1.Kniest dysplasia due to mutation of COL2A1 gene.
Moling WU ; Li LIU ; Zhizi ZHOU ; Huiying SHENG ; Xi YIN ; Xiuzhen LI ; Jing CHENG ; Yonglan HUANG ; Yanna CAI ; Cuiling LI ; Liping FAN ; Hongsheng LIU
Chinese Journal of Medical Genetics 2015;32(3):323-326
OBJECTIVETo detect potential mutation of COL2A1 gene in two children suspected for Kniest dysplasia.
METHODSThe 54 exons and splicing regions of the COL2A1 gene were amplified with PCR and the product was subjected to direct sequencing.
RESULTSA missense mutation (c.905C>T, p.Ala302Val) was found in the coding region of the COL2A1 gene, which has been previously reported in abroad. The patients appeared to have short trunk dwarfism, enlarged joints and midface hypoplasia.
CONCLUSIONThe probands are the first cases of Kniest dysplasia described in China, and so was the p.Ala302Val mutation.
Base Sequence ; Child, Preschool ; China ; Cleft Palate ; genetics ; Collagen Diseases ; genetics ; Collagen Type II ; genetics ; Dwarfism ; genetics ; Exons ; Face ; abnormalities ; Humans ; Hyaline Membrane Disease ; genetics ; Male ; Molecular Sequence Data ; Mutation, Missense ; Open Reading Frames ; Osteochondrodysplasias ; genetics ; RNA Splicing
2.Clinical and molecular analysis of two Chinese siblings with Cockayne syndrome.
Zhizi ZHOU ; Li LIU ; Moling WU ; Hongsheng LIU ; Yanna CAI ; Huiying SHENG ; Xiuzhen LI ; Jing CHENG ; Duan LI ; Yonglan HUANG
Chinese Journal of Pediatrics 2016;54(1):56-60
OBJECTIVECockayne syndrome is a rare disease and difficult to be recognized. This study aimed to expand the knowledge of the clinical and molecular characteristics of the children with Cockayne syndrome (CS).
METHODClinical data of two siblings with classic CS of Guangzhou Women and Children's Medical Center from July 2013 to November 2014 were obtained and analyzed. The whole DNA of peripheral blood was collected from two CS siblings and their parents. Amplification of all exons and adjacent introns for ERCC6 gene was conducted using PCR, and measurement of reaction product was performed to find mutation sites by two-way sequencing.
RESULTTwo affected siblings were males, and came from unconsanguineous parents, 7 years and 5 months old and 4 years and 8 months old, respectively. They were in treatment because of developmental and mental retardation for years. When they were younger than one year of age, their heights and weight were within normal limits. However, poor growth of height and weight and psychomotor retardation appeared after one and a half years of age, as well as skin and eye sensitivity to sunshine, hearing impairment, optic nerve atrophy, microcephaly, and deep-set eyes. The proband's height was 90.8 cm, and weight 9.1 kg, head circumference 41 cm, and chest circumference 44 cm when he was taken to hospital. The elder brother of the proband had a height of 92 cm, weight 11.2 kg, head circumference 41 cm, and chest circumference 44 cm when he was taken to hospital. When the proband was four and a half years old, ventricular enlargement, hypomyelination, and brain atrophy were detected for his elder brother at 7 years of age by cranial MRI. MRS imaging indicated that damages occurred at the left and right sides of dorsal thalamus, lobus insularis, along with the left half circle of central neurons. Symmetrical calcification on bilateral basal ganglia was found on the brain CT scan. Pathogenic compound heterozygous c. 1357C > T (p.Arg453Ter) and c. 1607T > G (p.Leu536Trp) mutations of ERCC6 gene were identified in the two siblings which were separately inherited from their unaffected parents.
CONCLUSIONCS children are usually normal at birth, however, they have severe clinical characteristics such as poor growth, psychomotor retardation, cerebral injury, microcephalus, deep-set eyes, and skin sensitivity to sunshine. ERCC6 gene mutation usually occurs, and it is easy to misdiagnose CS as cerebral palsy, primary microcephaly, and so on.
Asian Continental Ancestry Group ; Child ; Child, Preschool ; Cockayne Syndrome ; genetics ; DNA Helicases ; genetics ; DNA Mutational Analysis ; DNA Repair Enzymes ; genetics ; Exons ; Heterozygote ; Humans ; Magnetic Resonance Imaging ; Male ; Mutation ; Poly-ADP-Ribose Binding Proteins ; Polymerase Chain Reaction ; Siblings
3. Clinical features and genetics studies of Finnish variant late infantile neuronal ceroid lipofuscinosis in two families
Zhizi ZHOU ; Xiuzhen LI ; Jing CHENG ; Wen ZHANG ; Chunhua ZENG ; Yunting LIN ; Yongxian SHAO ; Yonglan HUANG ; Li LIU
Chinese Journal of Pediatrics 2018;56(8):601-604
Objective:
To report clinical feature and results of genetic analysis of 3 patients from 2 families with Finnish variant late infantile neuronal ceroid lipofuscinosis.
Methods:
The clinical and ultrastructural features of 3 patients with progressive neurodegenerative diseases were retrospectively analyzed from October 2014 to December 2016 in Department of Genetics and Endocrinology, Guangzhou Women and Children's Medical Center. The whole exon sequencing and Sanger sequencing were used to analyze the molecular genetics of the patients and their parents.
Results:
The probands were 11 years and 3 moths, 9 years and 1 month,10 years and 1 month old. All were normal at birth, and from 5-6 years old they began to develop "regression of cognition and motion, impaired vision". Physical examination at the first consultation: clear minded butignorant, unable to speak and understand instructions, unable to stand up and sit alone, unable to maintain postureupright. The brain magnetic resonance imaging(MRI) indicated diffuse cerebral and cerebellar atrophy, white matter damage. Blood biochemistry, lactic acid, acid-base balancewere normal. Electron microscopic examination of peripheral blood lymphocytes showed swelling of the nucleus, autophagy, intracellular massive deposits and abnormal vacuoles. Two compound heterozygous c.334C> T (p.Arg112Cys) and c.595C> T (p.Arg199Ter) mutations of CLN5 gene were identified in the two siblings, and the proband 3 was c.335G> A (p.Arg199His) homozyousmutation, which were inherited from their unaffected parents.
Conclusions
The 3 cases with Finnish variant late infantileneuronal ceroid lipofuscinosises were normal at birth, cognitive and motor function was regressed at preschool age.Brain MRI showed whole brain atrophy, white matter lesions, there were no bovious difference from other neurodegenerative diseases. Blood biochemistry and pathological examination of lymphocytes had no specific changes. The pathogenic genes were CLN5,most are inherited in autosomal recessive way.
5.Clinical features of pyruvate dehydrogenase complex deficiency and gene testing in one case.
Moling WU ; Li LIU ; Yanna CAI ; Huiying SHENG ; Jing CHENG ; Xiuzhen LI ; Xi YIN ; Zhikun LU ; Ruizhu LIN ; Zhizi ZHOU ; Liping FAN ; Hongsheng LIU
Chinese Journal of Pediatrics 2014;52(11):863-866
OBJECTIVETo analyze the clinical characteristics and genetype of one children who had been diagnosed with pyruvate dehydrogenase complex deficiency.
METHODComprehensive analyses of this case were performed, including clinical symptoms, signs, biochemical examinations and therapeutic effects. The eleven exons and splicing areas of PDHA1 were amplified with genomic DNA from whole blood. And variations were investigated by sequencing the PCR product. The patient was diagnosed with pyruvate dehydrogenase complex deficiency by sequence analysis of PDHA1 gene.
RESULTThe patient was a 2 years and 4 monthes old boy. He presented with muscle hypotonia and weakness for one year, and experienced recurrent episodes of unstable head control, unable to sit by himself or stand without support, with persistently hyperlactacidemia. Metabolic testing revealed blood lactate 5.37 mmol/L, pyruvate 0.44 mmol/L, and lactate/pyruvate ratio was 12.23. MRI of the brain showed hyperintense signals on the T2 and T2 Flair weighted images in the basal ganglia bilaterally. Sequence analysis of PDHA1 gene showed a G>A point mutation at nucleotide 778, resulting in a substitution of glutarnine for arginine at position 263 (R263Q). And the diagnosis of pyruvate dehydrogenase complex deficiency was identified. By giving the therapy with ketogenic diet, vitamin B(1), coenzyme Q(10) and L-carnitine , the boy was in a stable condition.
CONCLUSIONThe severity and the clinical phenotypes of pyruvate dehydrogenase complex deficiency varied. Sequence analysis of PDHA1 gene revealed a 788G>A (R263Q) mutation. Patients who presented with unexplained muscle hypotonia, weakness and hyperlactacidemia could be diveded by gene analysis. And appropriate treatment can improve the quality of life.
Brain ; Carnitine ; Child, Preschool ; Exons ; genetics ; Humans ; Magnetic Resonance Imaging ; Male ; Mutation ; Phenotype ; Pyruvate Dehydrogenase (Lipoamide) ; genetics ; Pyruvate Dehydrogenase Complex Deficiency Disease ; diagnosis ; genetics ; Pyruvic Acid