OBJECTIVE: To carry out genetic testing and prenatal diagnosis for a woman featuring moderate intellectual disability (ID). METHODS: The patient had presented at the First Affiliated Hospital of Zhengzhou University on April 28, 2021. With informed consent, peripheral blood and amniotic fluid samples were collected for the extraction of genomic DNA. Pathogenic copy number variations (CNVs) were detected with CNV-seq, and single gene variants were detected by whole exome sequencing (WES) and Sanger sequencing. Candidate variant was verified by Sanger sequencing, and CNV-seq and multiplex ligation-dependent probe amplification (MLPA) were used to detect fetal CNVs. RESULTS: The 23-year-old woman had moderate ID, sideway walking, and unstable holding. Ultrasonography at 18⁺³ weeks' gestation had revealed no fetal abnormality. No pathogenic CNV was detected in the woman by CNV-Seq, while WES revealed that she has harbored a heterozygous c.1675C>T (p.Arg559*) variant of the DLG4 gene, which was verified by Sanger sequencing. Based on guidelines from the American College of Medical Genetics and Genomics, the variant was predicted to be likely pathogenic (PVS1+PM2_supporting). Sanger sequencing has confirmed that the fetus has inherited this variant, and CNV-Seq also revealed that that fetus has harbored a 0.1 Mb heterozygous deletion at Xp21.1, which has encompassed the DMD gene, and the result was verified by MLPA. CONCLUSION The heterozygous c.1675C>T variant of the DLG4 gene probably underlay the mental retardation in this woman, and her fetus was found to harbor the same variant in addition with deletion of the DMD gene, which may predispose to ID type 62.
Female ; Humans ; Pregnancy ; Young Adult ; Disks Large Homolog 4 Protein ; DNA Copy Number Variations ; Fetus ; Genetic Testing ; Intellectual Disability/genetics* ; Pregnant Women

Objective:To explore the clinical and genetic characteristics of 5α-reductase 2 deficiency syndrome(5α-RD2).Methods:Retrospective analysis of three cases of 5α-RD2 to summarize clinical data. Genetic testing was conducted using chromosome karyotyping analysis, whole-exome sequencing(WES), Sanger sequencing, and bioinformatics analysis. The effect of the novel variant on the structure of the 5α-reductase was evaluated by studying the homology modeling structure using SWISSMODEL and PyMoL.Results:The patients of all three cases have social gender as female. In Case 1, a 6-year-old patient sought medical attention due to abnormal external genitalia development. In Cases 2 and 3, 15-year-old patients presented with primary amenorrhea, and they showed masculinization of secondary sexual characteristics during puberty. In all three cases, the external genitalia exhibited varying degrees of masculinization, with clitoromegaly resembling a small penis and accompanying cryptorchidism. In Case 2, an hCG stimulation test was performed, and the testosterone/dihydrotestosterone(DHT) ratio was found to be 17.4. The karyotype of all three patients was 46, XY. Whole-exome sequencing(WES) detected SRD5A2 gene variants in all cases, with genotypes being p. Gln6Ter/p.Arg227Gln, p. Gln6Ter/p.Pro250Ala, and p. Arg227Ter/p.His89Tyr, respectively. Parental validation confirmed compound heterozygous mutations in all cases. The novel variant p. Pro250Ala was identified and classified as a likely pathogenic variant according to ACMG guidelines. Protein modeling analysis indicated that this variant may affect the binding of 5α-reductase 2 to NADPH. In Case 1, male gender was chosen, and a laparoscopic bilateral orchiopexy was performed. In Case 2, female gender was chosen, and testectomy and vaginoplasty were performed. The gender selection for Case 3 has not been definitively determined yet.Conclusions:Abnormal external genitalia is a common phenotype of 5α-RD2. After hCG stimulation test, there is a significant increase in the testosterone/dihydrotestosterone(DHT) ratio, which indicates that Sanger sequencing of the SRD5A2 gene can be directly performed. 5α-RD2 exhibits significant clinical heterogeneity, and WES can facilitate the differential diagnosis of 46, XY disorders of sex development. The study also reported a novel variant, p. Pro250Ala, which enriches the SRD5A2 gene variant database.

OBJECTIVE: To explore the clinical characteristics and genetic etiology of a Chinese pedigree affected with Alström syndrome. METHODS: A pedigree with 5 members affected with Alström syndrome who had visited the First Affiliated Hospital of Zhengzhou University in February 2021 was selected as the study subject. Clinical data of the pedigree were collected, and peripheral venous blood samples were collected for the extraction of genomic DNA. Genetic testing was carried out for the eldest daughter and third son through whole exome sequencing (WES). Candidate variant was verified by Sanger sequencing and bioinformatic analysis. RESULTS: The eldest daughter (14 years old) and the third son (11 years old) both had congenital nystagmus, amblyopia, growth retardation and type 2 diabetes. WES revealed that both had harbored homozygous c.3538A>T (p.Lys1180*) variant of the ALMS1 gene. Sanger sequencing confirmed that the father, mother, and second daughter were all heterozygous carriers. Based on the Guidelines for Genetic Variation and the Technical Standards for Interpretation and Reporting of Primary Copy Number Variations, the variant was predicted as pathogenic (PVS1+PM2_Supporting+PP4). CONCLUSION The homozygous c.3538A>T (p.Lys1180*) variant of the ALSM1 gene probably underlay the Alström syndrome in this pedigree, which has provided a reference for the clinical treatment.
Adolescent ; Child ; Humans ; Alstrom Syndrome/genetics* ; Diabetes Mellitus, Type 2 ; DNA Copy Number Variations ; East Asian People ; Pedigree ; Male ; Female

OBJECTIVE: To explore the genetic basis for a Chinese pedigree with two individuals suffering from congenital blindness. METHODS: Clinical data and peripheral blood samples of the pedigree were collected. Whole exome sequencing was carried out. Suspected variants were verified by Sanger sequencing. Pathogenicity of candidate variants was validated through searching of PubMed and related databases, and analyzed with bioinformatics software. RESULTS: Both patients had congenital blindness and a history of multiple fractures. Other features have included microphthalmia and cornea opacity. One patient had normal intelligence, whilst the other had a language deficit. Both patients were found to harbor compound heterozygous variants of the LRP5 gene, namely c.1007_1015delGTAAGGCAG (p.C336X), c.4400G>A (p.R1467Q) and c.4600C>T (p.R1534X). The first one was derived from their mother, whilst the latter two were derived from their father. None of the three variants was detected in their elder sister. CONCLUSION The compound heterozygous variants of c.1007_1015delGTAAGGCAG (p.C336X) and c.4600C>T (p.R1534X) of the LRP5 gene probably underlay the pathogenesis of the Osteoporosis-pseudoglioma syndrome in this pedigree. The clinical significance of the c.4400G>A (p.R1467Q) variant has remained uncertain. Above finding has enriched the mutational spectrum of Osteoporosis-pseudoglioma syndrome.
Aged ; China ; Humans ; Language ; Low Density Lipoprotein Receptor-Related Protein-5/genetics* ; Mutation ; Osteogenesis Imperfecta/genetics* ; Pedigree

OBJECTIVE: To analyze the clinical manifestations and causative gene variants of the choroideremia patients, and to help the patients bedifferential diagnosed by whole exome sequencing and provide theoretical basis for their genetic counseling. METHODS: Clinical data of 3 families were collected and genomic DNA was extracted respectively from peripheral blood of patients and related subjects. Exome targeted sequencing was used to screen suspicious gene mutations. Sanger sequencing and quantitative PCR were used to verify the candidate mutations and investigate the mutation carrying status of other members of the family. The candidate mutations were searched through HGMD and PubMed databases for the pathogenicity reports, and the pathogenicity of candidate mutations was judged according to a joint consensus recommendation of the American College of Medical Genetics and Genomics and the Association for Molecular Pathology. RESULTS: The proband of family 1 is c.1584_1587del (p.Val529Hisfs*6) variant hemizygote, whose daughter carries c.1584_1587del (p.Val529Hisfs*6) heterozygous variation. The proband of family 2 is a hemizygote with deletion of exons 10 to 15 (E10-15del), and her mother and sister carry the E10-15del heterozygous variation. In family 3, the proband is c.544delT (p.Cys182Valfs*14) variant hemizygote, and his mother is c.544delT (p.Cys182Valfs*14) heterozygote, but the father do not detect this variant. All the 3 families were detected pathogenic gene variations of CHM, two of which were known pathogenic variation and one of which was novel CHM gene c.544delT (p.C182Vfs*14) in this study. The c.544delT frameshift mutation of CHM gene can lead to the premature termination of the product protein translation and nonfunctioning protein. It is a pathogenic mutation according to ACMG guidelines. CONCLUSION The findings of this study expand the gene variation spectrum of choroideremia.
Choroideremia/genetics* ; Female ; Heterozygote ; Humans ; Mutation ; Pedigree ; Whole Exome Sequencing

OBJECTIVE: To explore the genetic basis for a Chinese pedigree affected with microphthalmia. METHODS: Clinical data of the proband was collected. Whole exome sequencing (WES) was carried out to screen potential pathogenic variants in the proband. Candidate variant was verified by Sanger sequencing of the proband and his family members. Pathogenicity of the variant was predicted by searching the PubMed database and bioinformatic analysis. Sanger sequencing of amniotic fluid sample was carried out for prenatal diagnosis. RESULTS: The proband and his father were found to harbor a heterozygous c.151C>G (p.R51G) variant of the MAB21L2 gene. The same variant was not found in his mother and grandparents. Based on the guidelines of American College of Medical Genetics, the c.151C>G (p.R51G) variant was predicted as likely pathogenic. CONCLUSION The c.151C>G (p.R51G) variant of the MAB21L2 gene probably underlay the microphthalmia in the proband. Above finding has facilitated prenatal diagnosis for this pedigree.
China ; Coloboma ; Eye Proteins ; Female ; Humans ; Intracellular Signaling Peptides and Proteins ; Microphthalmos/genetics* ; Mutation ; Osteochondrodysplasias ; Pedigree ; Pregnancy ; Prenatal Diagnosis

Objective:To analyze the clinical manifestations of congenital cataract in 12 families and gene variants causing the disease.Methods:The method of pedigree investigation was adopted.Clinical data of 27 patients from 12 Chinese Han families with congenital cataract were collected, and genomic DNA was extracted from peripheral blood samples of patients and family members.Candidate variants were screened by next generation sequencing and were verified by Sanger sequencing.Population frequency of the variants were obtained through the Genome Arrgregation Database (gnomAD).Pathogenicity of variants was analyzed through the Human Gene Mutation Database (HGMD), Database of Single Nucleotide Polymorphism (dbSNP) and PubMed, and the mutation effect was interpreted by protein prediction softwares including SIFT, PolyPhen_2 and MutationTaster.The conservation analysis of amino acid sequences of variants was performed by GERP+ + software.Diagnosis was confirmed by clinical ophthalmic phenotype, medical history and mutation analysis.This study adhered to the Declaration of Helsinki.The study protocol was approved by the Ethics Committee of the First Affiliated Hospital of Zhengzhou University (No.KS-2018-KY-36).Written informed consent was obtained from all subjects and their guardians.Results:Pathogenic genetic variants were found in all the 12 families, 9 of which had known pathogenic variants including MIP c.97C>T, GJA8 c.593G>A, CRYBA4 c.277T>C, CRYBB2 c.563G>A and c.436G>C, CRYGC c.470G>A, CRYGD c.70C>A, PAX2 c.70dupG as well as OCRL E5-E16dup, and 3 novel potential pathogenic variants including CRYGD c.422delG, ELP4 c.886C>A and CRYBB2 c.434G>C. CRYGD c.422delG could lead to the early termination of translation of protein products, which was pathogenic.The nucleotide and amino acid sites of ELP4 c.886C>A and CRYBB2 c.434G>C were highly conserved among species, and were predicted as harmful.The 12 families were consistent with co-segregation. Conclusions:CRYGD c.422delG, ELP4 c.886C>A and CRYBB2 c.434G>C may be novel pathogenic variants of congenital cataract.

Objective:To observe and analyze the pathogenic gene types and clinical phenotypes of Leber congenital amaurosis (LCA).Methods:A retrospective clinical study. Six patients with LCA confirmed by genetic testing and 18 family members were included in the study. The patients came from six unrelated families. The family was investigated with a specific hereditary eye disease enrichment panel which contained 463 known pathogenic genes and based on targeted exome capture technology first to indentify the potential pathogenic genes and mutations. Then the TULP1 , RPGRIP1 , GUCY2D pathogenic mutations were conformed by Sanger sequencing. The pathogenicity of the gene variation was searched through relevant databases and PubMed literature, and its function was explained by protein prediction software. Results:Of the 6 patients, 3 were males and 3 were females; the age was from 3 to 33 years. Nystagmus, finger pressing eyes, photophobia, and night blindness were seen in 5 cases; electroretinogram showed 3 cases of extinction or near extinction; and 4 cases of retinopathy. The results showed patients with compound heterozygous mutation of c.1318C> T and c.1142T> G, homozygous mutation ofc.1318C> T and compound heterozygous mutation of c.1153G> A and c.1561C> T of TULP1 in Family 1, Family 2 and Family 5, respectively. There were compound heterozygous mutations of RPGRIP1 c.391delG and c.1468-2A> G in Family 3 and c.715delA and c.1765C> T in Family 6, respectively. Homozygous mutation of c.3177_3178delAC of GUCY2D was found in Family 4.The parents of all six patients were carriers of corresponding heterozygous mutations. TULP1 gene c.1142T> G, RPGRIP1 gene c.391delG, c.715delA and c.1765C> T and GUCY2D gene c.3177_3178delAC mutations were novel mutations and unreported. The 381th amino acid locus of product protein of TULP1 gene was highly conserved among species. The protein prediction software predicted that the mutation pathogenic. The c.391delG, c.715delA and c.1765C> T mutations of RPGRIP1 gene and c.3177_3178delAC mutation of GUCY2D gene can lead to early translation termination of their product proteins, which are pathogenic variants. Conclusion:The pathogenic mutations of TULP1, RPGRIP1 and GUCY2D genes led to LCA 15, LCA 6 and LCA 1 in six families.

OBJECTIVE: To perform prenatal diagnosis for a woman carrying a balanced translocation. METHODS: Clinical phenotype of the woman and her first child was analyzed. Peripheral blood sample of the woman and amniotic fluid sample from two subsequent pregnancies were subjected to chromosomal karyotyping and copy number variation analysis through next-generation sequencing (NGS). RESULTS: The karyotypes of the woman and her first child were determined as 46,XX,t(5;6)(p15:p23) and 46,XX,?der(5),t(5;6)(p15.32;p22.3), respectively. The karyotype of the amniocyte from her second pregnancy was 46,XN,t(5;6)(p15:p23). No pathogenic copy number variation was detected. The karyotype of her third pregnancy was 46,XN,?der(5),t(5;6)(p15.32;p22. 3), in addition with a 6.04 Mb deletion at 5p15.33p15.32 (20 000 - 6 060 000) and a 18.50 Mb duplication at 6p25.3p22.3 (160 000 - 18 660 000). CONCLUSION Combined karyotyping analysis and NGS has enabled detection of fetal copy number variations for a woman carrying a balanced chromosomal translocation.
Child ; DNA Copy Number Variations ; Female ; Fetus ; High-Throughput Nucleotide Sequencing ; Humans ; Karyotype ; Karyotyping ; Pregnancy ; Prenatal Diagnosis

OBJECTIVE: To analyze the clinical manifestations and gene variants of patients with blepharophimosis, ptosis and epicanthus inversus syndrome (BPES). METHODS: Clinical data of 7 pedigrees affected with BPES were collected, and genomic DNA was extracted from peripheral blood samples of the probands and their relatives. All exons of the FOXL2 gene were subjected to Sanger sequencing. Those with negative findings were further screened by targeted capture and next generation sequencing (NGS) and microarray analysis. Pathogenicity of candidate variants were predicted by search of PubMed and related databases, and the impact of the variants was interpreted by protein prediction software. Diagnosis was confirmed by clinical phenotype, medical history and mutation analysis. RESULTS: A pathogenic variant was identified in six of the 7 pedigrees, which included four known pathogenic variants and one novel FOXL2 c.299dupA variant. A heterozygous 3q22.3q23 deletion, which encompassed the FOXL2 gene, was identified in another pedigree.As predicted, the c.299dupA frameshift mutation of FOXL2 gene can lead to the premature termination of protein translation, which is pathogenic. CONCLUSION A novel and 5 known pathogenic variants have been identified in six pedigrees affected with BPES by the combined Sanger sequencing, target capture NGS and microarray analysis. Above findings have enabled genetic counseling and prenatal diagnosis for these pedigrees.
Blepharophimosis/genetics* ; Forkhead Box Protein L2/genetics* ; Forkhead Transcription Factors/genetics* ; Humans ; Mutation ; Pedigree ; Phenotype ; Skin Abnormalities ; Urogenital Abnormalities