Your search keyword '"Christodoulou, Kyproula"' showing total 13 results

1. Distal hereditary motor neuronopathy of the Jerash type is caused by a novel SIGMAR1c.500A>T missense mutation

Author

Ververis, Antonis, Dajani, Rana, Koutsou, Pantelitsa, Aloqaily, Ahmad, Nelson-Williams, Carol, Loring, Erin, Arafat, Ala, Mubaidin, Ammar Fayez, Horany, Khalid, Bader, Mai B, Al-Baho, Yaqoub, Ali, Bushra, Muhtaseb, Abdurrahman, DeSpenza Jr, Tyrone, Al-Qudah, Abdelkarim A, Middleton, Lefkos T, Zamba-Papanicolaou, Eleni, Lifton, Richard, and Christodoulou, Kyproula

Abstract

BackgroundDistal hereditary motor neuronopathies (dHMN) are a group of genetic disorders characterised by motor neuron degeneration leading to muscle weakness that are caused by mutations in various genes. HMNJ is a distinct form of the disease that has been identified in patients from the Jerash region of Jordan. Our aim was to identify and characterise the genetic cause of HMNJ.MethodsWe used whole exome and Sanger sequencing to identify a novel genetic variant associated with the disease and then carried out immunoblot, immunofluorescence and apoptosis assays to extract functional data and clarify the effect of this novel SIGMAR1mutation. Physical and neurological examinations were performed on selected patients and unaffected individuals in order to re-evaluate clinical status of patients 20 years after the initial description of HMNJ as well as to evaluate new and previously undescribed patients with HMNJ.ResultsA homozygous missense mutation (c.500A>T, N167I) in exon 4 of the SIGMAR1gene was identified, cosegregating with HMNJ in the 27 patients from 7 previously described consanguineous families and 3 newly ascertained patients. The mutant SIGMAR1 exhibits reduced expression, altered subcellular distribution and elevates cell death when expressed.ConclusionIn conclusion, the homozygous SIGMAR1c.500A>T mutation causes dHMN of the Jerash type, possibly due to a significant drop of protein levels. This finding is in agreement with other SIGMAR1mutations that have been associated with autosomal recessive dHMN with pyramidal signs; thus, our findings further support that SIGMAR1be added to the dHMN genes diagnostic panel.

Published

2020

2. A novel ALS2splice-site mutation in a Cypriot juvenile-onset primary lateral sclerosis family

Author

Mintchev, Nikolay, Zamba-Papanicolaou, Eleni, Kleopa, Kleopas A., and Christodoulou, Kyproula

Abstract

Primary lateral sclerosis (PLS) is a rare neurodegenerative disease that affects the upper motor neurons of the CNS. Juvenile-onset PLS (JPLS) is inherited in an autosomal recessive mode and is also found in sporadic cases. A consanguineous Cypriot family with three affected individuals presenting with JPLS was identified and studied.

Published

2009

3. Phenotypic spectrum of disorders associated with glycyl-tRNA synthetase mutations

Author

Sivakumar, Kumaraswamy, Kyriakides, Theodoros, Puls, Imke, Nicholson, Garth A., Funalot, Benoît, Antonellis, Anthony, Sambuughin, Nyamkhishig, Christodoulou, Kyproula, Beggs, John L., Zamba-Papanicolaou, Eleni, Ionasescu, Victor, Dalakas, Marinos C., Green, Eric D., Fischbeck, Kenneth H., and Goldfarb, Lev G.

Abstract

We describe clinical, electrophysiological, histopathological and molecular features of a unique disease caused by mutations in the glycyl-tRNA synthetase (GARS) gene. Sixty patients from five multigenerational families have been evaluated. The disease is characterized by adolescent onset of weakness, and atrophy of thenar and first dorsal interosseus muscles progressing to involve foot and peroneal muscles in most but not all cases. Mild to moderate sensory deficits develop in a minority of patients. Neurophysiologically confirmed chronic denervation in distal muscles with reduced compound motor action potentials were features consistent with both motor neuronal and axonal pathology. Sural nerve biopsy showed mild to moderate selective loss of small- and medium-sized myelinated and small unmyelinated axons, although sensory nerve action potentials were not significantly decreased. Based on the presence or absence of sensory changes, the disease phenotype was initially defined as distal spinal muscular atrophy type V (dSMA-V) in three families, Charcot-Marie-Tooth disease type 2D (CMT2D) in a single family, and as either dSMA-V or CMT2D in patients of another large family. Linkage to chromosome 7p15 and the presence of disease-associated heterozygous GARS mutations have been identified in patients from each of the five studied families. We conclude that patients with GARS mutations present a clinical continuum of predominantly motor distal neuronopathy/axonopathy with mild to moderate sensory involvement that varies between the families and between members of the same family. Awareness of these overlapping clinical phenotypes associated with mutations in GARS will facilitate identification of this disorder in additional families and direct future research toward better understanding of its pathogenesis.

Published

2005

4. A gene for nonsyndromic X-linked mental retardation (<TOGGLE>MRX77</TOGGLE>) maps to Xq12-Xq21.33<FNR HREF="fn1"></FNR><FN ID="fn1">The groups of The Cyprus Institute of Neurology and Genetics and the group of University of Ioannina contributed equally in this work.</FN><FNR HREF="fn2"></FNR><FN ID="fn2">Carolina Sismani and Maria Syrrou have contributed equally to this work.</FN>

Author

Sismani, Carolina, Syrrou, Maria, Christodoulou, Kyproula, Hamel, Ben, Chelly, Jamel, Yntema, Helger G., Bokhoven, Hans van, Tzoufi, Meropi, Georgiou, Ioannis, and Patsalis, Philippos C.

Abstract

Nonsyndromic X-linked mental retardation (MRX) is a highly heterogeneous condition in which mental retardation appears to be the only consistent manifestation. According to the most recent data, 77 MRX families with a lod score of >2 have been mapped and eight genes have been cloned. We hereby report on a linkage analysis performed on a Greek family with apparently nonsyndromic MRX. The affected males have moderate to severe mental retardation, severe speech problems, and aggressive behavior. Two-point linkage analysis with 26 polymorphic markers spanning the entire X chromosome was carried out. We could assign the causative gene to a 27 Mb interval in Xq12-Xq21.33. The maximum LOD score was found for markers DXS1225, DXS8114, and DXS990 at 2.36, 2.06, 2.06, respectively at θ = 0.00. Recombination was observed for DXS983 at the proximal side and DXS6799 at the distal side. Nineteen other MRX families have been described with a partial overlapping disease gene interval in proximal Xq. No mutations were found in the MRX77 family for three known or candidate MRX genes, from this region OPHN1, RSK4, and ATR-X. These data indicate that the Xq12-Xq21.33 interval contains at least one additional MRX gene. © 2003 Wiley-Liss, Inc.

Published

2003

5. A novel NF-L mutation Pro22Ser is associated with CMT2 in a large Slovenian family

Author

Georgiou, Domna-Maria, Zidar, Janez, Korošec, Marko, Middleton, Lefkos, Kyriakides, Theodoros, and Christodoulou, Kyproula

Abstract

Abstract.: Charcot-Marie-Tooth (CMT) disease is the most-common form of inherited motor and sensory neuropathy. The autosomal dominant axonal form of the disease (CMT2) is currently subdivided into seven types based on genetic localization. These are CMT2A (1p35-p36), CMT2B (3q13-q22), CMT2C (unknown), CMT2D (7p14), CMT2E (8p21), HMNSP (3q13.1), and CMT2F (7q11-q21). Two loci have thus far been identified for autosomal recessive CMT2; ARCMT2A (1q21.1-q21.3) and ARCMT2B (19q13.3). Mutations in four genes (connexin 32, myelin protein zero, neurofilament-light, and kinesin) have been associated with the CMT2 phenotype. We identified a novel neurofilament-light missense mutation (C64T) that causes the disease in a large Slovenian CMT2 family. This novel mutation shows complete co-segregation with the dominantly inherited CMT2 phenotype in our family.

Published

2002

6. Mapping of the second Friedreich's ataxia (FRDAff2) locus to chromosome 9p23-p11: evidence for further locus heterogeneity

Author

Christodoulou, Kyproula, Deymeer, Feza, Serdaroğlu, Piraye, Özdemir, Coşkun, Poda, Mehveş, Georgiou, Domna-Maria, Ioannou, Panos, Tsingis, Marios, Zamba, Eleni, and Middleton, Lefkos

Abstract

Friedreich's ataxia (FRDA), the most-common form of autosomal recessive ataxia, is inherited in most cases by a large expansion of a GAA triplet repeat in the first intron of the frataxin (X25) gene. Genetic heterogeneity in FRDA has been previously reported in typical FRDA families that do not link to the FRDA locus on chromosome 9q13. We report localization of a second FRDA locus (FRDAff2) to chromosome 9p23–9p11, and we provide evidence for further genetic heterogeneity of the disease, in a family with the classic FRDA phenotype.

Published

2001

7. A novel form of distal hereditary motor neuronopathy maps to chromosome 9p21.1–p12

Author

Christodoulou, Kyproula, Zamba, Eleni, Tsingis, Marios, Mubaidin, Amar, Horani, Khalid, Abu‐Sheik, Salem, El‐Khateeb, Mohammed, Kyriacou, Kyriacos, Kyriakides, Theodoros, Al‐Qudah, Abdel‐Karim, and Middleton, Lefkos

Abstract

Distal hereditary motor neuronopathies (dHMNs) form a heterogeneous group of rare disorders characterized by distal weakness and wasting in the limbs with no significant sensory involvement. Harding has classified dHMNs into seven categories based on clinical and genetic criteria. We report a novel form of autosomal recessive dHMN in 7 consanguineous families located in the Jerash region of Jordan. Onset of the disease is between 6 and 10 years of age and is characterized by weakness and atrophy of the lower limbs associated with pyramidal features. Within 2 years, symptoms progress to the upper limbs. Neurophysiological studies typically show normal conduction velocities, reduced compound motor action potential amplitudes, normal sensory nerve action potentials, and chronic neurogenic changes on needle electromyography. No significant abnormalities are seen on sural nerve biopsy. We call this novel form of dHMN Jerash hereditary motor neuronopathy. We studied the families at the molecular genetic level and mapped the Jerash hereditary motor neuronopathy gene to an approximately 0.54‐cM region on chromosome 9p21.1–p12, flanked by microsatellite polymorphic marker loci D9S1845 and D9S1791. A maximum LOD score of 19.80 at θ = 0.001 was obtained between the disease and locus D9S1878. Ann Neurol 2000;48:877–884

Published

2000

8. A novel form of distal hereditary motor neuronopathy maps to chromosome 9p21.1–p12

Author

Christodoulou, Kyproula, Zamba, Eleni, Tsingis, Marios, Mubaidin, Amar, Horani, Khalid, Abu-Sheik, Salem, El-Khateeb, Mohammed, Kyriacou, Kyriacos, Kyriakides, Theodoros, Al-Qudah, Abdel-Karim, and Middleton, Lefkos

Abstract

Distal hereditary motor neuronopathies (dHMNs) form a heterogeneous group of rare disorders characterized by distal weakness and wasting in the limbs with no significant sensory involvement. Harding has classified dHMNs into seven categories based on clinical and genetic criteria. We report a novel form of autosomal recessive dHMN in 7 consanguineous families located in the Jerash region of Jordan. Onset of the disease is between 6 and 10 years of age and is characterized by weakness and atrophy of the lower limbs associated with pyramidal features. Within 2 years, symptoms progress to the upper limbs. Neurophysiological studies typically show normal conduction velocities, reduced compound motor action potential amplitudes, normal sensory nerve action potentials, and chronic neurogenic changes on needle electromyography. No significant abnormalities are seen on sural nerve biopsy. We call this novel form of dHMN Jerash hereditary motor neuronopathy. We studied the families at the molecular genetic level and mapped the Jerash hereditary motor neuronopathy gene to an approximately 0.54-cM region on chromosome 9p21.1–p12, flanked by microsatellite polymorphic marker loci D9S1845 and D9S1791. A maximum LOD score of 19.80 at θ = 0.001 was obtained between the disease and locus D9S1878. Ann Neurol 2000;48:877–884

Published

2000

9. Congenital Myasthenic Syndrome (CMS) Type Ia: Clinical and Genetic Diversity a

Author

MIDDLETON, LEFKOS T., CHRISTODOULOU, KYPROULA, DEYMEER, FESA, SERDAROGLU, PIRAYE, OZDEMIR, COSKUN, AL-QUDAH, ABDEL KARIM, AL-SHEHAB, AHMAD, MAVROMATIS, IOANNIS, MYLONAS, IOANNIS, EVOLI, AMELIA, TSINGIS, MARIOS, ZAMBA, ELENI, and KYRIALLIS, KYRIAKOS

Published

1998

10. Medullary cystic kidney disease with hyperuricemia and gout in a large Cypriot family: No allelism with nephronophthisis type 1

Author

Stavrou, Christoforos, Pierides, Alkis, Zouvani, Ioanna, Kyriacou, Kyriacos, Antignac, Corinne, Neophytou, Pavlos, Christodoulou, Kyproula, and Deltas, C. Constantinou

Abstract

We describe a large Cypriot family with an interstitial type of nephropathy, inherited as an autosomal dominant trait that led to end stage renal failure between 51 to 78 years of age (mean 62.2 years). Twenty-three people are known to be affected, but several younger relatives with normal renal function may remain undiagnosed because of the absence of precise clinical and laboratory diagnostic criteria. This nephropathy is associated with medullary renal cysts, hypertension, hyperuricemia, and gout. Several relatives have typical medullary cystic disease (MCD), while in the others the findings are compatible with this diagnosis. Due to the similarity of clinical and pathologic findings, earlier reports had suggested that MCD may be allelic to autosomal recessive familial juvenile nephronophthisis, which was mapped recently to chromosome band 2q13. Linkage analysis of the present family with a closely linked marker excluded linkage to the above locus. Linkage was also excluded to the PKD1 locus of adult polycystic kidney disease type 1, and up to 5 cM on either side, on chromosome 16. We suggest that because of the element of hyperuricemia and gout found in this family, although with reduced penetrance, it may represent a variant of autosomal dominant MCD of the adult type. This variability may be the result of allelic or locus heterogeneity. Molecular genetic approaches including linkage analysis on appropriate families will certainly assist in classifying such related genetically heterogeneous disorders. Am. J. Med. Genet. 77:149–154, 1998. © 1998 Wiley-Liss, Inc.

Published

1998

11. Genetic heterogeneity in adult dominant polycystic kidney disease in Cypriot families

Author

Constantinou-Deltas, C. D., Papageorgiou, Elena, Boteva, Kalina, Christodoulou, Kyproula, Breuning, Martijn H., Peters, D. J. M., and Pierides, Alkis

Abstract

Polycystic kidney disease is an inherited heterogeneous disorder that affects approximately 1:1000 Europeans. It is characterized mainly by the formation of cysts in the kidney that lead to end-stage renal failure with late age of onset. Three loci have been identified, PKD1 on the short arm of chromosome 16, which has recently been isolated and characterized, PKD2 on the long arm of chromosome 4, and a third locus of unknown location, that is apparently much rarer. In families that transmit the PKD2 gene there is a significantly later age of onset of symptoms, compared with families that transmit the PKD1 gene, and in general they present with milder progression of symptomatology. For the first time we attempted molecular genetic analysis in seven Cypriot families using highly polymorphic markers around the PKD1 and PKD2 genes. Our data showed that there is genetic and phenotypic heterogeneity among these families. For four of the families we obtained strong evidence for linkage to the PKD1 locus. In two of these families linkage to PKD1 was strengthened by excluding linkage to PKD2 with the use of marker D4S423. In three other families we showed linkage to the PKD2 locus. In the largest of these families one recombinant placed marker D4S1534 distal to D4S231, thereby rendering it the closest proximal marker known to us to date. The application of molecular methods allowed us to make presymptomatic diagnosis for a number of at-risk individuals.

Published

1995

12. 15.09 Inherited peripheral neuropathies: analysis of PDXK gene identifies a new treatable disorder

Author

Chelban, Viorica, Wilson, Matthew P, Chardon, Jodi Warman, Vandrovcova, Jana, Natalia Zanetti, M, Zamba-Papanicolaou, Eleni, Efthymiou, Stephanie, Pope, Simon, Conte, Maria R, Abis, Giancarlo, Liu, Yo-Tsen, Tribollet, Eloise, Haridy, Nourelhoda A, Botía, Juan A, Ryten, Mina, Nicolaou, Paschalis, Minaidou, Anna, Christodoulou, Kyproula, Kernohan, Kristin D, Eaton, Alison, Osmond, Matthew, Ito, Yoko, Bourque, Pierre, Jepson, James EC, Bello, Oscar, Bremner, Fion, Cordivari, Carla, Reilly, Mary M, Foiani, Martha, Heslegrave, Amanda, Zetterberg, Henrik, Heales, Simon JR, Wood, Nicholas W, Rothman, James E, Boycott, Kym M, Mills, Philippa B, Clayton, Peter T, and Houlden, Henry

Abstract

Polyneuropathies are amongst the most common neurological conditions worldwide affecting over 20 million people. However, 40% of patients with primary polyneuropathies have no disease-causing mutation identified.We investigated patients with gene-negative primary polyneuropathies using a combination of whole genome sequencing, homozygosity mapping and segregation analysis. Pathogenicity was confirmed via enzymatic assays and mass spectroscopy on recombinant protein and patient-derived fibroblasts, plasma and erythrocytes. We used circular dichroism to show secondary structure changes and isothermal titration calorimetry to investigate the ATP binding.We report that biallelic mutations in human PDXK are associated with primary axonal polyneuropathy and optic atrophy. Pyridoxal kinase (PDXK) is involved in converting vitamin B6 to its active form, pyridoxal 5’-phosphate (PLP). We show that PDXK mutations lead to disease via decreased plasma PLP concentrations. Our functional studies revealed conformational rearrangement in the mutant enzyme around the kinase ATP-binding pocket with impaired PDXK ability to bind ATP and leading to reduced erythrocyte PDXK activity. We show that both the human clinical picture and biochemical profile in PDXK mutations are rescued by PLP supplementation. Patients regained their ability to walk independently. Furthermore, treatment-led normalisation of plasma PLP levels, correlated with reduction of neurofilament light chain concentrations, a biomarker of axonal breakdown.In conclusion, biallelic mutations in human PDXK are associated with a novel disorder leading to treatable primary axonal polyneuropathy and optic atrophy and identifies PLP as therapeutic target.

Published

2019

13. Comparative analysis of affected and unaffected areas of systemic sclerosis skin biopsies by high-throughput proteomic approaches

Author

Chairta, Paraskevi, Nicolaou, Paschalis, Sokratous, Kleitos, Galant, Christine, Houssiau, Frédéric, Oulas, Anastasis, Spyrou, George M., Alarcon-Riquelme, Marta E., Lauwerys, Bernard R., and Christodoulou, Kyproula

Abstract

Background: Pathogenesis and aetiology of systemic sclerosis (SSc) are currently unclear, thus rendering disease prognosis, diagnosis and treatment challenging. The aim of this study was to use paired skin biopsy samples from affected and unaffected areas of the same patient, in order to compare the proteomes and identify biomarkers and pathways which are associated with SSc pathogenesis. Methods: Biopsies were obtained from affected and unaffected skin areas of SSc patients. Samples were cryo-pulverised and proteins were extracted and analysed using mass spectrometry (MS) discovery analysis. Differentially expressed proteins were revealed after analysis with the Progenesis QIp software. Pathway analysis was performed using the Enrichr Web server. Using specific criteria, fifteen proteins were selected for further validation with targeted-MS analysis. Results: Proteomic analysis led to the identification and quantification of approximately 2000 non-redundant proteins. Statistical analysis showed that 169 of these proteins were significantly differentially expressed in affected versus unaffected tissues. Pathway analyses showed that these proteins are involved in multiple pathways that are associated with autoimmune diseases (AIDs) and fibrosis. Fifteen of these proteins were further investigated using targeted-MS approaches, and five of them were confirmed to be significantly differentially expressed in SSc affected versus unaffected skin biopsies. Conclusion: Using MS-based proteomics analysis of human skin biopsies from patients with SSc, we identified a number of proteins and pathways that might be involved in SSc progression and pathogenesis. Fifteen of these proteins were further validated, and results suggest that five of them may serve as potential biomarkers for SSc.

Published

2020