13 results on '"Mansour, Sahar"'
Search Results
2. Human phenotypes caused by <italic>PIEZO1</italic> mutations; one gene, two overlapping phenotypes?
- Author
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Martin‐Almedina, Silvia, Mansour, Sahar, and Ostergaard, Pia
- Subjects
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PHENOTYPES , *GENETIC mutation , *HUMAN genes , *ELECTROPHYSIOLOGY , *EDEMA - Abstract
Abstract: PIEZO1 is a large mechanosensitive ion channel protein. Diseases associated with PIEZO1 include autosomal recessive generalised lymphatic dysplasia of Fotiou (GLDF) and autosomal dominant dehydrated hereditary stomatocytosis with or without pseudohyperkalemia and/or perinatal oedema (DHS). The two disorders show overlapping features, fetal hydrops/perinatal oedema have been reported in both. Electrophysiological studies suggest opposite mechanisms of action: the mutations identified in GLDF patients cause a loss‐of‐function mechanism of disease and mutations in DHS patients cause gain of function. This raises the question: Is the pathogenic disease mechanism behind the fetal oedema the same in the two phenotypes? In this Symposium Review, we will discuss the two conditions and highlight key questions that remain to be answered. For instance, the perinatal oedema often resolves soon after birth and we are still at a loss to understand why. Are there any mechanisms which could compensate for the faulty PIEZO1 in these patients? Are there physiological changes at birth that are less reliant on the function of PIEZO1? Thus, there is a clear need for further studies into the two disorders, in order to fully understand the role of PIEZO1 in health and disease. [ABSTRACT FROM AUTHOR]
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- 2018
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3. The SMAD-binding domain of SKI: a hotspot for de novo mutations causing Shprintzen-Goldberg syndrome.
- Author
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Schepers, Dorien, Doyle, Alexander J, Oswald, Gretchen, Sparks, Elizabeth, Myers, Loretha, Willems, Patrick J, Mansour, Sahar, Simpson, Michael A, Frysira, Helena, Maat-Kievit, Anneke, Van Minkelen, Rick, Hoogeboom, Jeanette M, Mortier, Geert R, Titheradge, Hannah, Brueton, Louise, Starr, Lois, Stark, Zornitza, Ockeloen, Charlotte, Lourenco, Charles Marques, and Blair, Ed
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VELOCARDIOFACIAL syndrome ,CONNECTIVE tissue diseases ,LOEYS-Dietz syndrome ,GENETIC mutation ,PATHOGENIC microorganisms - Abstract
Shprintzen-Goldberg syndrome (SGS) is a rare, systemic connective tissue disorder characterized by craniofacial, skeletal, and cardiovascular manifestations that show a significant overlap with the features observed in the Marfan (MFS) and Loeys-Dietz syndrome (LDS). A distinguishing observation in SGS patients is the presence of intellectual disability, although not all patients in this series present this finding. Recently, SGS was shown to be due to mutations in the SKI gene, encoding the oncoprotein SKI, a repressor of TGFβ activity. Here, we report eight recurrent and three novel SKI mutations in eleven SGS patients. All were heterozygous missense mutations located in the R-SMAD binding domain, except for one novel in-frame deletion affecting the DHD domain. Adding our new findings to the existing data clearly reveals a mutational hotspot, with 73% (24 out of 33) of the hitherto described unrelated patients having mutations in a stretch of five SKI residues (from p.(Ser31) to p.(Pro35)). This implicates that the initial molecular testing could be focused on mutation analysis of the first half of exon 1 of SKI. As the majority of the known mutations are located in the R-SMAD binding domain of SKI, our study further emphasizes the importance of TGFβ signaling in the pathogenesis of SGS. [ABSTRACT FROM AUTHOR]
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- 2015
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4. CCBE1 mutations can cause a mild, atypical form of generalized lymphatic dysplasia but are not a common cause of non-immune hydrops fetalis.
- Author
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Connell, FC, Kalidas, K, Ostergaard, P, Brice, G, Murday, V, Mortimer, PS, Jeffrey, I, Jeffery, S, and Mansour, Sahar
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LETTERS to the editor ,DYSPLASIA ,GENETIC mutation - Abstract
A letter to the editor is presented regarding the study on the potential of CCBE1 mutations to cause atypical form of generalized lymphatic dysplasia.
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- 2012
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5. The p.M292T NDUFS2 mutation causes complex I-deficient Leigh syndrome in multiple families.
- Author
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Tuppen, Helen A. L., Hogan, Vanessa E., Langping He, Blakely, Emma L., Worgan, Lisa, Al-Dosary, Mazhor, Saretzki, Gabriele, Alston, Charlotte L., Morris, Andrew A., Clarke, Michael, Jones, Simon, Devlin, Anita M., Mansour, Sahar, Chrzanowska-Lightowlers, Zofia M. A., Thorburn, David R., McFarland, Robert, and Taylor, Robert W.
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PHOSPHORYLATION ,MITOCHONDRIAL pathology ,GENETIC mutation ,PEDIATRICS ,JUVENILE diseases - Abstract
Isolated complex I deficiency is the most frequently observed oxidative phosphorylation defect in children with mitochondrial disease, leading to a diverse range of clinical presentations, including Leigh syndrome. For most patients the genetic cause of the biochemical defect remains unknown due to incomplete understanding of the complex I assembly process. Nonetheless, a plethora of pathogenic mutations have been described to date in the seven mitochondrial-encoded subunits of complex I as well as in 12 of the nuclear-encoded subunits and in six assembly factors. Whilst several mitochondrial DNA mutations are recurrent, the majority of these mutations are reported in single families. We have sequenced core structural and functional nuclear-encoded subunits of complex I in a cohort of 34 paediatric patients with isolated complex I deficiency, identifying pathogenic mutations in 6 patients. These included a novel homozygous NDUFS1 mutation in an Asian child with Leigh syndrome, a previously identified NDUFS8 mutation (c.236C>T, p.P79L) in a second Asian child with Leigh-like syndrome and six novel, compound heterozygous NDUFS2 mutations in four white Caucasian patients with Leigh or Leigh-like syndrome. Three of these children harboured an identical NDUFS2 mutation (c.875T>C, p.M292T), which was also identified in conjunction with a novel NDUFS2 splice site mutation (c.866+4A>G) in a fourth Caucasian child who presented to a different diagnostic centre, with microsatellite and single nucleotide polymorphism analyses indicating that this was due to an ancient common founder event. Our results confirm that NDUFS2 is a mutational hotspot in Caucasian children with isolated complex I deficiency and recommend the routine diagnostic investigation of this gene in patients with Leigh or Leigh-like phenotypes. [ABSTRACT FROM PUBLISHER]
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- 2010
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6. Linkage and sequence analysis indicate that CCBE1 is mutated in recessively inherited generalised lymphatic dysplasia.
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Connell, Fiona, Kalidas, Kamini, Ostergaard, Pia, Brice, Glen, Homfray, Tessa, Roberts, Lesley, Bunyan, David J., Mitton, Sally, Mansour, Sahar, Mortimer, Peter, and Jeffery, Steve
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DYSPLASIA ,GENETIC mutation ,CHROMOSOMES ,GENES ,PREGNANCY - Abstract
Generalised lymphatic dysplasia (GLD) is characterised by extensive peripheral lymphoedema with visceral involvement. In some cases, it presents in utero with hydrops fetalis. Autosomal dominant and recessive inheritance has been reported. A large, non-consanguineous family with three affected siblings with generalised lymphatic dysplasia is presented. One child died aged 5 months, one spontaneously miscarried at 17 weeks gestation, and the third has survived with extensive lymphoedema. All three presented with hydrops fetalis. There are seven other siblings who are clinically unaffected. Linkage analysis produced two loci on chromosome 18, covering 22 Mb and containing 150 genes, one of which is CCBE1. A homozygous cysteine to serine change in CCBE1 has been identified in the proband, in a residue that is conserved across species. High density SNP analysis revealed homozygosity (a region of 900 kb) around the locus for CCBE1 in all three affected cases. This indicates a likely ancestral mutation that is common to both parents; an example of a homozygous mutation representing Identity by Descent (IBD) in this pedigree. Recent studies in zebrafish have shown this gene to be required for lymphangiogenesis and venous sprouting and are therefore supportive of our findings. In view of the conserved nature of the cysteine, the nature of the amino acid change, the occurrence of a homozygous region around the locus, the segregation within the family, and the evidence from zebrafish, we propose that this mutation is causative for the generalised lymphatic dysplasia in this family, and may be of relevance in cases of non-immune hydrops fetalis. [ABSTRACT FROM AUTHOR]
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- 2010
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7. Lymphoedema-distichiasis and FOXC2: unreported mutations, de novo mutation estimate, families without coding mutations.
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Sholto-Douglas-Vernon, Carolyn, Bell, Rachel, Brice, Glen, Mansour, Sahar, Sarfarazi, Mansoor, Child, Anne H., Smith, Alberto, Mellor, Russell, Burnand, Kevin, Mortimer, Peter, and Jeffery, Steve
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LYMPHEDEMA ,LYMPH circulation disorders ,GENETIC mutation ,HUMAN genetics ,GENETICS ,MEDICAL genetics ,GENETIC disorders - Abstract
Lymphoedema-distichiasis (LD) is a syndromic form of primary lymphoedema, where mutations in the gene for the developmental transcription factor FOXC2 have been shown to be causative. The disorder has been considered very rare, but our group has now ascertained 34 families and 11 sporadic cases in the UK. Two families with LD have no mutation in the coding region of FOXC2, although both are consistent with linkage to the FOXC2 locus. A deletion has been ruled out as a possible cause of LD in these families, leaving promoter mutations as the most likely cause. Sixteen previously unpublished mutations are reported, plus an estimate of the frequency of new mutations in this disorder. [ABSTRACT FROM AUTHOR]
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- 2005
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8. Mutations in NOTCH2 cause Hajdu-Cheney syndrome, a disorder of severe and progressive bone loss.
- Author
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Simpson, Michael A., Irving, Melita D., Asilmaz, Esra, Gray, Mary J., Dafou, Dimitra, Elmslie, Frances V., Mansour, Sahar, Holder, Sue E., Brain, Caroline E., Burton, Barbara K., Kim, Katherine H., Pauli, Richard M., Aftimos, Salim, Stewart, Helen, Kim, Chong Ae, Holder-Espinasse, Muriel, Robertson, Stephen P., Drake, William M., and Trembath, Richard C.
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BONE abnormalities ,NOTCH proteins ,GENETIC mutation ,POLYMERASE chain reaction ,OSTEOPOROSIS - Abstract
We used an exome-sequencing strategy and identified an allelic series of NOTCH2 mutations in Hajdu-Cheney syndrome, an autosomal dominant multisystem disorder characterized by severe and progressive bone loss. The Hajdu-Cheney syndrome mutations are predicted to lead to the premature truncation of NOTCH2 with either disruption or loss of the C-terminal proline-glutamate-serine-threonine-rich proteolytic recognition sequence, the absence of which has previously been shown to increase Notch signaling. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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9. Hypomorphic PCNA mutation underlies a human DNA repair disorder.
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Baple, Emma L., Chambers, Helen, Cross, Harold E., Fawcett, Heather, Nakazawa, Yuka, Chioza, Barry A., Harlalka, Gaurav V., Mansour, Sahar, Sreekantan-Nair, Ajith, Patton, Michael A., Muggenthaler, Martina, Rich, Phillip, Wagner, Karin, Coblentz, Roselyn, Stein, Constance K., Last, James I., Taylor, A. Malcolm R., Jackson, Andrew P., Ogi, Tomoo, and Lehmann, Alan R.
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PROLIFERATING cell nuclear antigen genetics , *COCKAYNE syndrome , *XERODERMA pigmentosum , *GENETIC mutation , *PHOTOSENSITIVITY , *GENETICS - Abstract
Numerous human disorders, including Cockayne syndrome, UV-sensitive syndrome, xeroderma pigmentosum, and trichothiodystrophy, result from the mutation of genes encoding molecules important for nucleotide excision repair. Here, we describe a syndrome in which the cardinal clinical features include short stature, hearing loss, premature aging, telangiectasia, neurodegeneration, and photosensitivity, resulting from a homozygous missense (p.Ser228Ile) sequence alteration of the proliferating cell nuclear antigen (PCNA). PCNA is a highly conserved sliding clamp protein essential for DNA replication and repair. Due to this fundamental role, mutations in PCNA that profoundly impair protein function would be incompatible with life. Interestingly, while the p.Ser228Ile alteration appeared to have no effect on protein levels or DNA replication, patient cells exhibited marked abnormalities in response to UV irradiation, displaying substantial reductions in both UV survival and RNA synthesis recovery. The p.Ser228Ile change also profoundly altered PCNA's interaction with Flap endonuclease 1 and DNA Ligase 1, DNA metabolism enzymes. Together, our findings detail a mutation of PCNA in humans associated with a neurodegenerative phenotype, displaying clinical and molecular features common to other DNA repair disorders, which we showed to be attributable to a hypomorphic amino acid alteration. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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10. Mutations in KPTN Cause Macrocephaly, Neurodevelopmental Delay, and Seizures.
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Baple, Emma?L., Maroofian, Reza, Chioza, Barry?A., Izadi, Maryam, Cross, Harold?E., Al-Turki, Saeed, Barwick, Katy, Skrzypiec, Anna, Pawlak, Robert, Wagner, Karin, Coblentz, Roselyn, Zainy, Tala, Patton, Michael?A., Mansour, Sahar, Rich, Phillip, Qualmann, Britta, Hurles, Matt?E., Kessels, Michael?M., and Crosby, Andrew?H.
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HUMAN abnormality genetics , *GENETIC mutation , *NEUROLOGICAL disorders , *GENETIC disorders , *DEVELOPMENTAL neurobiology , *IMMUNOFLUORESCENCE - Abstract
The proper development of neuronal circuits during neuromorphogenesis and neuronal-network formation is critically dependent on a coordinated and intricate series of molecular and cellular cues and responses. Although the cortical actin cytoskeleton is known to play a key role in neuromorphogenesis, relatively little is known about the specific molecules important for this process. Using linkage analysis and whole-exome sequencing on samples from families from the Amish community of Ohio, we have demonstrated that mutations in KPTN, encoding kaptin, cause a syndrome typified by macrocephaly, neurodevelopmental delay, and seizures. Our immunofluorescence analyses in primary neuronal cell cultures showed that endogenous and GFP-tagged kaptin associates with dynamic actin cytoskeletal structures and that this association is lost upon introduction of the identified mutations. Taken together, our studies have identified kaptin alterations responsible for macrocephaly and neurodevelopmental delay and define kaptin as a molecule crucial for normal human neuromorphogenesis. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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11. Mutations in PIK3R1 Cause SHORT Syndrome.
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Dyment, David?A., Smith, Amanda?C., Alcantara, Diana, Schwartzentruber, Jeremy?A., Basel-Vanagaite, Lina, Curry, Cynthia?J., Temple, I.?Karen, Reardon, William, Mansour, Sahar, Haq, Mushfequr?R., Gilbert, Rodney, Lehmann, Ordan?J., Vanstone, Megan?R., Beaulieu, Chandree?L., Majewski, Jacek, Bulman, Dennis?E., O’Driscoll, Mark, Boycott, Kym?M., and Innes, A.?Micheil
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GENETIC mutation , *PHOSPHATIDYLINOSITOL 3-kinases , *JOINT hypermobility , *EYE abnormalities , *LIPODYSTROPHY , *HERNIA , *PHOSPHORYLATION - Abstract
SHORT syndrome is a rare, multisystem disease characterized by short stature, anterior-chamber eye anomalies, characteristic facial features, lipodystrophy, hernias, hyperextensibility, and delayed dentition. As part of the FORGE (Finding of Rare Disease Genes) Canada Consortium, we studied individuals with clinical features of SHORT syndrome to identify the genetic etiology of this rare disease. Whole-exome sequencing in a family trio of an affected child and unaffected parents identified a de novo frameshift insertion, c.1906_1907insC (p.Asn636Thrfs∗18), in exon 14 of PIK3R1. Heterozygous mutations in exon 14 of PIK3R1 were subsequently identified by Sanger sequencing in three additional affected individuals and two affected family members. One of these mutations, c.1945C>T (p.Arg649Trp), was confirmed to be a de novo mutation in one affected individual and was also identified and shown to segregate with the phenotype in an unrelated family. The other mutation, a de novo truncating mutation (c.1971T>G [p.Tyr657∗]), was identified in another affected individual. PIK3R1 is involved in the phosphatidylinositol 3 kinase (PI3K) signaling cascade and, as such, plays an important role in cell growth, proliferation, and survival. Functional studies on lymphoblastoid cells with the PIK3R1 c.1906_1907insC mutation showed decreased phosphorylation of the downstream S6 target of the PI3K-AKT-mTOR pathway. Our findings show that PIK3R1 mutations are the major cause of SHORT syndrome and suggest that the molecular mechanism of disease might involve downregulation of the PI3K-AKT-mTOR pathway. [ABSTRACT FROM AUTHOR]
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- 2013
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12. Whole-Exome-Sequencing Identifies Mutations in Histone Acetyltransferase Gene KAT6B in Individuals with the Say-Barber-Biesecker Variant of Ohdo Syndrome
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Clayton-Smith, Jill, O'Sullivan, James, Daly, Sarah, Bhaskar, Sanjeev, Day, Ruth, Anderson, Beverley, Voss, Anne K., Thomas, Tim, Biesecker, Leslie G., Smith, Philip, Fryer, Alan, Chandler, Kate E., Kerr, Bronwyn, Tassabehji, May, Lynch, Sally-Ann, Krajewska-Walasek, Malgorzata, McKee, Shane, Smith, Janine, Sweeney, Elizabeth, and Mansour, Sahar
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NUCLEOTIDE sequence , *ACETYLTRANSFERASES , *HISTONES , *CLEFT palate , *GENETIC mutation , *GENETIC regulation , *LABORATORY mice - Abstract
Say-Barber-Biesecker-Young-Simpson syndrome (SBBYSS or Ohdo syndrome) is a multiple anomaly syndrome characterized by severe intellectual disability, blepharophimosis, and a mask-like facial appearance. A number of individuals with SBBYSS also have thyroid abnormalities and cleft palate. The condition usually occurs sporadically and is therefore presumed to be due in most cases to new dominant mutations. In individuals with SBBYSS, a whole-exome sequencing approach was used to demonstrate de novo protein-truncating mutations in the highly conserved histone acetyltransferase gene KAT6B (MYST4/MORF)) in three out of four individuals sequenced. Sanger sequencing was used to confirm truncating mutations of KAT6B, clustering in the final exon of the gene in all four individuals and in a further nine persons with typical SBBYSS. Where parental samples were available, the mutations were shown to have occurred de novo. During mammalian development KAT6B is upregulated specifically in the developing central nervous system, facial structures, and limb buds. The phenotypic features seen in the Qkf mouse, a hypomorphic Kat6b mutant, include small eyes, ventrally placed ears and long first digits that mirror the human phenotype. This is a further example of how perturbation of a protein involved in chromatin modification might give rise to a multisystem developmental disorder. [ABSTRACT FROM AUTHOR]
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- 2011
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13. Novel Mutations in X-Linked Dominant Chondrodysplasia Punctata (CDPX2).
- Author
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Whittock, Neil V., Izatt, Louise, Mann, Anuska, Homfray, Tessa, Bennett, Christopher, Mansour, Sahar, Hurst, Jane, Fryer, Alan, Saggar, Anand K., Barwell, Julian G., Ellard, Sian, and Clayton, Peter T.
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GENETIC mutation , *LETTERS to the editor - Abstract
Presents a letter to the editor concerning mutations in X-linked dominant chondrodysplasia punctata.
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- 2003
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