Application of Whole-Exome Sequencing in the Prenatal Diagnosis of Foetuses With Central Nervous System Abnormalities.

OBJECTIVE: To investigate the clinical value of whole-exome sequencing (WES) in the diagnosis of foetuses with central nervous system (CNS) abnormalities but having a normal karyotyping and chromosomal microarray result. METHOD: During the period of 2016-2022, there were a total of 149 foetuses with CNS abnormalities but having negative karyotyping and chromosomal microarray analysis results; WES was performed on these foetuses and their parents. Variants were classified according to ACMG guidelines, and the association of pathogenic variants with specific types of CNS abnormalities was explored. RESULTS: Among these 149 foetuses, three categories of abnormalities, namely, single CNS abnormality, multiple CNS abnormalities, CNS abnormalities along with other organ system abnormalities were identified, for which the detection rate of P/LP variants is 17.4% (12/69), 28.6% (14/49) and 54.8% (17/31), respectively. CONCLUSION: WES brought about an increase of 28.9% in diagnostic yield in the prenatal evaluation of foetuses with CNS abnormalities but having negative karyotyping and chromosome array results. WES may also be of benefit for the diagnosis of foetuses with isolated CNS abnormalities, as well as for making more informed interpretations of imaging findings and for providing better genetic counselling.

A Case Report and Literature Review of a Novel Mutation in the MAGED2 Gene of a Patient With Severe Transient Polyhydramnios.

Background: Polyhydramnios occurs frequently during pregnancy. Mutations in the MAGED2 gene can cause X-linked acute early-onset polyhydramnios with a severe but transient form of antenatal Bartter's syndrome. Case Presentation: Here, we report a new novel frameshift mutation c.733_734delCT (p. Leu245GlufsTer4) in the MAGED2 gene (NM_177433.1) that caused prenatal polyhydramnios, but did not cause polyuria after birth. Follow-up was conducted for 2 months, and the baby's growth and development were normal, without polyuria and renal impairment. In addition, we identified all individuals with MAGED2 mutations reported in the literature before March 2021. Conclusion: We report a new case with a novel variant of the MAGED2 gene that caused severe hydramnios but with a good result and summary clinical characteristics in a newborn with antenatal Bartter's syndrome caused by an MAGED2 mutation. Good prenatal diagnosis and genetic consultation can improve pregnancy monitoring and newborn management.

Circular RNA hsa_circ_0081343 promotes trophoblast cell migration and invasion and inhibits trophoblast apoptosis by regulating miR-210-5p/DLX3 axis.

BACKGROUND: Various circular RNAs (circRNAs) are dysregulated in the placenta of fetal growth restriction (FGR) fetuses, but their roles and regulatory mechanisms have not been fully elucidated. Herein, we aimed to elucidate the role of hsa_circ_0081343 in regulating the migration, invasion, and apoptosis of human extravillous trophoblast HTR-8 cells. METHODS: CircRNA and miRNA levels were examined by quantitative reverse transcription PCR (qRT-PCR). Overexpression plasmid constructs and siRNAs were used to overexpress and knockdown hsa_circ_0081343, respectively. Transwell assays and flow cytometry analyses were performed to evaluate the effects of hsa_circ_0081343 or miR-210-5p on migration, invasion, and apoptosis. Protein levels were analyzed by western blotting. Dual luciferase activity and anti-AGO2 RNA immunoprecipitation (RIP) assays were performed to identify the relationship between miR-210-5p and hsa_circ_0081343. RESULTS: Hsa_circ_0081343 expression was significantly downregulated in 37 FGR placental tissues compared to healthy placental control tissues. Hsa_circ_0081343 overexpression may inhibit apoptosis by downregulating the expression of cleaved caspase 3 and caspase 9 and alleviating the migration and invasion of HTR-8 cells by inducing the expression of MMP2 and MMP9. The dual luciferase activity and anti-AGO2 RIP assay results showed that hsa_circ_0081343 binds to miR-210-5p. miR-210-5p overexpression eliminated the effect of hsa_circ_0081343 overexpression in HTR-8 cells. Finally, DLX3 was identified as a direct target of miR-210-5p. CONCLUSIONS: hsa_circ_0081343 expression levels are significantly downregulated in FGR placental tissues. Hsa_circ_0081343 regulates the migration, invasion, and apoptosis of HTR-8 cells via the hsa-miR-210-5p/DLX3 axis.

UPD16 itself is not a cause of intrauterine growth restriction.

BACKGROUND: The clinical relevance of uniparental disomy (UPD16) for chromosome 16 is currently unclear. METHODS AND RESULT: We performed chromosome microarray analysis on two fetus and their placentas, fluorescence in situ hybridization (FISH) to exclude the hidden chr16 trisomy mosaicism in the fetuses, and clinical whole-exome sequencing to assess for homozygosity mutations of autosomal-recessive diseases. RESULTS: Microarray analysis of two fetuses had UPD16. The membranous placenta of the case 1 had confined placental mosaicism (CPM) for trisomy 16. Clinical whole-exome sequencing on chromosome 16 revealed three potentially pathogenic single nucleotide polymorphisms (SNPs). Gap-polymerase chain reaction (PCR) and MLPA for a-thal deletions demonstrated that case 2 was homozygous for the -SEA deletion. CONCLUSIONS: The poor outcome in these fetuses may be attributed to other factors, the membranous placenta and the -SEA deletion, respectively. Fetal UPD16 itself might be not correlated with intrauterine growth restriction (IUGR) and thus is not the basic cause of IUGR.

[Genetic analysis and prenatal diagnosis for ten families affected with tuberous sclerosis complex].

OBJECTIVE To provide prenatal diagnosis for families affected with tuberous sclerosis complex and explore the correlation between phenotype and genotype. METHODS For probands from 10 families, all exons and splicing regions of the TSC1 and TSC2 genes were analyzed with high throughput DNA sequencing. Suspected mutations were verified by Sanger sequencing. RESULTS All probands were found to have mutations, which included 1 case with TSC1 mutation and 9 cases with TSC2 mutations (missense mutations in 6, nonsense mutations in 2, and frameshifting mutation in 1 case). Prenatal diagnosis was provided for 9 cases, and 1 fetus was found to carry a mutation. Genetic analysis has identified a novel pathogenic mutation (TSC2 c.2415-2416 ins GT). CONCLUSION Identification of pathological mutations for tuberous sclerosis complex can facilitate genetic counseling and prenatal diagnosis for the affected families.

[Two novel TSC2 frameshift mutations in tuberous sclerosis complex].

High-throughput sequencing was performed for the peripheral blood DNA from two probands in the family with tuberous sclerosis complex (TSC) to determine the sequences of TSC-related genes TSC1 and TSC2 and their splicing regions and identify mutation sites. Amplification primers were designed for the mutation sites and polymerase chain reaction and Sanger sequencing were used to verify the sequences of peripheral blood DNA from the probands and their parents. The two probands had c.3981-3982 insA (p.Asp1327AspfsX87) and c.4013-4014 delCA (p.Ser1338Cysfs) heterozygous mutations, respectively, in the TSC2 gene. The parents of proband 1 had no abnormalities at these two loci; the mother of proband 2 had c.4013-4014 delCA heterozygous mutation in the TSC2 gene, while the father and the grandparents of proband 2 had no abnormalities. c.3981-3982 insA mutation may cause early coding termination of amino acid sequence at the 1413th site, and c.4013-4014 delCA mutation may cause early coding termination of amino acid sequence at the 1412th site. These two mutations are the pathogenic mutations for families 1 and 2, respectively, and both of them are novel frameshift mutations, but their association with the disease needs to be further verified by mutant protein function cell model and animal model.

[Analysis of copy number variations in an infant with Cri du Chat syndrome by array-based comparative genomic hybridization].

OBJECTIVE: To analyze genomic copy number variations in an infant with Cri du Chat syndrome, and to explore the underlying genetic cause. METHODS: G-banding analysis was carried out on cultured peripheral blood sample from the patient. Copy number variation analysis was performed using microarray comparative genomic hybridization, and the result was verified with fluorescence in situ hybridization. RESULTS: The infant was found to have a 46, XY, der(5) (p?) karyotype. By microarray comparative genomic hybridization, a 23.263 Mb deletion was detected in 5p14.2-p15.3 region in addition to a 14.602 Mb duplication in 12p31 region. A derivative chromosome was formed by rejoining of 12p31 region with the 5p14.2 breakpoint. The patient therefore has a karyotype of arr cgh 5p15.3p14.2 (PLEKHG4B>CDH12)× 1 pat, 12p13.33p13.1 (IQSEC3>GUC Y2C)× 3 pat. Loss of distal 5p and gain of distal 12p were verified with fluorescence in situ hybridization. CONCLUSION: The Cri du Chat syndrome manifested by the patient was caused by deletion of distal 5p from an unbalanced translocation involving chromosome 5. Microarray comparative genomic hybridization is a powerful tool for revealing genomic copy number variations for its high-resolution, high-throughput and high accuracy.

[Clinical significance of large-scale screening of A1555G mutation of mitochondria DNA for neonates].

OBJECTIVE: To explore the necessity of large-scale screening of mitochondria DNA (mtDNA) A1555G mutation for prevention of aminoglycoside antibiotic induced deafness in newborns. METHODS: One thousand blood filter samples were collected from neonates born in July 2008 in Shenzhen. DNA was extracted with Chelex-100 Resin and amplified by PCR. The mtDNA A1555G mutation was determined by denaturing high-performance liquid chromatography(DHPLC) for PCR products. The positive frequency was calculated. RESULTS: The mitochondrial DNA A1555G mutation was detected in 2 cases of 1000 neonates. The frequency of mutation was 0.2%. CONCLUSION: There is a high frequency of mtDNA A1555G mutation in neonates, the large-scale screening of mtDNAA1555G mutation in newborns might detect the individuals sensitive to aminoglycoside antibiotic, which is helpful to guide a rational medication for newborns and the maternal relatives at high-risk. Furthermore, it might be useful to prevent aminoglycoside antibiotic induced deafness.

[Molecular and prenatal diagnosis for a Chinese pregnant woman with a novel mutation of ß thalassemia].

OBJECTIVE: To conduct molecular and prenatal diagnosis for a couple with ß thalassemia. METHODS: Blood routine examination and hemoglobin analysis were used for screening of thalassemia. Seventeen common Chinese mutations of ß thalassemia were detected for the carriers with ß thalassemia using PCR/RDB. The unknown mutation of ß thalassemia was identified by DNA sequencing and DHPLC analysis. RESULTS: The husband was heterozygote of CD41/42 (-TCTT). The wife carried a mutation IVS-I-110 (G→A) of ß thalassemia having not been reported in Chinese so far. The fetus was a double mutated heterozygote of IVS-I-110 (G→A) and CD41/42 (-TCTT). The pregnancy was terminated. CONCLUSION: Mutation IVS-I-110 (G→A) of ß thalassemia in Chinese is of importance to the genetic counseling and prenatal diagnosis of thalassemia.