Papers by Anthi Drousiotou
Journal of Cell Science, 2017
Starch binding domain-containing protein (Stbd)-1 is a carbohydrate-binding protein, which has be... more Starch binding domain-containing protein (Stbd)-1 is a carbohydrate-binding protein, which has been proposed as a selective autophagy receptor for glycogen. Here, we show that mouse Stbd1 is a transmembrane, endoplasmic reticulum (ER)-resident protein with the capacity to induce the formation of organized ER structures in HeLa cells. In addition to bulk ER, Stbd1 was found to localize to mitochondria-associated membranes (MAM) which represent regions of close apposition between the ER and mitochondria. We demonstrate that N-myristoylation and binding of Stbd1 to glycogen act as major determinants of its subcellular targeting. Moreover, overexpression of non-myristoylated Stbd1 enhanced the association between ER and mitochondria and further induced prominent mitochondrial fragmentation and clustering. Conversely, shRNA-mediated Stbd1 silencing resulted in an increase in the spacing between ER and mitochondria and altered morphology of the mitochondrial network compatible with elevated fusion and interconnectivity. Our data unravel the molecular mechanism underlying Stbd1 subcellular targeting, support and expand its proposed function as a selective autophagy receptor for glycogen and uncover a new role for the protein in the physical association between ER and mitochondria.
British journal of haematology, Jan 29, 2016
日本先天代謝異常学会雑誌, Oct 5, 1995
Clinical biochemistry, Jan 26, 2016
The purpose of this study was to determine the normal range of chitotriosidase activity in the Cy... more The purpose of this study was to determine the normal range of chitotriosidase activity in the Cypriot population and the frequency of the 24bp duplication polymorphism. Furthermore, we compared the allele frequency of this polymorphism in two locations with different malaria endemicity in the past. Plasma chitotriosidase activity was measured using a fluorogenic substrate. The 24bp polymorphism was detected using PCR analysis of exon 10 of the CHIT1 gene. Additional mutations were detected using direct sequencing. The normal range of chitotriosidase activity was found to be 9.5-44.0nmol/ml/hr. Among 114 normal individuals genotyped for the 24bp duplication, 7% were found to be homozygous, 36% heterozygous and 57% wild type (allele frequency 0.25). The allele frequency of this polymorphism in individuals originating from two locations with different malaria endemicity in the past was not significantly different. A novel deletion mutation in the CHIT1 gene was identified associated w...
Genet Test Mol Biomark, 2009
We report five mutations, three of them novel, responsible for maple syrup urine disease in four ... more We report five mutations, three of them novel, responsible for maple syrup urine disease in four unrelated Cypriot families. The five children studied are the first cases of classic maple syrup urine disease to be reported among Cypriots. The first novel mutation identified is a single-base deletion in exon 6 of the Elalpha gene (c.718delG), which leads to a frameshift after Ala240 and to a stop codon 89 residues further downstream. The other two novel mutations identified are in the Elbeta subunit: a two-base deletion in exon 6, c.662_663delCC, which leads to a frameshift after Ala221 and creates a stop codon 17 residues further downstream, as well as a splice mutation, IVS3[+3]delA, which results in the skipping of exon 3. The two known mutations identified are in the Elalpha gene: the G > C transversion at the 3'-splice acceptor site, (IVS5-1G > C), which results in the deletion of the entire exon 6, and the missense mutation in exon 5 (c.632C > T), which corresponds to a p.Thr211Met substitution. The p.Thr211Met substitution is located in a potassium-ion pocket in the E1 component required for stability of the bound cofactor thiamine diphosphate. The mutant E1 protein harboring the p.Thr211Met substitution was shown unable to bind thiamine diphosphate, leading to undetectable E1 activity.
Case Reports in Genetics, 2016
Fabry disease is an X-linked lysosomal storage disorder resulting from a deficiency of the hydrol... more Fabry disease is an X-linked lysosomal storage disorder resulting from a deficiency of the hydrolytic enzyme α-galactosidase A (α-Gal-A). It is characterized by progressive lysosomal accumulation of globotriaosylceramide (Gb3) and multisystem pathology, affecting the skin, nervous and cerebrovascular systems, kidneys, and heart. Heterozygous females typically exhibit milder symptoms and a later age of onset than males. Rarely, they may be relatively asymptomatic throughout a normal life span or may have symptoms as severe as those observed in males with the classic phenotype. We report on a 17-year-old female in whom cornea verticillata was found during a routine ophthalmological examination but with no other clinical symptoms. Leucocyte α-galactosidase activity was within the overlap range between Fabry heterozygotes and normal controls. Sanger sequencing of the GLA gene failed to reveal any pathogenic variants. Multiplex Ligation-dependent Probe Amplification (MLPA) analysis revealed a deletion of exon 7. Using a long-range PCR walking approach, we managed to identify the deletion breakpoints. The deletion spans 1182 bp, with its 5' end located within exon 6 of the GLA gene and its 3' end located 612 bp downstream of exon 7. This finding represents a novel deletion identified in the first reported Cypriot female carrier of Fabry disease.
JAMA Neurology, 2016
Duchenne muscular dystrophy (DMD) is a candidate for the recommended universal screening panel ba... more Duchenne muscular dystrophy (DMD) is a candidate for the recommended universal screening panel based on evidence that early corticosteroid treatment improves outcomes and on new genetic therapies that require early diagnosis for effectiveness. Elevated creatine kinase levels in the neonatal period are the initial screening marker in DMD newborn screening programs but is found in inherited muscle disorders other than DMD. Data are needed to inform protocols for future screening and follow-up testing and care in these patients. To review non-DMD muscle disorders identified by prior DMD screening programs and to investigate whether these programs failed to identify patients later diagnosed as having DMD (false-negative findings). Since 1975, 10 DMD newborn screening programs have provided opportunities to study screening protocols, outcomes, and parental responses. These programs used elevated creatine kinase levels in dried blood spots for the initial screening, with the diagnosis of DMD based on findings of clinical follow-up, muscle biopsy, or direct mutational testing of the DMD gene. Literature regarding these prior programs was reviewed in PubMed, and the programs were discussed directly with the directors when possible to identify diagnoses of non-DMD disorders and false negative results from 1975 to July 12, 2015. Data were collected from screening programs, which were active between 1975 and December 2011. Data were analyzed from March 26, 2015, to August 24, 2015. The 10 screening programs screened more than 1.8 million newborns between 1975 and 2011, and 344 were diagnosed with DMD. Of those screened, the majority were boys. Across all programs, 80 patients had positive results for non-DMD disorders, including Becker muscular dystrophy and forms of limb-girdle and congenital muscular dystrophies, and 21 patients had false-negative findings for DMD. Screening for DMD will result in identification of other muscle diseases. Future screening protocols should include infants of both sexes and include follow-up testing algorithms to evaluate patients who do not have DMD gene mutations but may have another muscle disorder associated with elevated neonatal creatine kinase levels. These programs will need to be aware that false-negative results are a possibility.
Neuromuscular Disord, 1994
Acta myologica: myopathies and cardiomyopathies: official journal of the Mediterranean Society of Myology / edited by the Gaetano Conte Academy for the study of striated muscle diseases
Mitochondrial encephalomyopathies (ME) are clinically and genetically heterogeneous syndromes ran... more Mitochondrial encephalomyopathies (ME) are clinically and genetically heterogeneous syndromes ranging from pure myopathies to complex multisystem disorders. This phenotypic and genotypic variability, coupled with the lack of a laboratory gold standard marker for the diseases, makes diagnosis a challenging process. Mitochondrial DNA analysis and biochemical assay of muscle homogenates are quite specific diagnostically but have low sensitivity in unselected cases suspected of ME. We decided to evaluate four routine morphological methods in 33 cases of definite or probable ME in an effort to assess the reliability of each of these techniques in diagnosing ME.
Muscle & Nerve, 2015
We report the clinical, biochemical, and molecular findings in a Cypriot family with minimally sy... more We report the clinical, biochemical, and molecular findings in a Cypriot family with minimally symptomatic McArdle disease. Myophosphorylase in muscle was assessed by histochemistry, quantitative spectrophotometry, and western blot analysis. Mutation identification was performed by PCR amplification of all PYGM exons, followed by bidirectional sequencing. Screening for the new mutation was performed by restriction enzyme analysis. We found that a novel c.1151C>T transition in exon 10 of the myophosphorylase gene (PYGM) is associated with minimally symptomatic McArdle disease. Homozygous carriers displayed an ischemic exercise response characterized by a blunted increase in post-exercise blood lactate levels in conjunction with an exaggerated increase in ammonia. Myophosphorylase activity in muscle was 3.75% of normal, whereas the size and abundance of the enzyme were unaffected. These findings expand the genotype-phenotype spectrum of McArdle disease and suggest that enzymatic activity as low as 4% may be sufficient to ameliorate the phenotype. Muscle Nerve, 2015.
JIMD reports, 2014
Objective The characterization of a novel large deletion in the galactose-1-phosphate uridyltrans... more Objective The characterization of a novel large deletion in the galactose-1-phosphate uridyltransferase (GALT) gene accounting for the majority of disease alleles in Cypriot patients with classic galactosemia. Methods DNA sequencing was used to identify the mutations followed by multiplex ligation-dependent probe amplification (MLPA) analysis in the cases suspected of harboring a deletion. In order to map the breakpoints of the novel deletion, a PCR walking approach was employed. A simple PCR assay was validated for diagnostic testing for the new deletion. Haplotype analysis was performed using microsatellite markers in the chromosomal region 9p. RT-PCR was used to study RNA expression in lymphoblastoid cell lines. Results The new deletion spans a region of 8489 bp and eliminates all GALT exons as well as the non-translated sequences of the adjacent interleukin 11 receptor alpha (IL11RA) gene. In addition, the deletion is flanked by a 6 bp block of homologous sequence on either side...
Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 1992
Abstract An integrated multidiscipline computer aided system for the diagnosis of neuromuscular d... more Abstract An integrated multidiscipline computer aided system for the diagnosis of neuromuscular disorders was developed. The system is able to process data based on the following diagnostic procedures: i. clinical assessment, ii. neurophysiological assessment, iii. muscle biopsy, iv. genetic assessment, and v. biochemical assessment The self organising feature maps neural network algorithm was applied on clinical and laboratory data collected from 71 subjects. Diagnostic yield of models investigated varied from 76 to ...
Clinical Biochemistry, 2014
The purpose of this study was to identify the mutations in the glutaryl-CoA dehydrogenase gene (G... more The purpose of this study was to identify the mutations in the glutaryl-CoA dehydrogenase gene (GCDH) in ten Cypriot patients with Glutaric aciduria type I (GAI). Molecular analysis of the GCDH gene was performed by direct sequencing of the patients' genomic DNA. In silico tools were applied to predict the effect of the novel variants on the structure and function of the protein. All disease alleles were characterized (mutation detection rate 100%). Five missense mutations were identified: c.192G>T (p.Glu64Asp) and c.803G>T (p.Gly268Val), which are novel, and three previously described mutations, c.1123T>C (p.Cys375Arg), c.1204C>T (p.Arg402Trp) and c.1286C>T (p.Thr429Met). Two novel mutations, p.Glu64Asp and p.Gly268Val, account for the majority of disease alleles (76.5%) in Cypriot patients with Glutaric aciduria type I. A founder effect for the p.Glu64Asp and the p.Gly268Val can be suggested based on the place of origin of the carriers of these mutations. Identification of the causative mutations of GAI in Cypriot patients will facilitate carrier detection as well as post- and pre-natal diagnosis.
Neuromuscular Disorders, 1994
Prenatal Diagnosis, 2001
In Cyprus all couples carrying alpha0-thalassaemia mutations are detected in the course of the th... more In Cyprus all couples carrying alpha0-thalassaemia mutations are detected in the course of the thalassaemia carrier screening program and prenatal diagnosis is offered to all of them. Prenatal diagnosis for alpha-thalassaemia is routinely done by two independent molecular methods. With the first method, the mutations of the parents are directly determined by gap-PCR and then the chorionic villus sample (CVS) is examined for the presence of these mutations. With the other method, a (CA)n repeat polymorphic site located between the psialpha1- and alpha2-globin genes is used for determining the presence or absence of the normal and mutant alleles. In the period from 1995 to 1999, molecular analysis of 46 couples in which haematological data were consistent with deletion of two alpha-globin genes in both partners indicated that only 13 of them were actually at risk for haemoglobin (Hb) Bart's hydrops fetalis and prenatal diagnosis was provided in 16 pregnancies. The molecular diagnosis was possible in all cases with the use of both gap-PCR and (CA)n repeat polymorphisms analysis. No misdiagnosed cases for alpha-thalassaemia have been reported to date.
Journal of Child Neurology, 2005
Two unrelated children and their siblings of Arab origin were diagnosed as having GM1 gangliosido... more Two unrelated children and their siblings of Arab origin were diagnosed as having GM1 gangliosidosis on the basis of clinical features and markedly low levels of beta-galactosidase. The T2-weighted magnetic resonance images of the brain revealed certain characteristic features, including delayed myelination and abnormal appearance of the subcortical white matter, internal capsule, and basal ganglia. Their mutation analysis showed two novel mutations, which have not been described in an Arabic population.
Human Mutation, 1999
Sandhoff disease is caused by abnormalities in HEXB gene encoding the beta-subunit of beta-hexosa... more Sandhoff disease is caused by abnormalities in HEXB gene encoding the beta-subunit of beta-hexosaminidase. In this study, we analyzed the HEXB gene of a Sandhoff carrier in the Greek-Cypriot community. A G to C transversion was identified in one allele of her HEXB gene at position 5 of the 5'-splice site of intron 8 (IVS8 nt5). One of 13 cDNA clones derived from her lymphocyte HEXB mRNA lacked the last four nucleotides "GTTG" of exon 8, which created a premature termination codon at 11 codons downstream. In vivo transcription of the mutant HEXB gene fragment in CHO cells resulted in deletion of the "GTTG." The mutation has not been found in 40 DNA samples from anonymous donors, indicating that this is not a polymorphism in the Cypriot population. These results clearly indicate that the splice site mutation at IVS8 nt5 is responsible for this case of Sandhoff disease.
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Papers by Anthi Drousiotou