Your search keyword '"Zuffardi O"' showing total 34 results

1. Contiguous Gene Syndromes Due to Deletions in the Distal Short Arm of the Human X Chromosome

Author

Ballabio, A., Bardoni, B., Carrozzo, R., Andria, G., Bick, D., Campbell, L., Hamel, B., Ferguson-Smith, M. A., Gimelli, G., Fraccaro, M., Maraschio, P., Zuffardi, O., Guioli, S., and Camerino, G.

Published

1989

2. Targeted next-generation sequencing identifies the disruption of the SHANK3 and RYR2 genes in a patient carrying a de novo t(1;22)(q43;q13.3) associated with signs of Phelan-McDermid syndrome

Author

Bonaglia, M. C., Bertuzzo, S., Ciaschini, A. M., Discepoli, G., Castiglia, L., Romaniello, R., Zuffardi, O., and Fichera, M.

Subjects

0301 basic medicine, medicine.medical_specialty, lcsh:QH426-470, Balanced rearrangements, RYR2, Chromosomal translocation, Case Report, Haploinsufficiency, 030105 genetics & heredity, Biology, Genotype-phenotype, Biochemistry, 03 medical and health sciences, Neurodevelopmental disorder, Intellectual disability, Genetics, medicine, Global developmental delay, Molecular Biology, SHANK3, Genetics (clinical), Psychomotor retardation, Biochemistry (medical), Cytogenetics, Cardiac disorder, medicine.disease, Human genetics, lcsh:Genetics, 030104 developmental biology, Chromosomal breakpoints, Reciprocal translocation, Next-generation sequencing, Molecular Medicine, Phelan-McDermid syndrome, medicine.symptom

Abstract

Background It has been known for more than 30 years that balanced translocations, especially if de novo, can associate with congenital malformations and / or neurodevelopmental disorders, following the disruption of a disease gene or its cis-regulatory elements at one or both breakpoints. Case presentation We describe a 10-year-old girl with a non-specific neurodevelopmental disorder characterized by moderate intellectual disability (ID), gross motor clumsiness, social and communication deficits. She carries a de novo reciprocal translocation between chromosomes 1q43 and 22q13.3, the latter suggesting the involvement of SHANK3. Indeed, its haploinsufficiency associates with Phelan-McDermid Syndrome, whose main symptoms are characterized by global developmental delay and absent or severely delayed expressive speech. A deep molecular approach, including next-generation sequencing of SHANK3 locus, allowed demonstrating the breakage of RYR2 and SHANK3 on the derivative chromosomes 1 and 22 respectively, and the formation of two fusion genes SHANK3-RYR2 and RYR2-SHANK3 with concomitant cryptic deletion of 3.6 and 4.1 kilobases at translocation junction of both derivatives chromosomes 22 and 1, respectively. Conclusions Although the interruption of SHANK3 accounts for the patient’s psychomotor retardation and autism-like behavior, we do not exclude that the interruption of RYR2 may also have a role on her disorder, or result in further pathogenicity in the future. Indeed, RYR2 that has a well-established role in the etiology of two autosomal dominant adulthood cardiac disorders (#600996 and #604772) is also expressed in the brain (cerebellum, hippocampus, and cerebral cortex) and about half of RYR2 mutation carriers present late onset primary generalized epilepsy without cardiac arrhythmogenic disorders. Moreover, RYR2 variants have also been sporadically reported in individuals with early onset schizophrenia or ID, and its constraint values suggest intolerance to loss-of-function. This study not only confirms the usefulness of the molecular mapping of de novo balanced rearrangements in symptomatic individuals, but also underscores the need for long-term clinical evaluation of the patients, for better evaluating the pathogenicity of the chromosomal breakpoints.

Published

2020

3. Contiguous gene syndrome due to an interstitial deletion in Xp22.3 in a boy with ichthyosis, chondrodysplasia punctata, mental retardation and ADHD

Author

LONARDO F, LUQUETTI DV, ANNUNZIATA I, DELLA MONICA M, PERONE L, GREGORI M, ZUFFARDI O, SCARANO G., PARENTI, GIANCARLO, BRUNETTI PIERRI, NICOLA, ANDRIA, GENEROSO, Lonardo, F, Parenti, Giancarlo, Luquetti, Dv, Annunziata, I, DELLA MONICA, M, Perone, L, De, Gregori, M, Zuffardi, O, BRUNETTI PIERRI, Nicola, Andria, Generoso, and Scarano, G.

Subjects

Genetic Markers, Male, Ocular albinism, Chondrodysplasia Punctata, medicine.medical_specialty, Adolescent, Anosmia, Nerve Tissue Proteins, Short stature, Contiguous gene syndrome, Hypogonadotropic hypogonadism, Intellectual Disability, Internal medicine, Genetics, medicine, Humans, Abnormalities, Multiple, Chondrodysplasia punctata, Genetics (clinical), Chromosomes, Human, X, Extracellular Matrix Proteins, Ichthyosis, business.industry, General Medicine, medicine.disease, Dermatology, Osteochondrodysplasia, Phenotype, Endocrinology, Attention Deficit Disorder with Hyperactivity, Cytogenetic Analysis, Chromosome Deletion, medicine.symptom, business

Abstract

Microdeletions of Xp22.3 can result in contiguous gene syndromes, showing the variable association of apparently unrelated clinical manifestations such as ichthyosis, chondrodysplasia punctata, hypogonadotropic hypogonadism, anosmia, ocular albinism, short stature and mental retardation. We report on a boy with ichthyosis, dysmorphic features and mental retardation with ADHD. The patient was born at term after a pregnancy complicated by threatened abortion; decreased fetal movements and low estriol serum levels were reported during the last trimester. The boy was referred to us at the age of 13 years. He presented with aggressive and hyperactive behavior. He had dry hair, a flat face, bilateral lens opacities, a small nose with hypoplastic tip, alae nasi and nares, a high-arched palate with a very small cleft, mixed dentition with 7 unerupted permanent teeth, left sensorineural and right mixed hearing loss with a calcified plaque of the tympanic membrane, marked shortness of terminal phalanges of hands and feet, ichthyosis of trunk and limbs. The genomic interval between AFM248th5 and KAL1 was investigated. PCR analysis showed a deletion in Xp22.3, with the distal breakpoint between the marker AFM248th5 and PABX and the proximal one between DXS278 and KAL1 . Array-CGH and FISH analysis confirmed the interstitial deletion (of about 5.5 Mb) and refined the breakpoints. We discuss the phenotype of our patient in relationship to the deleted segment and the possibility of mental retardation and ADHD genes in the region.

Published

2007

4. The 2q23.1 microdeletion syndrome: clinical and behavioural phenotype

Author

Bon, B.W.M. van, Koolen, D.A., Brueton, L., McMullan, D., Lichtenbelt, K.D., Ades, L.C., Peters, G., Gibson, K., Moloney, S., Novara, F., Pramparo, T., Bernardina, B. Dalla, Zoccante, L., Balottin, U., Piazza, F., Pecile, V., Gasparini, P., Guerci, V., Kets, M., Pfundt, R., Brouwer, A.P.M. de, Veltman, J.A., Leeuw, N. de, Wilson, M., Antony, J., Reitano, S., Luciano, D., Fichera, M., Romano, C, Brunner, H.G., Zuffardi, O., Vries, L.B.A. de, VAN BON, Bw, Koolen, Da, Brueton, L, Mcmullan, D, Lichtenbelt, Kd, Adès, Lc, Peters, G, Gibson, K, Novara, F, Pramparo, T, Bernardina, Bd, Zoccante, L, Balottin, U, Piazza, F, Pecile, V, Gasparini, Paolo, Guerci, V, Kets, M, Pfundt, R, DE BROUWER, Ap, Veltman, Ja, DE LEEUW, N, Wilson, M, Antony, J, Reitano, S, Luciano, D, Fichera, M, Romano, C, Brunner, Hg, Zuffardi, O, and DE VRIES, Bb

Subjects

Male, Microcephaly, Genetics and epigenetic pathways of disease [NCMLS 6], 2q23.1 microdeletion syndrome, Rett syndrome, phenotype, behaviour, Short stature, Article, MECP2, Genomic disorders and inherited multi-system disorders [IGMD 3], Intellectual Disability, Intensive Care Units, Neonatal, Angelman syndrome, Rett Syndrome, Genetics, Humans, Medicine, Child, Genetics (clinical), Sequence Deletion, Cesarean Section, Learning Disabilities, business.industry, Infant, Newborn, Chromosome Mapping, Microdeletion syndrome, medicine.disease, Phenotype, Chromosomes, Human, Pair 2, Speech delay, Female, Angelman Syndrome, medicine.symptom, Corrigendum, business, Haploinsufficiency

Abstract

Contains fulltext : 89008.pdf (Publisher’s version ) (Closed access) Six submicroscopic deletions comprising chromosome band 2q23.1 in patients with severe mental retardation (MR), short stature, microcephaly and epilepsy have been reported, suggesting that haploinsufficiency of one or more genes in the 2q23.1 region might be responsible for the common phenotypic features in these patients. In this study, we report the molecular and clinical characterisation of nine new 2q23.1 deletion patients and a clinical update on two previously reported patients. All patients were mentally retarded with pronounced speech delay and additional abnormalities including short stature, seizures, microcephaly and coarse facies. The majority of cases presented with stereotypic repetitive behaviour, a disturbed sleep pattern and a broad-based gait. These features led to the initial clinical impression of Angelman, Rett or Smith-Magenis syndromes in several patients. The overlapping 2q23.1 deletion region in all 15 patients comprises only one gene, namely, MBD5. Interestingly, MBD5 is a member of the methyl CpG-binding domain protein family, which also comprises MECP2, mutated in Rett's syndrome. Another gene in the 2q23.1 region, EPC2, was deleted in 12 patients who had a broader phenotype than those with a deletion of MBD5 only. EPC2 is a member of the polycomb protein family, involved in heterochromatin formation and might be involved in causing MR. Patients with a 2q23.1 microdeletion present with a variable phenotype and the diagnosis should be considered in mentally retarded children with coarse facies, seizures, disturbed sleeping patterns and additional specific behavioural problems. 01 februari 2010

Published

2009

5. A large-scale association study to assess the impact of known variants of the human INHA gene on premature ovarian failure

Author

Corre, T., Schuettler, J., Bione, S., Marozzi, A., Persani, L., Rossetti, R., Torricelli, F., Giotti, I., Vogt, P., Toniolo, D., Italian Network for the study of Ovarian Dysfunctions, Biondi, M, Bruni, V, Brigante, C, Cisternino, M, Colombo, I, Crosignani, Pg, D'Avanzo, Mg, Dalprà, L, Danesino, C, Di Prospero, F, Donti, E, Falorni, A, Fusi, F, Lanzi, R, Larizza, D, Locatelli, N, Madaschi, S, Maghnie, M, Marzotti, S, Migone, N, Nappi, R, Palli, D, Patricelli, Mg, Pisani, C, Prontera, P, Petraglia, F, Renieri, Alessandra, Ricca, I, Ripamonti, A, Russo, G, Russo, S, Tibiletti, Mg, Tonacchera, M, Vegetti, W, Villa, N, Vineis, P, and Zuffardi, O.

Subjects

Adult, Adolescent, endocrine system diseases, Genome-wide association study, Primary Ovarian Insufficiency, premature ovarian failure, Biology, Polymorphism, Single Nucleotide, inhibin variants, Cohort Studies, Gene Frequency, Polymorphism (computer science), medicine, Humans, Inhibins, Allele, Risk factor, Child, Allele frequency, Gene, Genetics, INHA, Rehabilitation, genetic risk factor, Obstetrics and Gynecology, Middle Aged, medicine.disease, female genital diseases and pregnancy complications, Premature ovarian failure, infertility, Reproductive Medicine, Female, Genome-Wide Association Study

Abstract

Background Three variants of the human INHA gene have been reported to be associated with premature ovarian failure (POF) in case-control studies involving a small number of patients and controls. Since inhibin has a fundamental role in the control of ovarian function, it is important to establish the relevance of the reported variants for disease risk. Methods Three independent POF cohorts, recruited in Northern and Central Italy and in Germany consisting of a total of 611 patients and 1084 matched controls, were genotyped for the three variants: -16C > T, -124A > G and 769G > A. Results No significant difference was detected between allelic frequencies of the INHA promoter variants between POF patients and controls. The rare allele in the coding variant appeared to be more frequent among the control populations. Conclusions The association between the INHA promoter variants and POF could not be replicated, and our results suggest that this discrepancy is likely to be due to the small sample size of previous studies. The rare allele of the coding variant seems to exert a protective effect against loss of ovarian function, which should be confirmed in additional large and ethnically diverse cohorts.

Published

2009

6. Inverted duplications deletions: underdiagnosed rearrangements??

Author

Zuffardi, O., Bonaglia, M., Ciccone, R., and Giorda, R.

Subjects

*GENETICS, *CHROMOSOMES, *PHENOTYPES, *CYTOGENETICISTS, *ZYGOTES

Abstract

Molecular techniques led to the discovery that several chromosome rearrangements interpreted as terminal duplications were in fact inverted duplications contiguous to terminal deletions. Inv dup del rearrangements originate through a symmetric dicentric chromosome that, after asymmetric breakage, generates an inv dup del and a deleted chromosome. In recurrent inverted duplications the dicentric chromosome is formed at meiosis through non-allelic homologous recombination. In non-recurrent inv dup del cases, dicentric intermediates are formed by non-homologous end joining or intrastrand annealing. Some authors hypothesized that in these cases the dicentric may have been formed directly in the zygote. Healing of the broken dicentric chromosomes can occur not only in a telomerase-dependent way but also through telomere capture and circularization thus creating translocated or ring inv dup del chromosomes. In all the cases reported up to now, the duplicated region was always longer than the deleted one, but we can safely assume that there is another group of rearrangements where the deleted region is longer than the duplicated portion. In general, in these cases, the cytogeneticist will suspect the presence of a deletion and confirm it by FISH with a subtelomeric probe, but he/she will almost certainly miss the duplication. It is likely that the conventional analysis techniques used until now have led to a substantial underestimate of the frequency of inv dup del rearrangements and that the widespread use of array-CGH in routine analysis will allow a more realistic estimate. Obviously, the concomitant presence of deletion and duplication has important consequences in genotype/phenotype correlations. [ABSTRACT FROM AUTHOR]

Published

2009

7. Contiguous gene deletions involving EFNB1, OPHN1, PJA1 and EDA in patients with craniofrontonasal syndrome.

Author

Wieland, I., Weidner, C., Ciccone, R., Lapi, E., McDonald-McGinn, D., Kress, W., Jakubiczka, S., Collmann, H., Zuffardi, O., Zackai, E., and Wieacker, P.

Subjects

ECTODERMAL dysplasia, GENETICS, INTELLECTUAL disabilities, DEVELOPMENTAL delay, DISEASES

Abstract

Craniofrontonasal syndrome (CFNS [MIM 304110]) is an X-linked malformation syndrome characterized by craniofrontonasal dysplasia and extracranial manifestations in heterozygous females. In the majority of patients CFNS is caused by mutations in the EFNB1 gene (MIM 300035). We identified three girls with classical CFNS and mild developmental delay harboring de novo deletions of the EFNB1 gene. Applying haplotype analysis, Southern blot hybridization and array-comparative genomic hybridization, deletion of EFNB1 was found to be part of contiguous gene deletions in the patients. In one patient the deletion interval includes the genes for oligophrenin-1 ( OPHN1 [MIM 300127]) and praja 1 ( PJA1 [MIM 300420]). In the second patient the deletion includes OPHN1, PJA1 and the gene for ectodysplasin A ( EDA [MIM 300451]). In the third patient EFNB1 gene deletion may include deletion of regulatory regions 5′ of OPHN1. Previously, the OPHN1 gene has been shown to be responsible for recessive X-linked mental retardation. Although it is too early to predict the future cognitive performance of the two infant patients with contiguous gene deletions of OPHN1–EFNB1–PJA1, mild learning disabilities have been recognized in the older, third patient. It is important for genetic counseling to be aware that their male offspring may not only be carriers of CFNS but may also be affected by mental retardation and anhidrotic ectodermal dysplasia. [ABSTRACT FROM AUTHOR]

Published

2007

8. Identification of two paralogous regions mapping to the short and long arms of human chromosome 2 comprising LIS1 pseudogenes.

Author

Fogli, A., Giglio, S., Arrigo, G., Lo Nigro, C., Zollo, M., Viggiano, L., Rocchi, M., Archidiacono, N., Zuffardi, O., and Carrozzo, R.

Subjects

GENE mapping, HUMAN chromosomes, FLUORESCENCE in situ hybridization, NUCLEOTIDE sequence, MOLECULAR cloning, GENETICS

Abstract

Reiner et al. (1995b) reported on the existence of a gene with a coding region virtually identical to LIS1, the gene responsible for Miller-Dieker lissencephaly. This gene, LIS2, was mapped to chromosome 2p11.2, and a related pseudogene, LIS2P, was mapped to 2q13→q14. By sequencing genomic clones that were mapped by means of 2p and 2q-only hybrids, we now demonstrate the existence of two LIS1 processed pseudogenes mapping to 2p11.2 and 2q13 (PAFAH1P1 and PAFAH1P2, respectively). The two sequences appear to lie within larger paralogous regions and share a 98.6% degree of identity. Comparative mapping data by cytogenetic analysis on great apes indicate that the duplication of the genomic region comprising the LIS1 pseudogenes occurred in humans. We also demonstrate that the cDNA sequence shown as part of the LIS2 gene and marking its chromosome 2 specificity belongs to the 3′ untranslated region of a different gene (C1orf6) that we mapped to 1q21 by FISH analysis. [ABSTRACT FROM AUTHOR]

Published

1999

9. Bone osteoblastic and mesenchymal stromal cells lack primarily tumoral features in multiple myeloma patients.

Author

Giuliani, N., Lisignoli, G., Novara, F., Storti, P., Zaffaroni, N., Villa, R., Sammarelli, G., Agnelli, L., Todoerti, K., Bernardo, M. E., Manferdini, C., Colla, S., Abeltino, M., Bolzoni, M., Rocci, A., Gabusi, E., Palumbo, A., Zuffardi, O., Neri, A., and Rizzoli, V.

Subjects

MULTIPLE myeloma, B cell lymphoma, TELOMERASE, KARYOTYPES, GENETICS, PATIENTS, BONE tumors, CONNECTIVE tissue cells, RESEARCH funding, TELOMERES, EMBRYOS, OSTEOBLASTS

Abstract

The article presents a study conducted to examine tumoral features in multiple myeloma patients. It observes that the multiple myeloma patients both bone osteoblastic (OBs) and mesenchymal stromal cells (MSCs) lacks features of tumornal. It also states that transcriptional alterations of MSCs and OBs do not depend on primary karyotype or telomerase alterations in patients with multiple myeloma.

Published

2010

10. 13q Deletion and central nervous system anomalies: further insights from karyotype-phenotype analyses of 14 patients

Author

Ballarati, L., Rossi, E., Bonati, M. T., Gimelli, S., Maraschio, P., Finelli, P., Giglio, S., Lapi, E., Bedeschi, M. F., Guerneri, S., Arrigo, G., Patricelli, M. G., Mattina, T., Guzzardi, O., Vanna Pecile, Police, A., Scarano, G., Larizza, L., Zuffardi, O., and Giardino, D.

Subjects

Adult, Male, Monosomy, Adolescent, Chromosome Disorders, Biology, Electronic Letter, ZIC2, Dandy–Walker syndrome, Genetics, medicine, Humans, Abnormalities, Multiple, Child, In Situ Hybridization, Fluorescence, Genetics (clinical), Chromosomes, Human, Pair 13, 13q deletion syndrome, Infant, Newborn, Neural tube, Infant, Nuclear Proteins, Nucleic Acid Hybridization, Chromosome, Karyotype, medicine.disease, Phenotype, DNA-Binding Proteins, medicine.anatomical_structure, Child, Preschool, Karyotyping, Female, Chromosome Deletion, Carrier Proteins, Dandy-Walker Syndrome, Transcription Factors

Abstract

Background: Chromosome 13q deletion is associated with varying phenotypes, which seem to depend on the location of the deleted segment. Although various attempts have been made to link the 13q deletion intervals to distinct phenotypes, there is still no acknowledged consensus correlation between the monosomy of distinct 13q regions and specific clinical features. Methods: 14 Italian patients carrying partial de novo 13q deletions were studied. Molecular–cytogenetic characterisation was carried out by means of array-comparative genomic hybridisation (array-CGH) or fluorescent in situ hybridisation (FISH). Results: Our 14 patients showed mental retardation ranging from profound–severe to moderate–mild: eight had central nervous system (CNS) anomalies, including neural tube defects (NTDs), six had eye abnormalities, nine had facial dysmorphisms and 10 had hand or feet anomalies. The size of the deleted regions varied from 4.2 to 75.7 Mb. Conclusion: This study is the first systematic molecular characterisation of de novo 13q deletions, and offers a karyotype–phenotype correlation based on detailed clinical studies and molecular determinations of the deleted regions. Analyses confirm that patients lacking the 13q32 band are the most seriously affected, and critical intervals have been preliminarily assigned for CNS malformations. Dose-sensitive genes proximal to q33.2 may be involved in NTDs. The minimal deletion interval associated with the Dandy–Walker malformation (DWM) was narrowed to the 13q32.2–33.2 region, in which the ZIC2 and ZIC5 genes proposed as underlying various CNS malformations are mapped.

11. Prenatal diagnosis of Wolf-Hirschhorn syndrome confirmed by comparative genomic hybridization array: report of two cases and review of the literature

Author

Sifakis Stavros, Manolakos Emmanouil, Vetro Annalisa, Kappou Dimitra, Peitsidis Panagiotis, Kontodiou Maria, Garas Antonios, Vrachnis Nikolaos, Konstandinidou Anastasia, Zuffardi Orsetta, Orru Sandro, and Papoulidis Ioannis

Subjects

4p- syndrome, Comparative genomic hybridization array, "Greek warrior" helmet profile, Fluorescent situ hybridization, Prenatal diagnosis, Wolf-Hirschhorn syndrome, Genetics, QH426-470

Abstract

Abstract Wolf-Hirschhorn syndrome (WHS) is a well known genetic condition caused by a partial deletion of the short arm of chromosome 4. The great variability in the extent of the 4p deletion and the possible contribution of additional genetic rearrangements lead to a wide spectrum of clinical manifestations. The majority of the reports of prenatally diagnosed WHS cases are associated with large 4p deletions identified by conventional chromosome analysis; however, the widespread clinical use of novel molecular techniques such as array comparative genomic hybridization (a-CGH) has increased the detection rate of submicroscopic chromosomal aberrations associated with WHS phenotype. We provide a report of two fetuses with WHS presenting with intrauterine growth restriction as an isolated finding or combined with oligohydramnios and abnormal Doppler waveform in umbilical artery and uterine arteries. Standard karyotyping demonstrated a deletion on chromosome 4 in both cases [del(4)(p15.33) and del(4)(p15.31), respectively] and further application of a-CGH confirmed the diagnosis and offered a precise characterization of the genetic defect. A detailed review of the currently available literature on the prenatal diagnostic approach of WHS in terms of fetal sonographic assessment and molecular cytogenetic investigation is also provided.

Published

2012

12. RB1CC1 duplication and aberrant overexpression in a patient with schizophrenia: further phenotype delineation and proposal of a pathogenetic mechanism

Author

Edoardo Errichiello, Achille Iolascon, Sabrina Giglio, Antonella Gambale, Orsetta Zuffardi, Roberto Giorda, Errichiello, E., Giorda, R., Gambale, A., Iolascon, A., Zuffardi, O., and Giglio, S.

Subjects

0301 basic medicine, Proband, copy number variations (CNVs), Male, autophagy, suicidality, RB1CC1, Autophagy-Related Proteins, 030105 genetics & heredity, Biology, QH426-470, Clinical Reports, 03 medical and health sciences, Young Adult, Gene Duplication, Gene duplication, Genetics, Humans, Lymphocytes, Copy-number variation, schizophrenia (SCZ), Molecular Biology, Gene, Genetics (clinical), Exome sequencing, Cells, Cultured, Clinical Report, Breakpoint, Phenotype, 030104 developmental biology, Autophagy-Related Protein, Schizophrenia, Lymphocyte, Haploinsufficiency, Human

Abstract

Background Copy number variants in coding and noncoding genomic regions have been implicated as risk factor for schizophrenia (SCZ). Rare duplications of the RB1CC1 gene were found enriched in SCZ patients. Considering that the effect of such duplications on RB1CC1 expression has never been evaluated and partial gene duplications of RB1CC1 have also been reported in SCZ patients, it is unclear whether the pathogenesis is mediated by haploinsufficiency rather than genuine overexpression of the gene. Methods and Results We studied a patient with schizophrenia, suicidality, and obesity, who carried a de novo RB1CC1 complete duplication, as assessed by high‐resolution array‐CGH. Molecular breakpoint cloning allowed to identify nonhomologous end joining (NHEJ) as driving mechanism in this rearrangement. On the contrary, trio‐based whole‐exome sequencing excluded other potential causative variants related to the phenotype. Functional assays showed significant overexpression of RB1CC1 in the peripheral blood lymphocytes of the proband compared to control subjects, suggesting overdosage as leading mechanism in SCZ pathophysiology. Conclusion We hypothesized a pathogenetic model that might explain the correlation between RB1CC1 overexpression and schizophrenia by altering different cell signaling pathways, including autophagy, a promising therapeutic target for schizophrenic patients., It is unproven whether the RB1CC1 pathogenesis in schizophrenia is mediated by haploinsufficiency rather than genuine overexpression of the gene. We identified a de novo RB1CC1 complete duplication in a SCZ patient showing significant overexpression of RB1CC1. We hypothesized a pathogenetic model that might explain the correlation between RB1CC1 overexpression and schizophrenia by altering different cell signaling pathways, including autophagy, a promising therapeutic target for schizophrenic patients.

Published

2021

13. Multiple clinical forms of dehydrated hereditary stomatocytosis arise from mutations in PIEZO1

Author

Maria D'Armiento, Lucia De Franceschi, Seth L. Alper, Boris E. Shmukler, Stanley L. Schrier, David H. Vandorpe, Annalisa Vetro, Maria Rosaria Esposito, Bertil Glader, Achille Iolascon, Orsetta Zuffardi, Jean Delaunay, Donatella Montanaro, Carla Auriemma, Gordon W. Stewart, Immacolata Andolfo, Ivan Limongelli, Roberta Russo, Carlo Brugnara, Luigia De Falco, Rupa Narayan, Fara Vallefuoco, Andolfo, I, Alper, Sl, De Franceschi, L, Auriemma, C, Russo, Roberta, De Falco, L, Vallefuoco, F, Esposito, Mr, Vandorpe, Dh, Shmukler, Be, Narayan, R, Montanaro, D, D'Armiento, Maria, Vetro, A, Limongelli, I, Zuffardi, O, Glader, Be, Schrier, Sl, Brugnara, C, Stewart, Gw, Delaunay, J, and Iolascon, Achille

Subjects

Adult, Hemolytic anemia, Hydrops Fetalis, Molecular Sequence Data, Immunology, Mice, Transgenic, Anemia, Hemolytic, Congenital, Transfection, medicine.disease_cause, Models, Biological, Biochemistry, Ion Channels, Mice, Xenopus laevis, MISSENSE MUTATION, medicine, Animals, Humans, Missense mutation, HEMOLYTIC ANEMIA, Amino Acid Sequence, Genetics, Mutation, Sequence Homology, Amino Acid, business.industry, PIEZO1, Gene Expression Regulation, Developmental, Cell Biology, Hematology, Embryo, Mammalian, medicine.disease, Molecular biology, Pedigree, medicine.anatomical_structure, stomatocytosis, Dehydrated hereditary stomatocytosis, Female, Bone marrow, business, Cation transport, Stomatocytosis

Abstract

Autosomal dominant dehydrated hereditary stomatocytosis (DHSt) usually presents as a compensated hemolytic anemia with macrocytosis and abnormally shaped red blood cells (RBCs). DHSt is part of a pleiotropic syndrome that may also exhibit pseudohyperkalemia and perinatal edema. We identified PIEZO1 as the disease gene for pleiotropic DHSt in a large kindred by exome sequencing analysis within the previously mapped 16q23-q24 interval. In 26 affected individuals among 7 multigenerational DHSt families with the pleiotropic syndrome, 11 heterozygous PIEZO1 missense mutations cosegregated with disease. PIEZO1 is expressed in the plasma membranes of RBCs and its messenger RNA, and protein levels increase during in vitro erythroid differentiation of CD34(+) cells. PIEZO1 is also expressed in liver and bone marrow during human and mouse development. We suggest for the first time a correlation between a PIEZO1 mutation and perinatal edema. DHSt patient red cells with the R2456H mutation exhibit increased ion-channel activity. Functional studies of PIEZO1 mutant R2488Q expressed in Xenopus oocytes demonstrated changes in ion-channel activity consistent with the altered cation content of DHSt patient red cells. Our findings provide direct evidence that R2456H and R2488Q mutations in PIEZO1 alter mechanosensitive channel regulation, leading to increased cation transport in erythroid cells.

Published

2013

14. Interstitial deletion of chromosome 2p15-16.1: Report of two patients and critical review of current genotype–phenotype correlation

Author

Michela Malacarne, Roberto Ciccone, Ettore Piro, Giovanni Corsello, Orsetta Zuffardi, Marianna Vitaloni, Mauro Pierluigi, Francesca Serraino, Simona Cavani, Maria Piccione, Piccione, M, Piro, E, Serraino, F, Cavani, S, Ciccone, R, Malacarne, M, Pierluigi, M, Vitaloni, M, Zuffardi, O, and Corsello, G

Subjects

Male, Genotype, Developmental delay, Developmental Disabilities, Bioinformatics, Contiguous gene syndrome, Genotype phenotype, Correlation, Genetics, Humans, Chromosomal delection, Medicine, Abnormalities, Multiple, Clinical phenotype, Genetic Association Studies, In Situ Hybridization, Fluorescence, Sex Chromosome Aberrations, Genetics (clinical), Sequence Deletion, Chromosomes, Human, X, Comparative Genomic Hybridization, business.industry, Infant, Chromosome, Syndrome, General Medicine, Microdeletion syndrome, medicine.disease, Xq28, Phenotype, Child, Preschool, Chromosomes, Human, Pair 2, Female, Chromosome Deletion, business, Comparative genomic hybridization

Abstract

We report two individuals with developmental delay and dysmorphic features, in whom array-based comparative genomic hybridization (array CGH) led to the identification of a 2p15p16.1 de novo deletion. In the first patient (Patient 1) a familial deletion of 6q12, inherited from her father, was also detected. In the second patient (Patient 2) in addition to the 2p15p16.1 microdeletion a de novo deletion in Xq28 was detected. Both individuals shared dysmorphic features and developmental delay with the six reported patients with a 2p15p16.1 microdeletion described in medical literature. Conclusion: in the first patient a 642 kb 2p16.1 deletion (from 60.604 to 61.246 Mb), and a 930 kb 6q12 familial deletion, was detected and in the second a 2.5 Mb 2p15p16.1 deletion (from 60.258 to 62.763 Mb), with a Xq28 deletion, was discovered. The common dysmorphic features and neurodevelopmental delay found in these patients are in agreement with the clinical phenotype of a microdeletion syndrome involving 2p15p16.1. Our data confirm the hypothesis suggesting that 2p15p16.1 deletion is a contiguous gene syndrome.

Published

2012

15. Primary coenzyme Q10 deficiency presenting as fatal neonatal multiorgan failure

Author

Eva Trevisson, Maurizio Clementi, Leonardo Salviati, Corrado Angelini, Alberto Burlina, Orsetta Zuffardi, Marco Spinazzi, Plácido Navas, Giada Lunardi, Alberto Casarin, María Angeles Hernández, Giovanna Cenacchi, Annalisa Vetro, Ivan Limongelli, Mara Doimo, Maria Andrea Desbats, Lino Chiandetti, Fondazione Cassa di Risparmio di Padova e Rovigo, Fondazione Telethon, Ministero della Salute, Instituto de Salud Carlos III, Junta de Andalucía, Desbats, Ma, Vetro, A, Limongelli, I, Lunardi, G, Casarin, A, Doimo, M, Spinazzi, M, Angelini, C, Cenacchi, G, Burlina, A, Rodriguez Hernandez, Ma, Chiandetti, L, Clementi, M, Trevisson, E, Navas, P, Zuffardi, O, Salviati, L, Physiopathologie Cardiovasculaire et Mitochondriale (MITOVASC), and Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université d'Angers (UA)

Subjects

Ubiquinone, Gene Expression, Gastroenterology, Coenzyme Q10, coenzime Q10 deficiency, COQ2, chemistry.chemical_compound, Consanguinity, 0302 clinical medicine, Fatal Outcome, Genetics (clinical), Exome sequencing, Genetics, 0303 health sciences, Proteinuria, Muscle Weakness, Lactic, Skeletal, 3. Good health, Mitochondria, Coenzyme Q10 deficiency, Muscle, Acidosis, Lactic, Female, medicine.symptom, Severe lactic acidosis, Acidosis, Sequence Analysis, medicine.medical_specialty, Ataxia, Encephalopathy, Short Report, Mitochondrial diseases, Biology, 03 medical and health sciences, Internal medicine, Intellectual Disability, medicine, Point Mutation, Hepatic Insufficiency, Humans, Renal Aminoacidurias, Muscle, Skeletal, 030304 developmental biology, Alkyl and Aryl Transferases, Genetic heterogeneity, ataxia, Infant, Newborn, Infant, Sequence Analysis, DNA, DNA, medicine.disease, Newborn, Mitochondria, Muscle, chemistry, 030217 neurology & neurosurgery, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology

Abstract

Coenzyme Q10 deficiency is a clinically and genetically heterogeneous disorder, with manifestations that may range from fatal neonatal multisystem failure, to adult-onset encephalopathy. We report a patient who presented at birth with severe lactic acidosis, proteinuria, dicarboxylic aciduria, and hepatic insufficiency. She also had dilation of left ventricle on echocardiography. Her neurological condition rapidly worsened and despite aggressive care she died at 23 h of life. Muscle histology displayed lipid accumulation. Electron microscopy showed markedly swollen mitochondria with fragmented cristae. Respiratory-chain enzymatic assays showed a reduction of combined activities of complex I+III and II+III with normal activities of isolated complexes. The defect was confirmed in fibroblasts, where it could be rescued by supplementing the culture medium with 10 μM coenzyme Q10. Coenzyme Q10 levels were reduced (28% of controls) in these cells. We performed exome sequencing and focused the analysis on genes involved in coenzyme Q10 biosynthesis. The patient harbored a homozygous c.545T>G, p.(Met182Arg) alteration in COQ2, which was validated by functional complementation in yeast. In this case the biochemical and morphological features were essential to direct the genetic diagnosis. The parents had another pregnancy after the biochemical diagnosis was established, but before the identification of the genetic defect. Because of the potentially high recurrence risk, and given the importance of early CoQ10 supplementation, we decided to treat with CoQ10 the newborn child pending the results of the biochemical assays. Clinicians should consider a similar management in siblings of patients with CoQ10 deficiency without a genetic diagnosis., This work was supported by grants from Fondazione CARIPARO, Telethon Italy GGP13222 and University of Padova (CPDA123573/12) to LS; Telethon Italy GGP10121 and PRIN 20108WT59Y_003 to OZ; Italian Ministry of Health (GR-2009-1578914) to ET; Spanish FIS grant PI11-00078 and Proyecto Excelencia P08-CTS-03988 to PN.

Published

2015

16. Evidence for interaction between human PRUNE and nm23-H1 NDPKinase

Author

Orsetta Zuffardi, Andrea Ballabio, Alexandre Reymond, Massimo Zollo, Sara Volorio, M Al-Maghtheh, Alessandro Bulfone, Giuseppe Merla, Reymond, A, Volorio, S, Merla, G, Almaghtheh, M, Zuffardi, O, Bulfone, A, Ballabio, Andrea, and Zollo, Massimo

Subjects

Adult, Cancer Research, Pseudogene, Molecular Sequence Data, Mutant, Biology, Homology (biology), Mice, Exon, Antigens, Neoplasm, Biomarkers, Tumor, Genetics, Animals, Drosophila Proteins, Humans, Amino Acid Sequence, Molecular Biology, Gene, Monomeric GTP-Binding Proteins, Regulation of gene expression, Chromosomes, Human, Pair 13, Sequence Homology, Amino Acid, fungi, Chromosome Mapping, Gene Expression Regulation, Developmental, NM23 Nucleoside Diphosphate Kinases, Cell biology, Gene Expression Regulation, nervous system, Nucleoside-Diphosphate Kinase, Chromosomal region, Insect Proteins, Drosophila, Sequence Alignment, Drosophila Protein, Transcription Factors

Abstract

We have isolated a human and murine homologue of the Drosophila prune gene through dbEST searches. The gene is ubiquitously expressed in human adult tissues, while in mouse developing embryos a high level of expression is confined to the nervous system particularly in the dorsal root ganglia, cranial nerves, and neural retina. The gene is composed of eight exons and is located in the 1q21.3 chromosomal region. A pseudogene has been sequenced and mapped to chromosomal region 13q12. PRUNE protein retains the four characteristic domains of DHH phosphoesterases. The synergism between prune and awdK-pn in Drosophila has led various authors to propose an interaction between these genes. However, such an interaction has never been supported by biochemical data. By using interaction-mating and in vitro co-immunoprecipitation experiments, we show for the first time the ability of human PRUNE to interact with the human homologue of awd protein (nm23-H1). In contrast, PRUNE is impaired in its interaction with nm-23-H1-S120G mutant, a gain-of-function mutation associated with advanced neuroblastoma stages. Consistently, PRUNE and nm23-H1 proteins partially colocalize in the cytoplasm. The data presented are consistent with the view that PRUNE acts as a negative regulator of the nm23-H1 protein. We discuss how PRUNE regulates nm23-H1 protein and postulate possible implications of PRUNE in neuroblastoma progression.

Published

1999

17. Characterization ofCxorf5(71-7A), a Novel Human cDNA Mapping to Xp22 and Encoding a Protein Containing Coiled-Coil α-Helical Domains

Author

Margherita Mariani, Anna Marchitiello, Giuseppe Borsani, Sabrina Giglio, Brunella Franco, Lisa de Conciliis, Sandro Banfi, Martin C. Wapenaar, G. Giacomo Consalez, Orsetta Zuffardi, Andrea Ballabio, de Conciliis, L, Marchitiello, A, Wapenaar, Mc, Borsani, G, Giglio, S, Mariani, M, Consalez, GIAN GIACOMO, Zuffardi, O, Franco, B, Ballabio, A, Banfi, S., DE CONCILIIS, L, Wapenaar, M. C., Consalez, G. G., Franco, Brunella, Ballabio, Andrea, Consalez, Gg, and Banfi, Sandro

Subjects

Male, Protein Structure, Secondary, DNA, Complementary, X Chromosome, Messenger, Molecular Sequence Data, Biology, Y chromosome, Protein Structure, Secondary, X-inactivation, Open Reading Frames, Alternative Splicing, Amino Acid Sequence, Cloning, Molecular, Dosage Compensation, Genetic, Humans, Organ Specificity, Physical Chromosome Mapping, Proteins, RNA, Messenger, Sequence Analysis, DNA, Chromosome Mapping, Genetic, Gene mapping, Complementary, Complementary DNA, Genetics, Gene, X chromosome, Coiled coil, Molecular, DNA, Dosage Compensation, RNA splicing, RNA, Sequence Analysis, Cloning

Abstract

The human X chromosome is known to contain several disease genes yet to be cloned. In the course of a project aimed at the construction of a transcription map of the Xp22 region, we fully characterized a novel cDNA, Cxorf5 (HGMW-approved symbol, alias 71-7A), previously mapped to this region but for which no sequence information was available. We isolated and sequenced the full-length transcript, which encodes a predicted protein of unknown function containing a large number of coiled-coild domains, typically presented in a variety of different molecules, from fibrous proteins to transcription factors. We showed that the Cxorf5 cDNA is ubiquitously expressed, undergoes alternative splicing, and escapes X inactivation. Furthermore, we precisely mapped two additional Cxorf5-related loci on the Y chromosome and on chromosome 5. By virtue of its mapping assignment to the Xp22 region, Cxorf5 represents a candidate gene for at least four human diseases, namely spondyloepiphiseal dysplasia late, oral-facial-digital syndrome type 1, craniofrontonasal syndrome, and a nonsyndromic sensorineural deafness.

Published

1998

18. Molecular Cloning, Expression Pattern, and Chromosomal Localization of the Human Na–Cl Thiazide-Sensitive Cotransporter (SLC12A3)

Author

Giulia Arrigo, Massimo Zollo, Maurizio De Fusco, Andrea Ballabio, Giorgio Casari, Orsetta Zuffardi, Alberto Bettinelli, Nadia Mastroianni, Mastroianni, N, DE FUSCO, M, Zollo, Massimo, Arrigo, G, Zuffardi, O, Bettinelli, A, Ballabio, Andrea, Casari, G., Defusco, M, Zollo, M, Ballabio, A, and Casari, GIORGIO NEVIO

Subjects

Adult, DNA, Complementary, Receptors, Drug, Sodium Chloride Symporter Inhibitors, Molecular Sequence Data, Gene Expression, Biology, Molecular cloning, Benzothiadiazines, Genetics, medicine, Animals, Humans, Solute Carrier Family 12, Member 3, Tissue Distribution, Amino Acid Sequence, Cloning, Molecular, Diuretics, Peptide sequence, chemistry.chemical_classification, Base Sequence, Sequence Homology, Amino Acid, Symporters, urogenital system, Chromosome Mapping, Membrane transport, Gitelman syndrome, medicine.disease, Sodium Chloride Symporters, Transmembrane protein, Rats, Amino acid, Transmembrane domain, chemistry, Biochemistry, Carrier Proteins, Cotransporter, Chromosomes, Human, Pair 16

Abstract

Electrolyte homeostasis is maintained by several ion transport systems. Na-(K)-Cl cotransporters promote the electrically silent movement of chloride across the membrane in absorptive and secretory epithelia. Two kidney-specific Na-(K)-Cl cotransporter isoforms are known, so far, according to their sensitivity to specific inhibitors, We have cloned the human cDNA coding for the renal Na-Cl cotransporter selectively inhibited by the thiazide class of diuretic agents. The predicted protein sequence of 1021 amino acids (112 kDa) shows a structure common to the other members of the Na-(K)-Cl cotransporter family: a central region harboring 12 transmembrane domains and the 2 intracellular hydrophilic amino and carboxyl termini. The expression pattern of the human Na-Cl thiazide-sensitive cotransporter (hTSC, HGMW-approved symbol SLC12A3) confirms the kidney specificity. hTSC has been mapped to human chromosome 16q13 by fluorescence in situ hybridization. The cloning and characterization of hTSC now render it possible to study the involvement of this cotransport system in the pathogenesis of tubulopathies such as Gitelman syndrome. (C) 1996 Academic Press, Inc.

Published

1996

19. Identification and mapping of human cDNAs homologous to Drosophila mutant genes through EST database searching

Author

Anna Marchitiello, Elisabetta Coluccia, Alessandro Guffanti, Orsetta Zuffardi, Massimo Zollo, Sabrina Giglio, Francesca Rubboli, Loris Bernard, Andrea Ballabio, Elena Rossi, Giuseppe Borsani, Sandro Banfi, Banfi, Sandro, Borsani, G, Rossi, E, Bernard, L, Guffanti, A, Rubboli, F, Marchitiello, A, Giglio, S, Coluccia, E, Zollo, M, Zuffardi, O, Ballabio, A., Banfi, S, Zollo, Massimo, and Ballabio, Andrea

Subjects

DNA, Complementary, Databases, Factual, Molecular Sequence Data, Genes, Insect, Hybrid Cells, Biology, computer.software_genre, Homology (biology), Computer Communication Networks, Gene mapping, Sequence Homology, Nucleic Acid, Drosophilidae, Complementary DNA, Genetics, Animals, Humans, Radiation hybrid mapping, Amino Acid Sequence, Gene, In Situ Hybridization, Fluorescence, Expressed sequence tag, Models, Genetic, Sequence Homology, Amino Acid, Database, Chromosome Mapping, biology.organism_classification, Drosophila melanogaster, Phenotype, Mutation, Human genome, Sequence Alignment, computer

Abstract

Cross-species comparison is an effective tool used to identify genes and study their function in both normal and pathological conditions. We have applied the power of Drosophila genetics to the vast resource of human cDNAs represented in the expressed sequence tag (EST) database (dbEST) to identify novel human genes of high biological interest. Sixty-six human cDNAs showing significant homology to genes causing Drosophila mutant phenotypes were identified by screening dbEST using the "text string' option, and their map position was determined using both fluorescence in situ hybridization (FISH) and radiation hybrid mapping. Comparison between these genes and their putative partners in Drosophila may provide important insights into their function in mammals. Furthermore, integration of these genes into the transcription map of the human genome contributes to the positional candidate approach for disease gene identification.

Published

1996

20. Duplications of FOXG1 in 14q12 are associated with developmental epilepsy, mental retardation, and severe speech impairment

Author

Sau Wai Cheung, Katia Rocchetti, Chiara Pantaleoni, Pawel Stankiewicz, Maria Clara Bonaglia, Roberto Ciccone, Stefano D'Arrigo, Jeffrey R Hughes, Mary Bertrand, Thomy de Ravel, Nicola Brunetti-Pierri, Erika Della Mina, Christian P. Schaaf, Zhilian Xia, Naftha Jelluma, Orsetta Zuffardi, Renato Borgatti, Claudia A. L. Ruivenkamp, Parul Jayakar, Serena Belli, Alex R. Paciorkowski, V. Reid Sutton, Clinical sciences, Medical Genetics, BRUNETTI PIERRI, Nicola, Paciorkowski, Ar, Ciccone, R, Mina, Ed, Bonaglia, Mc, Borgatti, R, Schaaf, Cp, Sutton, Vr, Xia, Z, Jelluma, N, Ruivenkamp, C, Bertrand, M, de Ravel, Tj, Jayakar, P, Belli, S, Rocchetti, K, Pantaleoni, C, D'Arrigo, S, Hughes, J, Cheung, Sw, Zuffardi, O, and Stankiewicz, P.

Subjects

Adult, Male, Child, preschool, comparative genomic hybridization, Rett syndrome, Biology, Article, Epilepsy/genetics, Epilepsy, Chromosomes, Human, Pair 14/genetics, Gene Duplication, Intellectual disability, Gene duplication, Genetics, medicine, Humans, Nerve Tissue Proteins/genetics, Forkhead Transcription Factors/genetics, Genetics (clinical), Oligonucleotide Array Sequence Analysis, Infant, medicine.disease, Hypotonia, Intellectual Disability/genetics, FOXG1, Language Development Disorders/genetics, Speech delay, Female, medicine.symptom, FOXG1 developmental delay speech delay infantile spasms array CGH rett-syndrome copy number deletion family males haploinsufficiency microduplication microarray features patient, Haploinsufficiency, Developmental Disabilities/genetics

Abstract

Genome-wide high-resolution array analysis is rapidly becoming a reliable method of diagnostic investigation in individuals with mental retardation and congenital anomalies, leading to the identification of several novel microdeletion and microduplication syndromes. We have identified seven individuals with duplication on chromosome 14q11.2q13.1, who exhibited idiopathic developmental delay and cognitive impairment, severe speech delay, and developmental epilepsy. Among these cases, the minimal common duplicated region on chromosome 14q11.2q13.1 includes only three genes, FOXG1, C14orf23, and PRKD1. We propose that increased dosage of Forkhead Box G1 (FOXG1) is the best candidate to explain the abnormal neurodevelopmental phenotypes observed in our patients. Deletions and inactivating mutations of FOXG1 have been associated with a Rett-like syndrome characterized by hypotonia, irritability, developmental delay, hand stereotypies, and deceleration of head growth. FOXG1, encoding a brain-specific transcription factor, has an important role in the developing brain. In fact, in vivo studies in chicken brain demonstrated that overexpression of FOXG1 results in thickening of the neuroepithelium and outgrowth of the telencephalon and mesencephalum, secondary to a reduction in neuroepithelial cell apoptosis. European Journal of Human Genetics (2011) 19, 102-107; doi:10.1038/ejhg.2010.142; published online 25 August 2010

Published

2011

21. Olfactory Receptor-Related Duplicons Mediate a Microdeletion at 11q13.2q13.4 Associated with a Syndromic Phenotype

Author

Orsetta Zuffardi, Marco Seri, Anita Wischmeijer, I. Cecconi, Emilio Franzoni, Pamela Magini, Giovanni Romeo, Roberto Giorda, Laura Mazzanti, Maria Gnoli, Roberto Ciccone, Wischmeijer A, Magini P, Giorda R, Gnoli M, Ciccone R, Cecconi L, Franzoni E, Mazzanti L, Romeo G, Zuffardi O, and Seri M

Subjects

Genetics, 0303 health sciences, Olfactory receptor, Breakpoint, Biology, Phenotype, SHANK2, 11q13.2q13.4 microdeletion, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Chromosomal region, medicine, Original Article, Haploinsufficiency, Gene, 030217 neurology & neurosurgery, Genetics (clinical), 030304 developmental biology, Segmental duplication

Abstract

By array-CGH, we identified a cryptic deletion of about 3.4 Mb involving the chromosomal region 11q13.2q13.4 in a child with speech and developmental delay. Highly homologous segmental duplications related to the well-known olfactory receptor (OR)-containing clusters at 8p and 4p are located at the breakpoints of the imbalance and may be involved in its occurrence. Although these structural features are known to promote recurrent chromosomal rearrangements and previous studies had included the 11q13.2q13.4 deletion region among those considered potentially more unstable, neither deletions nor duplications of this region had been reported until now. Among the deleted genes, SHANK2 might play a role in the phenotype of the patient since it encodes a postsynaptic scaffolding protein similar to SHANK3, whose haploinsufficiency is a well-known cause of severe speech delay and autistic-like behavior, and recently deletions and mutations of SHANK2 have been described in patients with an autistic spectrum disorder or mental retardation.

Published

2011

22. Complex Segmental Duplications Mediate a Recurrent dup(X)(p11.22-p11.23) Associated with Mental Retardation, Speech Delay, and EEG Anomalies in Males and Females

Author

Sebastiano A. Musumeci, Freddie H. Sharkey, Roberto Giorda, Orsetta Zuffardi, Isabella Fiocchi, Bruno Leheup, Luigina Spaccini, M. Clara Bonaglia, Graeme C.M. Black, Massimo Mastrangelo, Elena Fontana, Jill Clayton-Smith, Susan Marelli, Francesca Novara, Daniela Di Benedetto, Marco Seri, Sally Ann Lynch, Emanuela Avola, Claudio Zucca, Paolo Tinuper, Girolamo Aurelio Vitello, Rita Grasso, Marco Fichera, Philippe Jonveaux, Pinella Failla, Silvana Beri, Claudia Torniero, Lucia Castiglia, Bernardo Dalla Bernardina, Pamela Magini, Jill E. Urquhart, Francesca Bisulli, Corrado Romano, Santina Reitano, Giorda R., Bonaglia M.C., Beri S., Fichera M., Novara F., Magini P., Urquhart J., Sharkey F.H., Zucca C., Grasso R., Marelli S., Castiglia L., Di Benedetto D., Musumeci S.A., Vitello G.A., Failla P., Reitano S., Avola E., Bisulli F., Tinuper P., Mastrangelo M., Fiocchi I., Spaccini L., Torniero C., Fontana E., Lynch S.A., Clayton-Smith J., Black G., Jonveaux P., Leheup B., Seri M., Romano C., dalla Bernardina B., and Zuffardi O.

Subjects

Male, medicine.medical_specialty, congenital, hereditary, and neonatal diseases and abnormalities, Audiology, Electroencephalography, Biology, mental retardation, 03 medical and health sciences, 0302 clinical medicine, Report, Gene Duplication, Intellectual Disability, dup(X)(p11.22-p11.23), EEG anomalies, Gene duplication, Genetics, medicine, Humans, Genetics(clinical), Language Development Disorders, Genetics (clinical), X chromosome, 030304 developmental biology, Segmental duplication, Chromosomes, Human, X, 0303 health sciences, medicine.diagnostic_test, 030305 genetics & heredity, medicine.disease, Pedigree, Developmental disorder, Speech delay, dup, Female, medicine.symptom, Erratum, 030217 neurology & neurosurgery, Comparative genomic hybridization

Abstract

Submicroscopic copy-number variations make a considerable contribution to the genetic etiology of human disease. We have analyzed subjects with idiopathic mental retardation (MR) by using whole-genome oligonucleotide-based array comparative genomic hybridization (aCGH) and identified familial and de novo recurrent Xp11.22-p11.23 duplications in males and females with MR, speech delay, and a peculiar electroencephalographic (EEG) pattern in childhood. The size of the duplications ranges from 0.8-9.2 Mb. Most affected females show preferential activation of the duplicated X chromosome. Carriers of the smallest duplication show X-linked recessive inheritance. All other affected individuals present dominant expression and comparable clinical phenotypes irrespective of sex, duplication size, and X-inactivation pattern. The majority of the rearrangements are mediated by recombination between flanking complex segmental duplications. The identification of common clinical features, including the typical EEG pattern, predisposing genomic structure, and peculiar X-inactivation pattern, suggests that duplication of Xp11.22-p11.23 constitutes a previously undescribed syndrome.

Published

2009

23. Different molecular mechanisms causing 9p21 deletions in acute lymphoblastic leukemia of childhood

Author

Orsetta Zuffardi, Angela Cometa, Roberto Ciccone, Silvana Beri, Roberto Giorda, Alberto Malovini, Francesca Novara, Franco Locatelli, Maria Ester Bernardo, Riccardo Bellazzi, Novara, F, Beri, S, Bernardo, M, Bellazzi, R, Malovini, A, Ciccone, R, Cometa, Am, Locatelli, F, Giorda, R, and Zuffardi, O

Subjects

Male, Heterozygote, Adolescent, acute lymphoblastic leukemia, Biology, CDKN2A, Genetics, Homologous chromosome, Recombination signal sequences, Humans, Genetics(clinical), Allele, Child, Promoter Regions, Genetic, Genetics (clinical), Cyclin-Dependent Kinase Inhibitor p16, Cyclin-Dependent Kinase Inhibitor p15, DNA Primers, Oligonucleotide Array Sequence Analysis, Sequence Deletion, Original Investigation, Comparative Genomic Hybridization, Breakpoint, Chromosome, Infant, Chromosome Breakage, DNA Methylation, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Molecular biology, CpG site, Child, Preschool, CpG Islands, Female, Chromosome breakage, Chromosomes, Human, Pair 9

Abstract

Deletion of chromosome 9p21 is a crucial event for the development of several cancers including acute lymphoblastic leukemia (ALL). Double strand breaks (DSBs) triggering 9p21 deletions in ALL have been reported to occur at a few defined sites by illegitimate action of the V(D)J recombination activating protein complex. We have cloned 23 breakpoint junctions for a total of 46 breakpoints in 17 childhood ALL (9 B- and 8 T-lineages) showing different size deletions at one or both homologous chromosomes 9 to investigate which particular sequences make the region susceptible to interstitial deletion. We found that half of 9p21 deletion breakpoints were mediated by ectopic V(D)J recombination mechanisms whereas the remaining half were associated to repeated sequences, including some with potential for non-B DNA structure formation. Other mechanisms, such as microhomology-mediated repair, that are common in other cancers, play only a very minor role in ALL. Nucleotide insertions at breakpoint junctions and microinversions flanking the breakpoints have been detected at 20/23 and 2/23 breakpoint junctions, respectively, both in the presence of recombination signal sequence (RSS)-like sequences and of other unspecific sequences. The majority of breakpoints were unique except for two cases, both T-ALL, showing identical deletions. Four of the 46 breakpoints coincide with those reported in other cases, thus confirming the presence of recurrent deletion hotspots. Among the six cases with heterozygous 9p deletions, we found that the remaining CDKN2A and CDKN2B alleles were hypermethylated at CpG islands. Electronic supplementary material The online version of this article (doi:10.1007/s00439-009-0689-7) contains supplementary material, which is available to authorized users.

Published

2009

24. Evolutionary and clinical neocentromeres: two faces of the same coin?

Author

Ludovica Verdun di Cantogno, Oronzo Capozzi, Enrico Grosso, Orsetta Zuffardi, Mariano Rocchi, Stefania Purgato, Roberto Ciccone, Giuliano Della Valle, Capozzi O., Purgato S., Verdun di Cantogno L., Grosso E., Ciccone R., Zuffardi O., Della Valle G., and Rocchi M.

Subjects

Male, Chromatin Immunoprecipitation, Neocentromere, CROMOSOME REARRANGEMENT, Chromosomal Proteins, Non-Histone, Centromere, Ring chromosome, Chromosome Disorders, Biology, Autoantigens, Antibodies, Evolution, Molecular, Centromere Protein A, Genetics, Humans, Ring Chromosomes, Child, CROMOSOME 9, In Situ Hybridization, Fluorescence, Genetics (clinical), CEMP-A, NEOCENTROMERE, Microarray Analysis, Human genetics, Chromosomes, Human, Pair 9, NEOCENTROMERIZATION, CENP-C

Abstract

It has been hypothesized that human clinical neocentromeres and evolutionary novel centromeres (ENC) represent two faces of the same phenomenon. However, there are only two reports of loci harboring both a novel centromere and a clinical neocentromere. We suggest that only the tip of the iceberg has been scratched because most neocentromerization events have a very low chance of being observed. In support of this view, we report here on a neocentromere at 9q33.1 that emerged in a ring chromo- some of about 12 Mb. The ring was produced by a balanced rearrangement that was fortuitously discovered because of its malsegregation in the propositus. Chromatin-immuno- precipitation-on-chip experiments using anti-centromere protein (CENP)-A and anti-CENP-C antibodies strongly indicated that a novel centromeric domain was present in the ring, in a chromosomal domain where an ENC emerged in the ancestor to Old World monkeys.

Published

2008

25. Duplications in addition to terminal deletions are present in a proportion of ring chromosomes: clues to the mechanisms of formation

Author

Orsetta Zuffardi, Roberto Ciccone, Luigi Memo, Vaidutis Kučinskas, Paola Riva, Teresa Mattina, M Stroppi, Stefania Gimelli, Elena Rossi, Concetta Simona Perrotta, Claudio Castellan, Alessandra Baumer, Jole Messa, Paola Maraschio, Mariluce Riegel, Albert Schinzel, University of Zurich, and Zuffardi, O

Subjects

Male, Chromosomes, Artificial, Bacterial, 2716 Genetics (clinical), Genotype, 10039 Institute of Medical Genetics, Ring chromosome, 610 Medicine & health, Biology, Ring (chemistry), 1311 Genetics, Gene duplication, Genetics, Chromosomes, Human, Humans, Ring Chromosomes, Mitosis, In Situ Hybridization, Fluorescence, Genetics (clinical), DNA Primers, Base Sequence, Models, Genetic, Nucleic Acid Hybridization, Phenotype, Telomere, Chromosome Inversion, dup, 570 Life sciences, biology, Female, Chromosome Deletion, Microsatellite Repeats

Abstract

Background and methods: Ring chromosomes are often associated with abnormal phenotypes because of loss of genomic material at one or both ends. In some cases no deletion has been detected and the abnormal phenotype has been attributed to mitotic ring instability. We investigated 33 different ring chromosomes in patients with phenotypic abnormalities by array based comparative genomic hybridisation (CGH) and fluorescence in situ hybridisation (FISH). Results: In seven cases we found not only the expected terminal deletion but also a contiguous duplication. FISH analysis in some of these cases demonstrated that the duplication was inverted. Thus these ring chromosomes derived through a classical inv dup del rearrangement consisting of a deletion and an inverted duplication. Discussion: Inv dup del rearrangements have been reported for several chromosomes, but hardly ever in ring chromosomes. Our findings highlight a new mechanism for the formation of some ring chromosomes and show that inv dup del rearrangements may be stabilised not only through telomere healing and telomere capture but also through circularisation. This type of mechanism must be kept in mind when evaluating possible genotype– phenotype correlations in ring chromosomes since in these cases: (1) the deletion may be larger or smaller than first estimated based on the size of the ring, with a different impact on the phenotype; and (2) the associated duplication will in general cause further phenotypic anomalies and might confuse the genotype–phenotype correlation. Moreover, these findings explain some phenotypic peculiarities which previously were attributed to a wide phenotypic variation or hidden mosaicism related to the instability of the ring.

Published

2008

26. Characterization of a recurrent 15q24 microdeletion syndrome

Author

Stefania Gimelli, Raoul C.M. Hennekam, Regina Regan, Antonietta Coppola, Giorgio Gimelli, Joris A. Veltman, Orsetta Zuffardi, Nine V A M Knoers, Samantha J. L. Knight, Bert B.A. de Vries, Andrew J. Sharp, Evan E. Eichler, Peggy S. Eis, Pasquale Striano, Han G. Brunner, Sue Price, Rebecca R. Selzer, Sharp, A. J., Selzer, R. R., Veltman, J. A., Gimelli, S., Gimelli, G., Striano, P., Coppola, A., Regan, R., Price, S. M., Knoers, N. V., Eis, P. S., Brunner, H. G., Hennekam, R. C., Knight, S. J. L., de Vries, B. B. A., Zuffardi, O., Eichler, E. E., Amsterdam Neuroscience, Amsterdam Public Health, and Paediatric Genetics

Subjects

Adult, Male, Microcephaly, Health aging / healthy living [IGMD 5], Genetics and epigenetic pathways of disease [NCMLS 6], Adolescent, DNA Mutational Analysis, Molecular Sequence Data, Membrane transport and intracellular motility [NCMLS 5], Biology, Chromosomes, Genomic disorders and inherited multi-system disorders [IGMD 3], Translational research [ONCOL 3], medicine, Humans, Abnormalities, Multiple, genetics, Hypertelorism, Molecular Biology, Genetics (clinical), Segmental duplication, Renal disorder [IGMD 9], Molecular diagnosis, prognosis and monitoring [UMCN 1.2], Oligonucleotide Array Sequence Analysis, Genetics, Chromosomes, Human, Pair 15, Base Sequence, Sotos syndrome, Breakpoint, Pair 15, Chromosome, Chromosome Breakage, General Medicine, Anatomy, Syndrome, medicine.disease, Abnormalities, Multiple, genetics, Adolescent, Adult, Base Sequence, Chromosome Breakage, Chromosome Deletion, Chromosomes, Human, genetics, DNA Mutational Analysis, Humans, Male, Molecular Sequence Data, Oligonucleotide Array Sequence Analysis, Syndrome, Chromosome breakage, medicine.symptom, Chromosome Deletion, Haploinsufficiency, Functional Neurogenomics [DCN 2]

Abstract

Contains fulltext : 53175.pdf (Publisher’s version ) (Closed access) We describe multiple individuals with mental retardation and overlapping de novo submicroscopic deletions of 15q24 (1.7-3.9 Mb in size). High-resolution analysis showed that in three patients both proximal and distal breakpoints co-localized to highly identical segmental duplications (>51 kb in length, > 94% identity), suggesting non-allelic homologous recombination as the likely mechanism of origin. Sequencing studies in a fourth individual provided base pair resolution and showed that both breakpoints in this case were located in unique sequence. Despite the differences in the size and location of the deletions, all four individuals share several major features (growth retardation, microcephaly, digital abnormalities, hypospadias and loose connective tissue) and resemble one another facially (high anterior hair line, broad medial eyebrows, hypertelorism, downslanted palpebral fissures, broad nasal base, long smooth philtrum and full lower lip), indicating that this represents a novel syndrome caused by haploinsufficiency of one or more dosage-sensitive genes in the minimal deletion region. Our results define microdeletion of 15q24 as a novel recurrent genomic disorder.

Published

2007

27. Microphthalmia with linear skin defects (MLS) syndrome: clinical, cytogenetic and molecular characterization of 11 cases

Author

Manuela Morleo, Cédric Le Caignec, Annick Raas-Rothschild, Orsetta Zuffardi, Andrea Ballabio, Tsutomu Ogata, Gerald W. Zaidman, Giuliana Gregato, Tiziano Pramparo, Marie Christine De Blois, Louise C. Wilson, Brunella Franco, Robert F. Mueller, Lucia Perone, Morleo, M, Pramparo, T, Perone, L, Gregato, G, LE CAIGNEC, C, Mueller, Rf, Ogata, T, RAAS-ROTHSHILD, A, Vekemans, M, Wilson, L, Zaidman, G, Zuffardi, O, Ballabio, A, and Franco, B

Subjects

medicine.medical_specialty, Candidate gene, Microarray, Biology, Microphthalmia, Genetics, medicine, Humans, Microphthalmos, Abnormalities, Multiple, Child, Genetics (clinical), X chromosome, In Situ Hybridization, Fluorescence, Chromosomes, Human, X, medicine.diagnostic_test, Cytogenetics, Infant, Karyotype, Syndrome, medicine.disease, Physical Chromosome Mapping, Developmental disorder, Karyotyping, Skin Abnormalities, Chromosome Deletion, Fluorescence in situ hybridization

Abstract

The microphthalmia with linear skin defects (MLS) syndrome (MIM 309801) is a severe and rare developmental disorder, which is inherited as an X-linked dominant trait with male lethality. In the vast majority of patients, this syndrome is associated with terminal deletion of the Xp22.3 region. Thirty-five cases have been described to date in the literature since the first description of the syndrome in the early 1990s. We now report on the clinical, cytogenetic, and molecular characterization of 11 patients, 7 of whom have not been described previously. Seven of these patients have chromosomal abnormalities of the short arm of the X-chromosome, which were characterized and defined by fluorescence in situ hybridization (FISH) analysis. Intriguingly, one of the patients displays an interstitial Xp22.3 deletion, which to the best of our knowledge is the first reported for this condition. Finally we report on the identification and molecular characterization of four cases with clinical features of MLS but apparently normal karyotypes, verified by FISH analysis using genomic clones spanning the MLS minimal critical region, and with genome-wide analysis using a 1 Mb resolution BAC microarray. These patients made it possible to undertake mutation screening of candidate genes and may prove critical for the identification of the gene responsible for this challenging and intriguing genetic disease.

Published

2005

28. Mutation analysis of two candidate genes for premature ovarian failure, DACH2 and POF1B

Author

Cinzia Sala, Silvia Bione, M. C. Manzini, Anna Marozzi, R. Nappi, R. Battaglia, Orsetta Zuffardi, Daniela Toniolo, Leda Dalprà, Francesca Torricelli, V. Bruni, Walter Vegetti, S. Bernabini, Flavio Rizzolio, Roberta Ricotti, Mara Goegan, P. G. Crosignani, Enrico Ginelli, Bione, S, Rizzolio, F, Sala, C, Ricotti, R, Goegan, M, Manzini, M, Battaglia, R, Marozzi, A, Vegetti, W, Dalpra', L, Crosignani, P, Ginelli, E, Nappi, R, Bernabini, S, Bruni, V, Torricelli, F, Zuffardi, O, and Toniolo, D

Subjects

Candidate gene, Physiology, DNA Mutational Analysis, Chromosomal translocation, Primary Ovarian Insufficiency, medicine.disease_cause, Translocation, Genetic, POF1B, Child, X-linked recessive inheritance, X chromosome, Genetics, Mutation, Rehabilitation, Microfilament Proteins, Nuclear Proteins, Obstetrics and Gynecology, Middle Aged, DACH2, Premature ovarian failure, DNA-Binding Proteins, Dosage Compensation, Susceptibility gene, Adolescent, Adult, Amino Acid Sequence, Chromosomes, Human, X, Dosage Compensation, Genetic, Female, Genetic Variation, Humans, Molecular Sequence Data, Proteins, Transcription Factors, Developmental Biology, Reproductive Medicine, Human, Translocation, Settore BIO/11 - Biologia Molecolare, Biology, Chromosomes, Genetic, medicine, Autosome, Breakpoint, medicine.disease

Abstract

Background: Balanced X;autosome translocations interrupting the 'critical region' of the long arm of the human X chromosome are often associated with premature ovarian failure (POF). However, the mechanisms leading to X-linked ovarian dysfunction are largely unknown, as the majority of the X chromosome breakpoints have been mapped to gene-free genomic regions. A few genes have been found to be interrupted, but their role has never been clarified. Methods and Results: By fine mapping of the X chromosome breakpoint of an X;autosome balanced translocation, we identified a new interrupted gene, POF1B. We performed a mutation analysis of POF1B and of another gene previously identified, DACH2, localized similar to700 kb distal in Xq21, in a cohort of >200 Italian POF patients. Rare mutations were found in patients in both genes. Conclusions: Our findings could not demonstrate any involvement of POF1B, but suggest that rare mutations in the DACH2 gene may have a role in the POF phenotype.

Published

2004

29. Identification and characterization of CDS2, a mammalian homolog of the Drosophila CDP-diacylglycerol synthase gene

Author

Andrea Ballabio, Alessandro Bulfone, Manuela Volta, Elena Rossi, Brunella Franco, Sandro Banfi, Claudio Gattuso, Margherita Mariani, G. Giacomo Consalez, Orsetta Zuffardi, Volta, M, Bulfone, A, Gattuso, C, Rossi, E, Mariani, M, Consalez, GIAN GIACOMO, Zuffardi, O, Ballabio, A, Banfi, S, Franco, B., Consalez, G. G., Ballabio, Andrea, Franco, Brunella, Consalez, Gg, and Banfi, Sandro

Subjects

Adult, Candidate gene, Sequence analysis, Molecular Sequence Data, Chromosomes, Human, Pair 20, Gene Expression, Biology, Homology (biology), Retina, Mice, Complementary DNA, Gene expression, Genetics, Animals, Humans, Amino Acid Sequence, Gene, In Situ Hybridization, Fluorescence, Vision, Ocular, CDS1, Chromosome Mapping, Mice, Inbred C57BL, Diacylglycerol Cholinephosphotransferase, Drosophila, Chromosomes, Human, Pair 4, Visual phototransduction

Abstract

The general strategies of phototransduction in vertebrates and invertebrates share many similarities, but differ significantly in their underlying molecular machinery. The CDS gene encodes the CDP-diacylglycerol synthase (CDS) enzyme and is required for phototransduction in Drosophila. Using a bioinformatic approach, we have identified two novel transcripts (CDS1 and CDS2) highly homologous to the Drosophila CDS gene. We isolated and sequenced the CDS2 full-length cDNA and mapped the two genes to human chromosomes 20p13 (CDS2) and 4q21.1 (CDS1). Sequence analysis revealed that both genes are highly homologous to the Drosophila protein (64.4 and 58. 6% identity at the protein level between CDS and CDS2 and between CDS and CDS1, respectively). The mouse homologs for both genes were isolated and used in RNA in situ hybridization studies on adult and embryonic mouse tissue sections. These studies showed that Cds2 is highly expressed in the differentiating neuroblasts of the neural retina and in the central nervous system during embryonic development, while it was not detected in adult retina. Cds1, on the other hand, shows a high level of expression in the photoreceptor layer of adult retina, which strongly suggests a role for Cds1 in phototransduction. Knowledge of the expression pattern of these genes in mammals may shed light on the evolution of vision mechanisms and help in the evaluation of candidate genes for human retinopathies.

Published

1999

30. The gene encoding a cationic amino acid transporter (SLC7A4) maps to the region deleted in the velocardiofacial syndrome

Author

Giuseppe Borsani, Gianfranco Sebastio, Maurizio Taglialatela, Orsetta Zuffardi, Maria Pia Sperandeo, Elena Rossi, Generoso Andria, Pasqualina Castaldo, Massimo Zollo, Barbara Incerti, 110: Sperandeo, Mp, Borsani, G, Incerti, B, Zollo, Massimo, Rossi, E, Zuffardi, O, Castaldo, P, Taglialatela, Maurizio, Andria, Generoso, and Sebastio, G.

Subjects

Adult, Velopharyngeal Insufficiency, Chromosomes, Human, Pair 22, Xenopus, Molecular Sequence Data, Biology, Homology (biology), velocardiofacial syndrome, Complementary DNA, Genetics, DiGeorge Syndrome, Animals, Humans, Abnormalities, Multiple, Amino acid transporter, Amino Acid Sequence, Dinucleotide Repeats, Gene, Peptide sequence, Amino Acid Metabolism, Inborn Errors, Chromosomes, Artificial, Yeast, Expressed sequence tag, Lysine, Nucleic acid sequence, Chromosome Mapping, Membrane Proteins, Sequence Analysis, DNA, Syndrome, Blotting, Northern, Molecular biology, Solute carrier family, Oocytes, Tetralogy of Fallot, Amino Acid Transport Systems, Basic, Female, Chromosome Deletion, Carrier Proteins, amino acid

Abstract

By screening an expressed sequence tag database, we identified a novel human gene, SLC7A4, encoding a solute carrier family 7 [cationic amino acid (CAA) CAT-4 transporter, y+ system] member 4. The SLC7A4 cDNA is 2325 nt long and includes 78, 1911, and 336 nt in the 5' noncoding, coding, and 3'-noncoding regions, respectively. SLC7A4 displays high homology with SLC7A1 and SLC7A2, two previously known CAA transporters. By chromosomal in situ hybridization and YAC identification, SLC7A4 was mapped to 22q11.2, the commonly deleted region of the velocardiofacial syndrome (VCFS, Shprintzen syndrome). In a patient affected by VCFS, deletion of SLC7A4 was demonstrated by chromosomal FISH. By Northern analysis, an abundant transcript was detected in brain, testis, and placenta. Microinjection of SLC7A4 mRNA into Xenopus laevis oocytes demonstrates a significant stimulation of CAA transport.

Published

1998

31. The mouse Mid1 gene: implications for the pathogenesis of Opitz syndrome and the evolution of the mammalian pseudoautosomal region

Author

Nandita Quaderi, Orsetta Zuffardi, Huntington F. Willard, Sushma S. Thomas, Rosemary W. Elliott, Laura Carrel, Verne M. Chapman, Elena I. Rugarli, Laura Dal Zotto, Patricia A. Lingerfelter, Andrea Ballabio, Giulia Arrigo, Valentina Valsecchi, Iveta Kalcheva, Chao Huang Yen, Christine M. Disteche, Eugenio Montini, DAL ZOTTO, L, Quaderi, N. A., Elliott, R, Lingerfelter, P. A., Carrel, L, Valsecchi, V, Montini, E, Yen, C. H., Chapman, V, Kalcheva, I, Arrigo, G, Zuffardi, O, Thomas, S, Willard, H, Ballabio, Andrea, Disteche, C. M., and Rugarli, E. I.

Subjects

Male, X Chromosome, Mus spretus, Ubiquitin-Protein Ligases, Molecular Sequence Data, Pseudoautosomal region, Biology, X-inactivation, Embryonic and Fetal Development, Mice, Gene mapping, Gene duplication, Genetics, Animals, Humans, Abnormalities, Multiple, Molecular Biology, Gene, Crosses, Genetic, Genetics (clinical), X chromosome, Mammals, Zinc finger, Chromosome Mapping, Gene Expression Regulation, Developmental, Nuclear Proteins, Zinc Fingers, General Medicine, biology.organism_classification, Biological Evolution, Mice, Inbred C57BL, Microtubule Proteins, Female, Pseudogenes, Transcription Factors

Abstract

We have recently reported isolation of the gene responsible for X-linked Opitz G/BBB syndrome, a defect of midline development. MID1 is located on the distal short arm of the human X chromosome (Xp22. 3) and encodes a novel member of the B box family of zinc finger proteins. We have now cloned the murine homolog of MID1 and performed preliminary expression studies during development. Mid1 expression in undifferentiated cells in the central nervous, gastrointestinal and urogenital systems suggests that abnormal cell proliferation may underlie the defect in midline development characteristic of Opitz syndrome. We have also found that Mid1 is located within the mouse pseudoautosomal region (PAR) in Mus musculus , while it seems to be X-specific in Mus spretus. Therefore, Mid1 is likely to be a recent acquisition of the M. musculus PAR. Genetic and FISH analyses also demonstrated a high frequency of unequal crossovers in the murine PAR, creating spontaneous deletion/duplication events involving Mid1. These data provide evidence for the first time that genetic instability of the PAR may affect functionally important genes. In addition, we show that MID1 is the first example of a gene subject to X-inactivation in man while escaping it in mouse. These data contribute to a better understanding of the molecular content and evolution of the rodent PAR.

Published

1998

32. Human FIGF: cloning, gene structure, and mapping to chromosome Xp22.1 between the PIGA and the GRPR genes

Author

Brunella Franco, Andrea Ballabio, Maurizio Orlandini, Alice Luddi, Orsetta Zuffardi, Marina Rocchigiani, Marta Lestingi, Elena Rossi, Salvatore Oliviero, Rocchigiani, M, Lestingi, M, Luddi, A, Orlandini, M, Franco, Brunella, Rossi, E, Ballabio, Andrea, Zuffardi, O, and Oliviero, S.

Subjects

DNA, Complementary, X Chromosome, Transcription, Genetic, Glycosylphosphatidylinositols, TATA box, Molecular Sequence Data, Vascular Endothelial Growth Factor D, Biology, Homology (biology), Exon, Gene mapping, Genetics, Humans, Amino Acid Sequence, Cloning, Molecular, Growth Substances, Gene, Peptide sequence, In Situ Hybridization, Fluorescence, Base Sequence, Intron, Chromosome Mapping, Genes, fos, Membrane Proteins, Molecular biology, Introns, Receptors, Bombesin, Gene Expression Regulation, Organ Specificity, Chromosomal region

Abstract

We report the identification, structural characterization, and mapping of the human FIGF gene. FIGF is the human homologue of mouse figf (c-fos-induced growth factor), a new member of the platelet-derived growth factor/vascular endothelial growth factor (PDGF/VEGF) family. It codes for a secreted factor with mitogenic and morphogenic activity on fibroblast cells. The predicted amino acid sequence of FIGF is 84% identical to that of the mouse protein, and it is highly conserved (up to 40%) in the dimerization domain with respect to the VEGF members of the family. The 2.5-kb mRNA of FIGF was detected in adult lung and heart tissues. The gene spans about 50 kb and is organized into seven exons and six introns. The FIGF promoter contains an optimal AP-1-binding site and lacks a canonical TATA box. Fluorescence in situ hybridization mapped FIGF to chromosomal region Xp22.1. The subsequent identification of YAC positive clones from this region allowed us to refine the map and localize FIGF centromeric to the phosphatidylinositol glycan complementation class A (PIGA) gene and telomeric to the gastrin-releasing peptide receptor (GRPR) gene. FIGF and PIGA genes lie next to each other in a head-to-tail orientation, with the FIGF polyadenylation signal about 12 kb from the PIGA transcriptional start site.

Published

1998

33. Regional assignment of the gene coding for a human Graves' disease autoantigen to 10q21.3-q22.1

Author

Raffaele Zarrilli, Orsetta Zuffardi, Elena Rossi, Rossi, E, Zarrilli, Raffaele, and Zuffardi, O.

Subjects

Genetics, Autoimmune disease, Male, endocrine system diseases, Chromosomes, Human, Pair 10, Thyroid, Chromosome, In situ hybridization, Biology, medicine.disease, Autoantigens, Human genetics, Graves Disease, medicine.anatomical_structure, Gene mapping, Complementary DNA, medicine, Humans, Female, Gene, Genetics (clinical), In Situ Hybridization

Abstract

A cDNA coding for a human Graves' disease autoantigen (hGT) has been isolated from a thyroid expression library. Using this cDNA as a probe, the gene for hGT, previously assigned to chromosome 10, has been further localized to 10q21.3–q22.1 by non-isotopic in situ hybridization.

Published

1993

34. A Human Homologue of the Drosophila melanogaster diaphanous Gene Is Disrupted in a Patient with Premature Ovarian Failure: Evidence for Conserved Function in Oogenesis and Implications for Human Sterility

Author

Maurizio Zuccotti, Giuseppe Borsani, Sandro Banfi, Andrea Ballabio, Giulia Arrigo, Orsetta Zuffardi, Christophe Philippe, Daniela Toniolo, Cinzia Sala, Philippe Jonveaux, Silvia Bione, Chiara Manzini, Bione, S, Sala, C, Manzini, C, Arrigo, G, Zuffardi, O, Banfi, S, Borsani, G, Jonveaux, P, Philippe, C, Zuccotti, M, Ballabio, Andrea, Toniolo, D., Banfi, Sandro, and Ballabio, A

Subjects

Ovarian dysgenesis, endocrine system diseases, Messenger, Sequence Homology, Primary Ovarian Insufficiency, Oogenesis, Translocation, Genetic, Pair 12, Drosophila Proteins, Developmental, Genetics(clinical), Genetics (clinical), Diaphanous gene, Genetics, biology, Gene Expression Regulation, Developmental, Chromosome Mapping, Menopause, early, female genital diseases and pregnancy complications, Premature ovarian failure, Amino Acid, Drosophila melanogaster, Female, Infertility, Female, Drosophila Protein, Research Article, Human, X Chromosome, Protein family, Sterility, X-chromosome rearrangements, Turner syndrome, Molecular Sequence Data, Formins, Translocation, Chromosomes, Genetic, Ovarian failure, Drosophilidae, medicine, Amino Acid Sequence, Animals, Carrier Proteins, Chromosomes, Human, Pair 12, Humans, Ovary, RNA, Messenger, Sequence Homology, Amino Acid, Gene, biology.organism_classification, medicine.disease, Gene Expression Regulation, Infertility, RNA

Abstract

SummaryPremature ovarian failure (POF) is a defect of ovarian development and is characterized by primary or secondary amenorrhea, with elevated levels of serum gonadotropins, or by early menopause. The disorder has been attributed to various causes, including rearrangements of a large “critical region” in the long arm of the X chromosome. Here we report identification, in a family with POF, of a gene that is disrupted by a breakpoint. The gene is the human homologue of the Drosophila melanogaster diaphanous gene; mutated alleles of this gene affect spermatogenesis or oogenesis and lead to sterility. The protein (DIA) encoded by the human gene (DIA) is the first human member of the growing FH1/FH2 protein family. Members of this protein family affect cytokinesis and other actin-mediated morphogenetic processes that are required in early steps of development. We propose that the human DIA gene is one of the genes responsible for POF and that it affects the cell divisions that lead to ovarian follicle formation.