[Chromosomal microarray analysis of 17 patients with unbalanced reciprocal translocations].

OBJECTIVE: To retrospectively analyze the results of chromosomal microarray analysis (CMA) and parental origins of unbalanced translocations among 17 patients, so as to provide reference for their genetic counseling. METHODS: The results of CMA for 7 001 samples tested in Chengdu Women and Children's Central Hospital from January 2019 to January 2022 were retrospectively reviewed. Unbalanced reciprocal translocation was defined as two non-homologous chromosomes with lost and gained segments respectively or both with gained segments, and their parental origins were identified by parental chromosomal karyotyping and/or fluorescence in situ hybridization (FISH). RESULTS: In total 17 unbalanced translocations were identified. In three cases, two non-homologous chromosomes both had gained segments, which constituted a derivative chromosome, with the total number of chromosomes being 47. In the remaining 14 cases, there was a terminal deletion on one chromosome and a terminal duplication on the other, 10 of which were confirmed by karyotyping, with the total number of chromosomes being 46. In the derivative chromosome, the lost segment was replaced by a gained segment from another chromosome. Among 15 cases undergoing parental origin analysis, 12 had paternal or maternal chromosomal abnormalities, including 11 balanced translocations and 1 unbalanced translocation. The unbalanced gametes therefore may form through meiosis. In 3 cases, the parental chromosomes were normal, indicating a de novo origin. CONCLUSION: Discovery of terminal duplication and deletion or gained segments on two non-homologous chromosomes by CMA is suggestive of parental balanced translocation, which can facilitate genetic counseling and assessment the recurrence risk for subsequent pregnancies.

[Genetic analysis of a Fra(16)(q22) fragile site in a female with secondary infertility].

OBJECTIVE: To explore the genetic basis for a Fra(16)(q22)/FRA16B fragile site in a female with secondary infertility. METHODS: The 28-year-old patient was admitted to Chengdu Women's and Children's Central Hospital on October 5, 2021 due to secondary infertility. Peripheral blood sample was collected for G-banded karyotyping analysis, single nucleotide polymorphism array (SNP-array), quantitative fluorescent polymerase chain reaction (QF-PCR) and fluorescence in situ hybridization (FISH) assays. RESULTS: The patient was found to harbor 5 mosaic karyotypes involving chromosome 16 in a total of 126 cells, which yielded a karyotype of mos 46,XX,Fra(16)(q22)[42]/46,XX,del(16)(q22)[4]/47,XX,del(16),+chtb(16)(q22-qter)[4]/46,XX,tr(16)(q22)[2]/46,XX[71]. No obvious abnormality was found by SNP-array, QF-PCR and FISH analysis. CONCLUSION: A female patient with FRA16B was identified by genetic testing. Above finding has enabled genetic counseling of this patient.

Yolk sac tumor and dysgerminoma in the left gonad following gonadoblastoma in the right gonad in a 46,XY DSD with a novel SRY missense mutation: a case report.

BACKGROUND: Approximately 10-15% of 46,XY disorders of sex development (DSDs) have an SRY mutation residing in the high mobility group (HMG) domain. Here, we present a case of 46,XY DSD caused by a novel missense mutation in the HMG region of SRY rapidly progressing to germ cell tumors (GCTs). CASE PRESENTATION: An adolescent female (15 years old) exhibiting primary amenorrhea was later diagnosed as a 46,XY female with bilateral gonadal dysplasia on the basis of peripheral lymphocyte karyotype 46,XY and a novel missense mutation in SRY (c.281 T > G, p.L94R). The novel missense mutation (c.281 T > G, p.L94R) and its adjacent region were conserved. Protein structure analysis showed that the mutant site was located in the middle of the HMG domain, and the mutant protein had a diminished ability to bind to DNA. Imaging examination revealed an adolescent female with a naive uterus. Laparoscopy and initial pathological examination revealed left gonadal dysplasia and right gonadal dysplasia with gonadoblastoma (GB). Right gonadectomy by laparoscopy was performed upon consent from the patient's parents. Less than 1 year postoperatively, the left gonadal gland deteriorated as observed by the findings of a mass in the left adnexal region by pelvic MRI and serum AFP > 1000 ng/ml by serological tests, and then total hysterectomy and adnexal and left gonadectomy by laparoscopy were performed. The GCT stage was classified as stage Ic according to FIGO. At this time, pathologic examination showed that the left gonad had progressed to yolk sac tumor and dysgerminoma. The patient underwent chemotherapy post-operatively but developed type III myelosuppression and tumor recurrence several months later. CONCLUSIONS: The patient initially presented with right gonadoblastoma but chose only right gonadectomy by laparoscopy to preserve the female sex characteristics, which resulted in rapid deterioration of the left gonad and poor treatment outcomes. This case demonstrates the importance of early genetic diagnosis and treatment of 46,XY female DSD.

A 2-bp deletion mutation in SMPD1 gene leading to lysosomal acid sphingomyelinase deficiency in a Chinese consanguineous pedigree.

OBJECTIVES: Niemann-Pick disease type A (NPDA, MIM: 257200) is an autosomal recessive sphingolipidosis caused by lysosomal acid sphingomyelinase (ASM) deficiency. A cluster of genes located at chromosome 11p15 have been reported to be imprinted genes, such as TSSC5, TSSC3, and ZNF215 that flanking SMPD1 gene. It was reported by a few recent studies that SMPD1 gene was paternally imprinted and maternally preferentially expressed. CASE PRESENTATION: A five-month-old boy with severe anemia, hepatosplenomegly and bone marrow foam cells was recruited from a complete cousin couple. To determine whether boy suffered from NPDA, ASM activity and SMPD1 gene sequencing were performed on available individuals of this pedigree including the proband, his parents and sister. The ASM activities of proband and parents showed deficiency (17.7 nmol/h/g-protein) and about 50% decreased (83.3 nmol/h/g-protein), respectively, compared with normal controls (204.5 nmol/h/g-protein). SMPD1 gene sequencing in the proband revealed a homozygous mutation c.1420_1421del, which leads to an open reading frameshift and a premature stop codon. The parents and some individuals of this family demonstrated heterozygous mutation at this locus. To investigate whether SMPD1 gene is imprinted as reported previously, the expression of RNA level was studied in the whole family members available. The members with heterozygous mutation for c.1420_1421del showed that both paternal and maternal inherited alleles were expressed. CONCLUSIONS: This study reported a c.1420_1421del mutation in SMPD1 gene which caused ASM activity decrease and this locus was biallelically expressed in heterozygous subjects implicating SMPD1 is not imprinted in this family.