becomes longer. The radial head is anteriorly and laterally dislocated, the ulna is abnormally placed resulting in a radioulnar diastasis. Femora show bulky proximal ends and a distal hypoplasia, remaining relatively short with age, but the distal tapering decreases due to metaphyseal widening and decreasing outward rotation of the femoral shafts. The tibia and fibulae are moderately short and the epiphyseal ossification centers of the femora and tibiae are strikingly flat.

Published

2007

12. A Novel de novo FZD2 Mutation in a Patient with Autosomal Dominant Omodysplasia.

Author

Türkmen S, Spielmann M, Güneş N, Knaus A, Flöttmann R, Mundlos S, and Tüysüz B

Abstract

We described a heterozygous de novo mutation (G434V) in the frizzled class receptor 2 ( FZD2 ) gene in a patient with distinct facial features including hypertelorism, bilateral cleft lip/palate, short nose with a broad nasal bridge, microretrognathia, and bilateral shortness of the upper limbs, first metacarpal bones, and middle phalanges of the 5th digits. The findings of our patient were compared to an autosomal dominant omodysplasia (OMOD2) family with FZD2 mutation reported in the literature. OMOD2 is a rare skeletal dysplasia and characterized by facial dysmorphism and shortness of the upper extremities and first metacarpal bones. This is the second report which supports the findings of the first family described and points out that heterozygous FZD2 mutations may be disease-causing for OMOD2.

Published

2017