Your search keyword '"Camerota, L."' showing total 12 results

1. Genotypic categorization of loeys-dietz syndrome based on 24 novel families and literature data

Author

Camerota, L., Ritelli, M., Wischmeijer, A., Majore, S., Cinquina, V., Fortugno, P., Monetta, R., Gigante, L., Sangiuolo, F. C., Novelli, G., Colombi, M., Brancati, F., Ruvolo, G., Bertoldo, F., Donzelli, C., Polisca, P., Salehi, L. B., Mancino, R., di Carlo, E., Bollero, P., Cozza, P., Lagana, G., Farsetti, P., de Maio, F., de Luna, V., Mancini, F., Chini, L., Graziani, S., Floris, R., Sperandio, M., Infante, A., de Stefano, A., Chiariello, L., and Grego, S.

Subjects

0301 basic medicine, Adult, Connective Tissue Disorder, Adolescent, lcsh:QH426-470, Receptor, Transforming Growth Factor-beta Type I, 030105 genetics & heredity, Bioinformatics, Loeys–Dietz syndrome, Article, 03 medical and health sciences, Transforming Growth Factor beta2, tgfbr1, TGFB3, Genotype, Genetics, Arterial aneurysms, Ehlers-Danlos syndrome, Hereditary connective tissue disorders, Loeys-Dietz syndrome, SMAD2, SMAD3, TGFB2, TGFBR1, TGFBR2, ehlers-danlos syndrome, arterial aneurysms, Medicine, Humans, loeys-dietz syndrome, smad3, smad2, Smad3 Protein, Craniofacial, Child, tgfbr2, Genetics (clinical), business.industry, Genetic heterogeneity, Receptor, Transforming Growth Factor-beta Type II, Infant, Middle Aged, medicine.disease, Penetrance, Pedigree, lcsh:Genetics, 030104 developmental biology, Settore MED/03 - Genetica Medica, Ehlers–Danlos syndrome, Child, Preschool, tgfb3, hereditary connective tissue disorders, Age of onset, tgfb2, business

Abstract

Loeys-Dietz syndrome (LDS) is a connective tissue disorder first described in 2005 featuring aortic/arterial aneurysms, dissections, and tortuosity associated with craniofacial, osteoarticular, musculoskeletal, and cutaneous manifestations. Heterozygous mutations in 6 genes (TGFBR1/2, TGFB2/3, SMAD2/3), encoding components of the TGF-&beta, pathway, cause LDS. Such genetic heterogeneity mirrors broad phenotypic variability with significant differences, especially in terms of the age of onset, penetrance, and severity of life-threatening vascular manifestations and multiorgan involvement, indicating the need to obtain genotype-to-phenotype correlations for personalized management and counseling. Herein, we report on a cohort of 34 LDS patients from 24 families all receiving a molecular diagnosis. Fifteen variants were novel, affecting the TGFBR1 (6), TGFBR2 (6), SMAD3 (2), and TGFB2 (1) genes. Clinical features were scored for each distinct gene and matched with literature data to strengthen genotype-phenotype correlations such as more severe vascular manifestations in TGFBR1/2-related LDS. Additional features included spontaneous pneumothorax in SMAD3-related LDS and cervical spine instability in TGFB2-related LDS. Our study broadens the clinical and molecular spectrum of LDS and indicates that a phenotypic continuum emerges as more patients are described, although genotype-phenotype correlations may still contribute to clinical management.

Published

2019

2. 092 Novel biallelic RIPK4 mutations cause ectodermal dysplasia with cutaneous syndactyly

Author

Fortugno, P., primary, Monetta, R., additional, Angelucci, F., additional, Camerota, L., additional, Botti, E., additional, Moretti, F., additional, Bianchi, L., additional, Didona, B., additional, Castiglia, D., additional, and Brancati, F., additional

Published

2019

3. Keratoderma-Deafness-Mucocutaneous Syndrome Associated with Phe142Leu in the GJB2 Gene

Author

Guerra, L, primary, Bergamo, F, additional, D'Apice, M, additional, Angelucci, F, additional, Di Girolamo, S, additional, Camerota, L, additional, Monetta, R, additional, Annessi, G, additional, Castiglia, D, additional, Novelli, G, additional, Paradisi, M, additional, and Brancati, F, additional

Published

2019

4. Clinical and Genetic Features in Patients With Reflex Bathing Epilepsy.

Author

Accogli A, Wiegand G, Scala M, Cerminara C, Iacomino M, Riva A, Carlini B, Camerota L, Belcastro V, Prontera P, Fernández-Jaén A, Bebek N, Scudieri P, Baldassari S, Salpietro V, Novelli G, De Luca C, von Stülpnagel C, Kluger F, Kluger GJ, Wohlrab GC, Ramantani G, Lewis-Smith D, Thomas RH, Lai M, Verrotti A, Striano S, Depienne C, Minetti C, Benfenati F, Brancati F, Zara F, and Striano P

Subjects

Adolescent, Child, Child, Preschool, Female, Hot Temperature, Humans, Male, Middle Aged, Pedigree, Water, Baths, Epilepsy, Reflex genetics, Epilepsy, Reflex physiopathology, Hygiene, Synapsins genetics

Abstract

Objective: To describe the clinical and genetic findings in a cohort of individuals with bathing epilepsy, a rare form of reflex epilepsy., Methods: We investigated by Sanger and targeted resequencing the SYN1 gene in 12 individuals from 10 different families presenting with seizures triggered primarily by bathing or showering. An additional 12 individuals with hot-water epilepsy were also screened., Results: In all families with bathing epilepsy, we identified 8 distinct pathogenic or likely pathogenic variants and 2 variants of unknown significance in SYN1 , 9 of which are novel. Conversely, none of the individuals with hot-water epilepsy displayed SYN1 variants. In mutated individuals, seizures were typically triggered by showering or bathing regardless of the water temperature. Additional triggers included fingernail clipping, haircutting, or watching someone take a shower. Unprovoked seizures and a variable degree of developmental delay were also common., Conclusion: Bathing epilepsy is genetically distinct reflex epilepsy caused mainly by SYN1 mutations., (Copyright © 2021 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2021

5. Pathogenic variants in CDH11 impair cell adhesion and cause Teebi hypertelorism syndrome.

Author

Li D, March ME, Fortugno P, Cox LL, Matsuoka LS, Monetta R, Seiler C, Pyle LC, Bedoukian EC, Sánchez-Soler MJ, Caluseriu O, Grand K, Tam A, Aycinena ARP, Camerota L, Guo Y, Sleiman P, Callewaert B, Kumps C, Dheedene A, Buckley M, Kirk EP, Turner A, Kamien B, Patel C, Wilson M, Roscioli T, Christodoulou J, Cox TC, Zackai EH, Brancati F, Hakonarson H, and Bhoj EJ

Subjects

Amino Acid Sequence, Cell Movement genetics, Female, Heterozygote, Homozygote, Humans, Male, Pedigree, Phenotype, Abnormalities, Multiple genetics, Cadherins genetics, Cell Adhesion genetics, Craniofacial Abnormalities genetics, Foot Deformities, Congenital genetics, Genetic Variation genetics, Hand Deformities, Congenital genetics, Hypertelorism genetics

Abstract

Teebi hypertelorism syndrome (THS; OMIM 145420) is a rare craniofacial disorder characterized by hypertelorism, prominent forehead, short nose with broad or depressed nasal root. Some cases of THS have been attributed to SPECC1L variants. Homozygous variants in CDH11 truncating the transmembrane and intracellular domains have been implicated in Elsahy-Waters syndrome (EWS; OMIM 211380) with hypertelorism. We report THS due to CDH11 heterozygous missense variants on 19 subjects from 9 families. All affected residues in the extracellular region of Cadherin-11 (CHD11) are highly conserved across vertebrate species and classical cadherins. Six of the variants that cluster around the EC2-EC3 and EC3-EC4 linker regions are predicted to affect Ca 2+ binding that is required for cadherin stability. Two of the additional variants [c.164G > C, p.(Trp55Ser) and c.418G > A, p.(Glu140Lys)] are also notable as they are predicted to directly affect trans-homodimer formation. Immunohistochemical study demonstrates that CDH11 is strongly expressed in human facial mesenchyme. Using multiple functional assays, we show that five variants from the EC1, EC2-EC3 linker, and EC3 regions significantly reduced the cell-substrate trans adhesion activity and one variant from EC3-EC4 linker results in changes in cell morphology, focal adhesion, and migration, suggesting dominant negative effect. Characteristic features in this cohort included depressed nasal root, cardiac and umbilical defects. These features distinguished this phenotype from that seen in SPECC1L-related hypertelorism syndrome and CDH11-related EWS. Our results demonstrate heterozygous variants in CDH11, which decrease cell-cell adhesion and increase cell migratory behavior, cause a form of THS, as termed CDH11-related THS.

Published

2021

6. Craniosynostosis is a feature of CHD7-related CHARGE syndrome.

Author

De Luca C, Picone S, Cassina M, Marziali S, Morlino S, Camerota L, Tamburrini G, Castori M, Paolillo P, Salviati L, and Brancati F

Subjects

CHARGE Syndrome pathology, Craniosynostoses pathology, Female, Heterozygote, Humans, Infant, Newborn, Mutation, Phenotype, Semaphorins genetics, CHARGE Syndrome genetics, Craniosynostoses genetics, DNA Helicases genetics, DNA-Binding Proteins genetics, Genetic Predisposition to Disease

Abstract

CHARGE syndrome is a rare genetic multiple-malformation disorder characterized by wide phenotypic variability. It is often caused by heterozygous variants in CHD7 and, more rarely, SEMA3E. Although craniofacial alterations are frequent in this condition, to date craniosynostosis is not considered part of the clinical spectrum. Here, we report bi-coronal craniosynostosis in a newborn affected by CHARGE syndrome caused by the de novo heterozygous c.6157C>T, p.(Arg2053*) CHD7 variant. We found two additional subjects in the literature with different craniosynostoses and distinct CHD7 alterations. The inclusion of CHD7-related CHARGE syndrome in the group of rare causes of syndromic craniosynostoses is proposed., (© 2021 Wiley Periodicals LLC.)

Published

2021

7. Tremor is a major feature of 9p13 deletion syndrome.

Author

Ferreira SI, Cinnirella G, Ramos L, Suppa A, Pires LM, Nardone AM, Camerota L, Lanciotti S, Galasso C, De Maio F, de Melo JB, Carreira IM, and Brancati F

Subjects

Abnormalities, Multiple genetics, Adolescent, Humans, Infant, Newborn, Male, Syndrome, Tremor genetics, Abnormalities, Multiple pathology, Chromosome Deletion, Chromosomes, Human, Pair 9 genetics, Phenotype, Tremor pathology

Abstract

Proximal interstitial deletions of chromosome 9p13 have been described only in a few patients with developmental delay, moderate intellectual disability, craniofacial dysmorphism, short stature, genital anomalies, and precocious puberty. To corroborate and expand these findings, we report on two novel syndromic male patients with 9p13 deletions suffering from a similar form of tremor and compare them with literature data. Despite genomic variability in deletion sizes, all patients displayed homogeneous dysmorphism and clinical manifestations, including very invalidating tremor. Furthermore, we outlined a region of around 2 Mb shared in common by all patients with nearly 70 genes, among which NPR2 might have a role in the phenotype. These data delineate interstitial 9p13 deletion syndrome with tremor as a major feature., (© 2020 Wiley Periodicals LLC.)

Published

2020

8. Loss-of-function variants in myocardin cause congenital megabladder in humans and mice.

Author

Houweling AC, Beaman GM, Postma AV, Gainous TB, Lichtenbelt KD, Brancati F, Lopes FM, van der Made I, Polstra AM, Robinson ML, Wright KD, Ellingford JM, Jackson AR, Overwater E, Genesio R, Romano S, Camerota L, D'Angelo E, Meijers-Heijboer EJ, Christoffels VM, McHugh KM, Black BL, Newman WG, Woolf AS, and Creemers EE

Subjects

Adult, Animals, Female, Genetic Variation, Humans, Male, Mice, Muscle, Smooth metabolism, Nuclear Proteins physiology, Trans-Activators physiology, Mutation, Nuclear Proteins genetics, Trans-Activators genetics, Urinary Bladder abnormalities

Abstract

Myocardin (MYOCD) is the founding member of a class of transcriptional coactivators that bind the serum-response factor to activate gene expression programs critical in smooth muscle (SM) and cardiac muscle development. Insights into the molecular functions of MYOCD have been obtained from cell culture studies, and to date, knowledge about in vivo roles of MYOCD comes exclusively from experimental animals. Here, we defined an often lethal congenital human disease associated with inheritance of pathogenic MYOCD variants. This disease manifested as a massively dilated urinary bladder, or megabladder, with disrupted SM in its wall. We provided evidence that monoallelic loss-of-function variants in MYOCD caused congenital megabladder in males only, whereas biallelic variants were associated with disease in both sexes, with a phenotype additionally involving the cardiovascular system. These results were supported by cosegregation of MYOCD variants with the phenotype in 4 unrelated families by in vitro transactivation studies in which pathogenic variants resulted in abrogated SM gene expression and by the finding of megabladder in 2 distinct mouse models with reduced Myocd activity. In conclusion, we have demonstrated that variants in MYOCD result in human disease, and the collective findings highlight a vital role for MYOCD in mammalian organogenesis.

Published

2019

9. Genotypic Categorization of Loeys-Dietz Syndrome Based on 24 Novel Families and Literature Data.

Author

Camerota L, Ritelli M, Wischmeijer A, Majore S, Cinquina V, Fortugno P, Monetta R, Gigante L, Marfan Syndrome Study Group Tor Vergata University Hospital, Sangiuolo FC, Novelli G, Colombi M, and Brancati F

Subjects

Adolescent, Adult, Child, Child, Preschool, Humans, Infant, Loeys-Dietz Syndrome classification, Loeys-Dietz Syndrome pathology, Middle Aged, Pedigree, Receptor, Transforming Growth Factor-beta Type I genetics, Receptor, Transforming Growth Factor-beta Type II genetics, Smad3 Protein genetics, Transforming Growth Factor beta2 genetics, Loeys-Dietz Syndrome genetics

Abstract

Loeys-Dietz syndrome (LDS) is a connective tissue disorder first described in 2005 featuring aortic/arterial aneurysms, dissections, and tortuosity associated with craniofacial, osteoarticular, musculoskeletal, and cutaneous manifestations. Heterozygous mutations in 6 genes ( TGFBR1/2, TGFB2/3, SMAD2/3 ), encoding components of the TGF-β pathway, cause LDS. Such genetic heterogeneity mirrors broad phenotypic variability with significant differences, especially in terms of the age of onset, penetrance, and severity of life-threatening vascular manifestations and multiorgan involvement, indicating the need to obtain genotype-to-phenotype correlations for personalized management and counseling. Herein, we report on a cohort of 34 LDS patients from 24 families all receiving a molecular diagnosis. Fifteen variants were novel, affecting the TGFBR1 (6), TGFBR2 (6), SMAD3 (2), and TGFB2 (1) genes. Clinical features were scored for each distinct gene and matched with literature data to strengthen genotype-phenotype correlations such as more severe vascular manifestations in TGFBR1/2 -related LDS. Additional features included spontaneous pneumothorax in SMAD3 -related LDS and cervical spine instability in TGFB2 -related LDS. Our study broadens the clinical and molecular spectrum of LDS and indicates that a phenotypic continuum emerges as more patients are described, although genotype-phenotype correlations may still contribute to clinical management., Competing Interests: All authors declare that there is no conflict of interest concerning this work.

Published

2019

10. Recessive mutations in the neuronal isoforms of DST, encoding dystonin, lead to abnormal actin cytoskeleton organization and HSAN type VI.

Author

Fortugno P, Angelucci F, Cestra G, Camerota L, Ferraro AS, Cordisco S, Uccioli L, Castiglia D, De Angelis B, Kurth I, Kornak U, and Brancati F

Subjects

Actins metabolism, Adult, Aged, Amino Acid Sequence, Animals, COS Cells, Cell Adhesion, Cell Movement, Chlorocebus aethiops, Dermis pathology, Dystonin chemistry, Family, Female, Fibroblasts metabolism, Fibroblasts pathology, HEK293 Cells, Humans, Male, Middle Aged, Protein Binding, Protein Isoforms genetics, Actin Cytoskeleton pathology, Dystonin genetics, Genes, Recessive, Hereditary Sensory and Autonomic Neuropathies genetics, Mutation genetics, Neurons metabolism

Abstract

Hereditary sensory and autonomic neuropathies (HSAN) are clinically and genetically heterogeneous disorders, characterized by a progressive sensory neuropathy often complicated by ulcers and amputations, with variable motor and autonomic involvement. Several pathways have been implicated in the pathogenesis of neuronal degeneration in HSAN, while recent observations point to an emerging role of cytoskeleton organization and function. Here, we report novel biallelic mutations in the DST gene encoding dystonin, a large cytolinker protein of the plakin family, in an adult form of HSAN type VI. Affected individuals harbored the premature termination codon variant p.(Lys4330*) in trans with the p.(Ala203Glu) change affecting a highly conserved residue in an isoform-specific N-terminal region of dystonin. Functional studies showed defects in actin cytoskeleton organization and consequent delayed cell adhesion, spreading and migration, while recombinant p.Ala203Glu dystonin loses the ability to bind actin. Our data aid in the clinical and molecular delineation of HSAN-VI and suggest a central role for cell-motility and cytoskeletal defects in its pathogenesis possibly interfering with the neuronal outgrowth and guidance processes., (© 2018 Wiley Periodicals, Inc.)

Published

2019

11. Biallelic variants in the ciliary gene TMEM67 cause RHYNS syndrome.

Author

Brancati F, Camerota L, Colao E, Vega-Warner V, Zhao X, Zhang R, Bottillo I, Castori M, Caglioti A, Sangiuolo F, Novelli G, Perrotti N, and Otto EA

Subjects

Adult, Codon, Nonsense, Heterozygote, Humans, Hypopituitarism pathology, Male, Mutation, Missense, RNA Splicing, Retinitis Pigmentosa pathology, Alleles, Hypopituitarism genetics, Membrane Proteins genetics, Phenotype, Retinitis Pigmentosa genetics

Abstract

A rare syndrome was first described in 1997 in a 17-year-old male patient presenting with Retinitis pigmentosa, HYpopituitarism, Nephronophthisis and Skeletal dysplasia (RHYNS). In the single reported familial case, two brothers were affected, arguing for X-linked or recessive mode of inheritance. Up to now, the underlying genetic basis of RHYNS syndrome remains unknown. Here we applied whole-exome sequencing in the originally described family with RHYNS to identify compound heterozygous variants in the ciliary gene TMEM67. Sanger sequencing confirmed a paternally inherited nonsense c.622A > T, p.(Arg208*) and a maternally inherited missense variant c.1289A > G, p.(Asp430Gly), which perturbs the correct splicing of exon 13. Overall, TMEM67 showed one of the widest clinical continuum observed in ciliopathies ranging from early lethality to adults with liver fibrosis. Our findings extend the spectrum of phenotypes/syndromes resulting from biallelic TMEM67 variants to now eight distinguishable clinical conditions including RHYNS syndrome.

Published

2018

12. A Small Supernumerary Marker Derived from the Pericentromeric Region of Chromosome 5: Case Report and Delineation of Partial Trisomy 5p Phenotype.

Author

Camerota L, Pitzianti M, Postorivo D, Nardone AM, Ligas C, Moretti C, Pasini A, and Brancati F

Subjects

Adolescent, Autistic Disorder genetics, Cell Cycle Proteins, Craniofacial Abnormalities genetics, Female, Humans, Proteins genetics, Chromosome Disorders genetics, Chromosomes, Human, Pair 5 genetics, Trisomy genetics

Abstract

A 17-year-old girl presented with a distinct phenotype mainly featuring craniofacial dysmorphism, including a disproportioned large, round, elongated face; hypertelorism; deep-set eyes with short palpebral fissures; obesity (BMI 37), and a neuropsychiatric disorder with high-functioning autism. Postnatal conventional cytogenetic analyses from peripheral blood revealed a mosaic small supernumerary marker chromosome (sSMC) with a mos 47,XX,+mar[7]/46,XX[43] karyotype. By cenM-FISH technique, the sSMC was identified as a ring derivative of chromosome 5. Metaphase FISH analysis with a set of dedicated probes defined its origin from the pericentromeric region of chromosome 5, including the NIPBL gene at 5p13.2. Such sSMCs, exceedingly rare in the literature, underlie proximal trisomy 5p. In order to delineate a core phenotype of proximal trisomy 5p, we compared our patient's features with those of 6 patients found in the literature with similar der(5) chromosomes. Furthermore, a dozen individuals with 5p13 (micro)duplication syndrome was compared and discussed. We identified highly distinctive craniofacial dysmorphism, obesity, and intellectual disability and/or autism spectrum disorder as typical features of proximal 5p trisomy. In the critical region (band 5p13), the NIPBL gene is likely to be a major determinant of the neurobehavioral phenotype, and its presence at the sSMC level may be relevant to predict clinical outcome., (© 2017 S. Karger AG, Basel.)

Published

2017