Testis-specific protein, Y-encoded, 1 (TSPY1) is involved in the regulation of spermatogenic efficiency via highly variable copy dosage, with dosage deficiency of the multicopy gene conferring an increased risk of spermatogenic failure. TSPY-like 1 (TSPYL1) and TSPY-like 5 (TSPYL5), two autosomal homologous genes originating from TSPY1, share a core sequence that encodes a functional nucleosome assembly protein (NAP) domain with TSPY1. To explore the potential effects of TSPYL1 and TSPYL5 on the TSPY1-related spermatogenic phenotype, we investigated the expression of these genes in 15 healthy and nonpathological human tissues (brain, kidney, liver, pancreas, thymus, prostate, spleen, muscle, leucocytes, placenta, intestine, ovary, lung, colon and testis) and explored associations between their variations and spermatogenic failure in 1558 Han Chinese men with different spermatogenic conditions, including 304 men with TSPY1 dosage deficiency. TSPYL1 and TSPYL5 were expressed in many different tissues, including the testis. An unreported rare variant that is likely pathogenic (c.1057A>G, p.Thr353Ala) and another of uncertain significance (c.1258C>T, p.Arg420Cys) in the NAP-coding sequence of TSPYL1 were observed in three spermatogenesis-impaired patients with heterozygous status. The distribution differences in the alleles, genotypes and haplotypes of eight TSPYL1- and TSPYL5-linked common variants did not reach statistical significance in comparisons of patients with spermatogenic failure and controls with normozoospermia. No difference in sperm production was observed among men with different genotypes of the variants. Similar results were obtained in men with TSPY1 dosage deficiencies. Although the distribution of missense variants of TSPYL1 found in the present and other studies suggests that patients with spermatogenic failure may have a statistically significant greater burden of rare variations in TSPYL1 relative to normozoospermic controls, the functional evidence suggests that TSPYL1 contributes to impaired spermatogenesis. Moreover, the present study suggests that the effects of TSPYL1 and TSPYL5 on the spermatogenic phenotype of TSPY1 dosage deficiency are limited, which may be due to the stability of their function resulting from high sequence conservation.
Abstract Preimplantation genetic screening (PGS) detects chromosomal aneuploidy from DNA extracted from trophectodermal biopsy of the embryos before implantation. Although a controlled study showed no difference in pregnancy rates between this invasive cell biopsy technique and a non-biopsied control group, the potential long-term damage by the current PGS method has not be completely ruled out. We therefore tested a less-invasive protocol which utilizes spent culture medium combining with blastocoel fluid (ECB) to assess chromosomal aneuploidy. We compared the new protocol with the currently employed trophectodermal biopsy method against chromosomal information obtained from the remaining embryo. We found that the new technique generated information about aneuploidy that was not entirely identical to obtained from the biopsied trophectoderm or the remaining embryo. As the origins of the DNA extracted from the three sample types were not the same, the significance and interpretation of each result would have its own meaning. The possible implications derived from the ECB results as well as those from cell biopsy were discussed. The effectiveness of this new approach in selecting the best embryo for uterine implantation awaits further long term evaluation.
Prenatal risk assessment of carriers of heterozygous X-linked deletion is a big challenge due to the phenotypic modification induced by X chromosome inactivation (XCI). Herein, we described four Chinese pedigrees with maternal-inherited X-deletions above 1 Mb. The pathogenic evaluation revealed that all X-deletions are harmful to heterozygous carriers; however, the asymptomatic pregnant female carriers in these families tremendously complicate the prognostic assessment of the unborn heterozygous embryos. In this study, we detected the XCI pattern of 11 female carriers of heterozygous X-linked deletions and 4 non-carrier females in these families and performed the first prenatal XCI pattern analysis in a fetal female carrier of heterozygous PCDH19-deletion to make risk prediction. In an adult female who lost one copy of the terminal of X chromosome short arm (Xp), a region enriching a large number of XCI escapees, the expression level of representative XCI escape genes was also detected. Pregnancy outcomes of all families were followed up or retrospected. Our research provides clinical evidence that X-deletions above 1 Mb are indeed associated with extremely skewed XCI. The favorable skewed XCI in combination with potential compensatory upregulation of XCI escapees would protect some but not all female carriers with pathogenic X-deletion from severe clinical consequences, mainly depending on the specific genetic contents involved in the deletion region. For PCDH19-disorder, the XCI pattern is considered as the decisive factor of phenotype expression, of which prenatal XCI assay using uncultured amniocytes could be a practicable way for risk prediction of this disease. These results provide valuable information about the usage of XCI assay in the prenatal risk assessment of heterozygous X-linked deletions.
Abstract Objective The present study aimed to evaluate the efficacy of a non‐invasive prenatal test (NIPT) in the detection of the sex chromosome aneuploidies (SCAs) at our prenatal diagnosis centre. Methods Among a cohort of 34,717 pregnancies, maternal plasma samples from our prenatal diagnosis centre were subject to analysis of SCAs using NIPT detection. Pregnant women with NIPT positive results of SCAs were recommended to undergo an invasive prenatal diagnosis (i.e. karyotyping and fluorescence in situ hybridization) to validate the prediction value of NIPT. Results From 34,717 clinical pregnancies, 229 (0.66%) pregnancies were identified with SCAs. Of these, 78 (34.1%) cases were positive for 45,X and 151 (65.9%) cases comprised a sex chromosome trisomy. Of the 229 positive NIPT results, 193 (84.3%) cases had accepted an invasive diagnosis involving karyotyping analysis of the amniotic fluid, which confirmed 67 cases (34.7%) as true positive, as well as 126 cases (65.3%) as false positive. The positive predictive values were 23.07%, 50%, 36% and 27.27% respectively. The remaining 36 (15.7%) cases declined a prenatal diagnosis. The termination rates of 45,X, 47,XXY, 47,XXX and 47,XYY were 20.5%,46%,12.9% and 11.5% respectively. Conclusions NIPT demonstrated a lower accuracy in predicting monosomy X than sex chromosome trisomies. After invasive testing, the fetal chromosome with 45,X and 47,XXY were terminated more often than those with 47,XXX, 47,XYY. Because NIPT is a screening test, false positive/negative cases exist, and pre‐ and post‐test counselling is essential for informing patients about the benefits and limitations of the test. Confirmatory testing of abnormal results is recommended prenatally or after birth, and the importance of confirmatory testing and benefits of early diagnosis should be addressed.
Abstract The azoopsermia factor c (AZFc) region of human Y-chromosome is an essential genomic segment for spermatogenesis with frequent non-allele homologous recombination (NAHR). Recent case-control studies on the association of the NAHR-based AZFc structural mutations with spermatogenic failure produced inconsistent results. To more precisely evaluate their spermatogenesis effects, we investigated the correlation between the subdivided AZFc mutations and sperm production in 3,439 Han Chinese males. Our results showed that both partial AZFc deletion-only and primary duplication mutation presented a significant risk for decreased sperm production. Restoration of the reduced dosage of the AZFc content to the normal level had a milder effect, whereas an overdose of the AZFc content arising from multiple duplications of a partial AZFc-deleted structure produced a more serious consequence compared to the partial deletion-only mutation. Additionally, the AZFc-mutated structures with excessive NAHR-substrate showed a notably negative effect on spermatogenesis. These results suggest that the recurrent NAHR-based AZFc mutations may be associated with decreased spermatogenesis efficiency in present population. More significantly, our finding implies that the overdose of AZFc NAHR-substrate may produce an additional risk for the massive AZFbc deletions during the multi-stage division process of germ cells and thus impair the global spermatogenesis efficiency in the carriers.
Spermatogenic failure characterized by impaired sperm production is a common multifactorial disease with molecular and cytogenetic causes for its extreme phenotype that include azoospermia and severe oliogzoospermia. Recently, a high-resolution array-comparative genomic hybridization analysis of the X chromosome and a subsequent cohort study revealed three X-linked microdeletions (CNV64, CNV67, and CNV69) that were associated with decreased sperm production in a mixed group that included Spanish and Italian males. To confirm their spermatogenic effect, we examined the hemizygous deletions and copy dosage of the MAGE family member A9 (MAGEA9) gene, which is a potential X-linked candidate for the CNV67-related spermatogenic phenotype, to investigate their association with spermatogenic failure in 1722 Han males from southwest China. The individuals in this group consisted of 884 patients with idiopathic azoospermia/oliogzoospermia and 838 controls with normozoospermia. Our results showed that both CNV64 and CNV69 were more common in patients than in controls. Similar to that reported previously, the CNV67 was also identified as being specific to spermatogenic failure in our population, although it was rare. More importantly, the paralog ratio tests and sequence family variant analyses provided evidence that the CNV67 might cause a partial deletion of the proximal copy of the MAGEA9 and suggests that CNV67-related spermatogenic failure may be attributed to the functional defect of the Cancer/Testis gene. Our findings highlight the potential of the Xq-linked CNV67 to serve as a novel detection target in the etiological diagnosis of spermatogenic failure and male infertility, although its pathogenic mechanism remains to be elucidated.
Background The prognosis of hepatocellular carcinoma (HCC) after hepatectomy involves many factors. Previous studies have evaluated the separate influences of single factors; few have considered the combined influence of various factors. This paper combines the Bayesian network (BN) with importance measures to identify key factors that have significant effects on survival time. Methods A dataset of 299 patients with HCC after hepatectomy was studied to establish a BN using a tree-augmented naïve Bayes algorithm that could mine relationships between factors. The composite importance measure was applied to rank the impact of factors on survival time. Results 124 patients (>10 months) and 77 patients (≤10 months) were correctly classified. The accuracy of BN model was 67.2%. For patients with long survival time (>10 months), the true-positive rate of the model was 83.22% and the false-positive rate was 48.67%. According to the model, the preoperative alpha fetoprotein (AFP) level and postoperative performance of transcatheter arterial chemoembolization (TACE) were independent factors for survival of HCC patients. The grade of preoperative liver function reflected the tendency for postoperative complications. Intraoperative blood loss, tumor size, portal vein tumor thrombosis (PVTT), time of clamping the porta hepatis, tumor number, operative method, and metastasis were dependent variables in survival time prediction. PVTT was considered the most significant for the prognosis of survival time. Conclusions Using the BN and importance measures, PVTT was identified as the most significant predictor of survival time for patients with HCC after hepatectomy.
'/%3e%3cuse xlink:href='%23a' transform='rotate(23.036 .093 25.536)'/%3e%3cuse xlink:href='%23a' transform='rotate(45.87 1.273 16.18)'/%3e%3cuse xlink:href='%23a' transform='rotate(69.945 .996 12.078)'/%3e%3cuse xlink:href='%23a' transform='rotate(20.66 -19.689 31.932)'/%3e%3c/svg%3e)