Your search keyword '"Sperm Tail metabolism"' showing total 12 results

1. Homozygous ACTL9 mutations cause irregular mitochondrial sheath arrangement and abnormal flagellum assembly in spermatozoa and male infertility.

Author

Li Q, Huang Y, Zhang S, Gong F, Lu G, Lin G, and Dai J

Subjects

Male, Humans, Mice, Animals, Exome Sequencing, Pedigree, Adult, Semen Analysis, Infertility, Male genetics, Infertility, Male pathology, Homozygote, Spermatozoa pathology, Spermatozoa ultrastructure, Spermatozoa metabolism, Mitochondria genetics, Mitochondria ultrastructure, Mitochondria pathology, Mitochondria metabolism, Mutation genetics, Sperm Tail pathology, Sperm Tail metabolism, Sperm Tail ultrastructure, Flagella genetics, Flagella ultrastructure, Flagella metabolism, Sperm Motility genetics

Abstract

Purpose: To identify novel variants in ACTL9 and new phenotypes responsible for male infertility., Methods: Genomic DNA was extracted from peripheral blood samples for whole-exome sequencing (WES). Computer-assisted sperm analysis (CASA) was used to test the motility of spermatozoa. The ultrastructure of flagella and the mitochondrial sheath were assessed by scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Immunostaining was used to validate the localization and expression of ACTL9 and ACTL7A. An Actl9-mutated mouse model was used to validate the phenotypes by CASA and TEM., Results: We identified novel homozygous variants in ACTL9 in two independent Chinese families. Spermatozoa with ACTL9 mutations showed decreased CASA parameters and a higher proportion of spermatozoa with abnormal morphology, exhibiting coiled flagella and a thickened midpiece. The spermatozoa were characterized by chaotic or irregular '9+2' structures and irregular mitochondrial sheath arrangements in the flagellum. Actl9 knock-in mice also showed abnormal CASA parameters and irregular '9+2' structures in flagella., Conclusions: Our study expands the mutation spectrum and phenotypic spectrum of ACTL9., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

2. Achilles' heel of male infertility: good LEGO players.

Author

Xuan Y and Duan Y

Subjects

Male, Humans, Spermatozoa, Sperm Tail pathology, Sperm Tail metabolism, Microtubules genetics, Microtubules metabolism, Infertility, Male genetics, Infertility, Male pathology, Sperm Motility genetics

Abstract

In a recent journal article, Chen et al. identified a germ cell-specific cofactor, STYXL1, associated with male fertility function. Deletion of STYXL1 prevents the LEGO player CCT complex from properly folding key microtubule proteins of the sperm flagellum, which affects sperm motility and male fertility function., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

3. Identification of novel homozygous asthenoteratospermia-causing ARMC2 mutations associated with multiple morphological abnormalities of the sperm flagella.

Author

Zhao S, Liu Q, Su L, Meng L, Tan C, Wei C, Zhang H, Luo T, Zhang Q, Tan YQ, Tu C, Chen H, and Gao X

Subjects

Adult, Humans, Male, Asian People genetics, HEK293 Cells, Mutation genetics, Pedigree, Asthenozoospermia genetics, Asthenozoospermia pathology, Exome Sequencing, Homozygote, Infertility, Male genetics, Infertility, Male pathology, Sperm Tail pathology, Sperm Tail ultrastructure, Sperm Tail metabolism, Spermatozoa pathology, Spermatozoa ultrastructure

Abstract

Purpose: To identify the genetic causes of multiple morphological abnormalities in sperm flagella (MMAF) and male infertility in patients from two unrelated Han Chinese families., Methods: Whole-exome sequencing was conducted using blood samples from the two individuals with MMAF and male infertility. Hematoxylin and eosin staining and scanning electron microscopy were performed to evaluate sperm morphology. Ultrastructural and immunostaining analyses of the spermatozoa were performed. The HEK293T cells were used to confirm the pathogenicity of the variants., Results: We identified two novel homozygous missense ARMC2 variants: c.314C > T: p.P105L and c.2227A > G: p.N743D. Both variants are absent or rare in the human population genome data and are predicted to be deleterious. In vitro experiments indicated that both ARMC2 variants caused a slightly increased protein expression. ARMC2-mutant spermatozoa showed multiple morphological abnormalities (bent, short, coiled, absent, and irregular) in the flagella. In addition, the spermatozoa of the patients revealed a frequent absence of the central pair complex and disrupted axonemal ultrastructure., Conclusion: We identified two novel ARMC2 variants that caused male infertility and MMAF in Han Chinese patients. These findings expand the mutational spectrum of ARMC2 and provide insights into the complex causes and pathogenesis of MMAF., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

4. Mutational landscape of DNAH1 in Chinese patients with multiple morphological abnormalities of the sperm flagella: cohort study and literature review.

Author

Yu W, An M, Xu Y, Gao Q, Lu M, Li Y, Zhang L, Wang H, and Xu Z

Subjects

Abnormalities, Multiple genetics, Abnormalities, Multiple pathology, Adult, Asian People genetics, China epidemiology, Cohort Studies, Humans, Infertility, Male genetics, Infertility, Male pathology, Male, Oligospermia genetics, Oligospermia pathology, Phenotype, Sperm Tail metabolism, Spermatozoa metabolism, Young Adult, Abnormalities, Multiple epidemiology, Dyneins genetics, Infertility, Male epidemiology, Mutation, Oligospermia epidemiology, Sperm Tail pathology, Spermatozoa pathology

Abstract

Purpose: Multiple morphological abnormalities of the sperm flagella (MMAF) are important causes of male infertility. Mutations in DNAH1 are the main causative factors proven so far. We aim to determine the mutational landscape of DNAH1 in Chinese patients with MMAF., Methods: Forty-one Chinese patients with MMAF were enrolled and underwent a 10-gene next-generation sequencing panel screening., Results: Only the DNAH1 gene was found to have mutations in 12 of these unrelated individuals (29%). Combining published data from two other cohorts of Chinese men with MMAF, we suggest that p.P3909fs*33, p.R868X, p.Q1518X, p.E3284K, and p.R4096L are hotspot mutations. A polymorphism-rs12163565 (G>A)- showed linkage to p.P3909fs*33, suggesting that this involved a founder effect. Four of the 12 patients with DNAH1 mutations were able to use intracytoplasmic sperm injection with their partners and all were successful in obtaining embryos., Conclusions: Hotspot mutations were identified for Chinese patients with MMAF. MMAF sub-phenotypes might be associated with different combinations of DNAH1 mutations., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2021

5. A novel splicing variant in DNAH8 causes asthenozoospermia.

Author

Zhou Z, Mao X, Chen B, Mu J, Wang W, Li B, Yan Z, Dong J, Li Q, Kuang Y, Wang L, Wu L, and Sang Q

Subjects

Adult, Alternative Splicing genetics, Asthenozoospermia pathology, Homozygote, Humans, Infertility, Male pathology, Male, Mutation genetics, Sperm Injections, Intracytoplasmic, Sperm Motility genetics, Sperm Tail metabolism, Sperm Tail pathology, Spermatozoa metabolism, Spermatozoa pathology, Exome Sequencing, Young Adult, Asthenozoospermia genetics, Axonemal Dyneins genetics, Genetic Predisposition to Disease, Infertility, Male genetics

Abstract

Purpose: To identify the genetic factors responsible for asthenozoospermia, which is a major cause of male infertility characterized by immotile and malformed spermatozoa., Methods: Whole-exome sequencing was performed in two brothers from a family with asthenozoospermia to identify pathogenic variants. The functional effect of the identified variant was investigated in HEK293T cells using a minigene assay., Results: We identified a novel homozygous splicing variant c.6311-2A>G in DNAH8 from two affected brothers belonging to the same consanguineous family. The splicing variant altered a consensus splice acceptor site of DNAH8 intron 44, which led to the deletion of exon 45 and resulted in a frameshift and a predicted truncated protein (p.G2104Efs*19). Although most spermatozoa from the patients presented with reduced sperm motility, intracytoplasmic sperm injection was able to overcome the inability of the spermatozoa to reach the ovum and thus produce a healthy child for the proband., Conclusions: This finding expands the mutational spectrum of DNAH8, making it a potential genetic diagnostic marker for those suffering from primary male infertility.

Published

2021

6. A novel homozygous mutation in WDR19 induces disorganization of microtubules in sperm flagella and nonsyndromic asthenoteratospermia.

Author

Ni X, Wang J, Lv M, Liu C, Zhong Y, Tian S, Wu H, Cheng H, Gao Y, Tan Q, Chen B, Li Q, Song B, Wei Z, Zhou P, He X, Zhang F, and Cao Y

Subjects

Adult, Asthenozoospermia pathology, Exome genetics, Female, Homozygote, Humans, Infertility, Male pathology, Male, Microtubules genetics, Microtubules pathology, Mutation genetics, Pregnancy, Sperm Injections, Intracytoplasmic, Sperm Tail pathology, Spermatozoa pathology, Exome Sequencing, Asthenozoospermia genetics, Cytoskeletal Proteins genetics, Infertility, Male genetics, Intracellular Signaling Peptides and Proteins genetics, Sperm Tail metabolism

Abstract

Background: Asthenoteratospermia with multiple morphological abnormalities in the sperm flagella (MMAF) is a significant cause of male infertility. WDR19 is a core component in the IFT-A complex and has a critical role in intraflagellar transport. However, the role of WDR19 mutations in male infertility has yet to be examined., Methods and Results: We performed whole exome sequencing (WES) for 65 asthenoteratospermia individuals and identified a proband who carried a homozygous WDR19 (c.A3811G, p.K1271E) mutation from a consanguineous family. Systematic examinations, including CT scanning and retinal imaging, excluded previous ciliopathic syndromes in the proband. Moreover, semen analysis of this patient showed that the progressive rate decreased to zero, and the sperm flagella showed multiple morphological abnormalities. Scanning and transmission electron microscopy assays indicated that the ultrastructure of sperm flagella in the patient was completely destroyed, while immunofluorescence revealed that WDR19 was absent from the sperm neck and flagella. Moreover, IFT140 and IFT88, predicted to interact with WDR19 directly, were mis-allocated in the WDR19-mutated sperm. Notably, the MMAF subject harboring WDR19 variant and his partner successfully achieved clinical pregnancy through intracytoplasmic sperm injection (ICSI)., Conclusions: We identified WDR19 as a novel pathogenic gene for male infertility caused by asthenoteratospermia in the absence of other ciliopathic phenotypes, and that patients carrying WDR19 variant can have favorable pregnancy outcomes following ICSI.

Published

2020

7. Novel DNAAF6 variants identified by whole-exome sequencing cause male infertility and primary ciliary dyskinesia.

Author

Wang Y, Tu C, Nie H, Meng L, Li D, Wang W, Zhang H, Lu G, Lin G, Tan YQ, and Du J

Subjects

Adult, Axoneme genetics, Axoneme pathology, Ciliary Motility Disorders pathology, Exome genetics, Female, Flagella genetics, Frameshift Mutation genetics, HEK293 Cells, Hemizygote, Humans, Infertility, Male pathology, Male, Sperm Injections, Intracytoplasmic methods, Sperm Tail metabolism, Sperm Tail pathology, Spermatozoa pathology, Ciliary Motility Disorders genetics, Infertility, Male genetics, Intracellular Signaling Peptides and Proteins genetics, Exome Sequencing

Abstract

Purpose: To identify the genetic cause of patients with primary ciliary dyskinesia (PCD) and male infertility from two unrelated Han Chinese families., Methods: We conducted whole-exome sequencing of three individuals with PCD and male infertility from two unrelated Chinese families, and performed a targeted look-up for DNAAF6 variants in our previously reported cohort of 442 individuals (219 with isolated oligoasthenospermia and 223 fertile controls). Ultrastructural and immunostaining analyses of patients' spermatozoa were performed. The pathogenicity of the variants was validated using patient's spermatozoa and HEK293T cells. Intracytoplasmic sperm injection (ICSI) treatment was conducted in two patients., Results: We identified one novel hemizygous frameshift variant (NM_173494, c.319_329del: p.R107fs) of DNAAF6 gene (previously named PIH1D3) in family 1 and one novel hemizygous missense variant (c.290G>T: p.G97V) in family 2. No hemizygous deleterious variants in DNAAF6 were detected in the control cohort of 442 individuals. Ultrastructural and immunostaining analyses of patients' spermatozoa showed the absence of outer and inner dynein arms in sperm flagella. Both variants were proven to lead to DNAAF6 protein degradation in HEK293T cells. Both patients carrying DNAAF6 variants underwent one ICSI cycle and delivered one healthy child each., Conclusion: We identified novel DNAAF6 variants causing male infertility and PCD in Han Chinese patients. This finding extended the spectrum of variants in DNAAF6 and revealed new light on the impact of DNAAF6 variants in sperm flagella.

Published

2020

8. Characterization of CCDC103 expression profiles: further insights in primary ciliary dyskinesia and in human reproduction.

Author

Pereira R, Oliveira ME, Santos R, Oliveira E, Barbosa T, Santos T, Gonçalves P, Ferraz L, Pinto S, Barros A, Oliveira J, and Sousa M

Subjects

Axoneme genetics, Ciliary Motility Disorders pathology, Dyneins metabolism, Female, Humans, Infertility, Male etiology, Kartagener Syndrome pathology, Male, Middle Aged, Reproduction, Situs Inversus genetics, Situs Inversus pathology, Sperm Tail metabolism, Axoneme pathology, Ciliary Motility Disorders genetics, Infertility, Male pathology, Kartagener Syndrome genetics, Microtubule-Associated Proteins genetics, Mutation, Sperm Tail pathology

Abstract

Propose: To study CCDC103 expression profiles and understand how pathogenic variants in CCDC103 affect its expression profile at mRNA and protein level., Methods: To increase the knowledge about the CCDC103, we attempted genotype-phenotype correlations in two patients carrying novel homozygous (missense and frameshift) CCDC103 variants. Whole-exome sequencing, quantitative PCR, Western blot, electron microscopy, immunohistochemistry, immunocytochemistry, and immunogold labelling were performed to characterize CCDC103 expression profiles in reproductive and somatic cells., Results: Our data demonstrate that pathogenic variants in CCDC103 gene negatively affect gene and protein expression in both patients who presented absence of DA on their axonemes. Further, we firstly report that CCDC103 is expressed at different levels in reproductive tissues and somatic cells and described that CCDC103 protein forms oligomers with tissue-specific sizes, which suggests that CCDC103 possibly undergoes post-translational modifications. Moreover, we reported that CCDC103 was restricted to the midpiece of sperm and is present at the cytoplasm of the other cells., Conclusions: Overall, our data support the CCDC103 involvement in PCD and suggest that CCDC103 may have different assemblies and roles in cilia and sperm flagella biology that are still unexplored.

Published

2019

9. Human OVGP1 enhances tyrosine phosphorylation of proteins in the fibrous sheath involving AKAP3 and increases sperm-zona binding.

Author

Zhao Y and Kan FWK

Subjects

Animals, Female, Fertilization in Vitro, Humans, Male, Mice, Oocytes growth & development, Oocytes metabolism, Oviducts metabolism, Phosphorylation, Reproduction genetics, Semen metabolism, Sperm Tail metabolism, Sperm-Ovum Interactions genetics, Tyrosine metabolism, Zona Pellucida metabolism, A Kinase Anchor Proteins genetics, Glycoproteins genetics, Sperm Capacitation genetics, Spermatozoa metabolism

Abstract

Purpose: To investigate if the recombinant human oviduct-specific glycoprotein (rHuOVGP1)-enhanced tyrosine-phosphorylated (pY) proteins are components of specific structure(s) of the sperm tail and if rHuOVGP1 binds to the oocyte and enhances sperm-egg binding., Methods: Immunofluorescent staining and confocal microscopy were performed to examine the localization of pY proteins, outer dense fiber (ODF), and A-Kinase Associated Protein 3 (AKAP3) in human sperm during capacitation. Western blot and immunoprecipitation were employed to analyze protein levels of pY proteins and AKAP3. Immunofluorescent staining was performed to examine the binding of rHuOVGP1 to human oocytes. The effect of rHuOVGP1 on enhancing sperm-zona binding was examined using hemizona assay., Results: pY proteins were detected mainly in the fibrous sheath (FS) surrounding the ODF with a relatively weak immunoreaction in the neck and mid-piece. Western blot analysis revealed co-migration of the pY 105 kDa protein with AKAP3, which was further confirmed by immunoprecipitation correlating immunofluorescent results of co-localization of pY proteins with AKAP3 in the sperm tail. rHuOVGP1 binds specifically to the zona pellucida (ZP) of human oocytes. Prior incubation of sperm and/or ZP with rHuOVGP1 increased sperm-egg binding., Conclusions: The present study revealed that one of the major rHuOVGP1-enhanced pY proteins could be AKAP3 of the FS and that rHuOVGP1 is capable of binding to human ZP and its presence in the medium results in an increase in sperm-zona binding. Supplement of rHuOVGP1 in in vitro fertilization media could be beneficial for enhancement of the fertilizing ability of human sperm.

Published

2019

10. Sodium-Hydrogen-Exchanger expression in human sperm and its relationship with semen parameters.

Author

Zhang Z, Yang Y, Wu H, Zhang H, Zhang H, Mao J, Liu D, Zhao L, Lin H, Tang W, Hong K, and Jiang H

Subjects

Asthenozoospermia genetics, Asthenozoospermia pathology, Gene Expression Regulation, Developmental, Humans, Male, Semen physiology, Sperm Count, Sperm Motility genetics, Sperm Tail metabolism, Sperm Tail physiology, Spermatozoa growth & development, Acrosome Reaction genetics, Semen metabolism, Sodium-Hydrogen Exchangers genetics, Spermatozoa metabolism

Abstract

Purpose: Sperm-specific sodium-hydrogen exchanger (sNHE) is essential to maintain sperm normal function in mice; however, its role in human sperm has not been clarified to date. The aim of this study is to investigate the expression pattern of sNHE in human spermatozoa and its relationship with sperm functional parameters., Method: Semen samples from 68 asthenozoospermic and 61 normozoospermic men were analyzed for sperm concentration, motility, and acrosome reaction, and high motile spermatozoa were collected by swim-up method. The expression of sNHE in spermatozoa was detected by Western blot and immunofluorescence staining. The relationship between sNHE expression and sperm parameters was assessed., Results: We identified sNHE is mainly localized to the principal piece of the human sperm tail. The expression of sNHE was positively correlated with sperm concentration, total number, and progressive motility. Moreover, sNHE expression was upregulated in swim-up sperm and associated with most of sperm motility parameters including straight line velocity and curvilinear velocity. Our results also showed that sNHE expression is decreased in sperm from patients with asthenozoospermia compared with that from normal controls. However, no correlation was found between sNHE expression and acrosome reaction in spermatozoa., Conclusions: The expression pattern of sNHE suggested that this protein may be involved in the regulation of sperm motility, and aberration of its expression in sperm may contribute to the pathogenesis of asthenozoospermia.

Published

2017

11. The impact of RABL2B gene (rs144944885) on human male infertility in patients with oligoasthenoteratozoospermia and immotile short tail sperm defects.

Author

Hosseini SH, Sadighi Gilani MA, Meybodi AM, and Sabbaghian M

Subjects

Asthenozoospermia pathology, Gene Frequency, Genetic Variation, Humans, Infertility, Male pathology, Male, Oligospermia pathology, Sperm Tail metabolism, Sperm Tail pathology, Spermatozoa pathology, Asthenozoospermia genetics, Infertility, Male genetics, Oligospermia genetics, rab GTP-Binding Proteins genetics

Abstract

Purpose: Male infertility is a multifactorial disorder with impressively genetic basis; besides, sperm abnormalities are the cause of numerous cases of male infertility. In this study, we evaluated the genetic variants in exons 4 and 5 and their intron-exon boundaries in RABL2B gene in infertile men with oligoasthenoteratozoospermia (OAT) and immotile short tail sperm (ISTS) defects to define if there is any association between these variants and human male infertility., Methods: To this purpose, DNA was extracted from peripheral blood and after PCR reaction and sequencing, the results of sequenced segments were analyzed. In the present study, 30 infertile men with ISTS defect and 30 oligoasthenoteratozoospermic infertile men were recruited. All men were of Iranian origin and it took 3 years to collect patient's samples with ISTS defect., Results: As a result, the 50776482 delC intronic variant (rs144944885) was identified in five patients with oligoasthenoteratozoospermia defect and one patient with ISTS defect in heterozygote form. This variant was not identified in controls. The allelic frequency of the 50776482 delC variant was significantly statistically higher in oligoasthenoteratozoospermic infertile men (p < 0.05). Bioinformatics studies suggested that the 50776482 delC allele would modify the splicing of RABL2B pre-mRNA. In addition, we identified a new genetic variant in RABL2B gene., Conclusions: According to the present study, 50776482 delC allele in the RABL2B gene could be a risk factor in Iranian infertile men with oligoasthenoteratozoospermia defect, but more genetic studies are required to understand the accurate role of this variant in pathogenesis of human male infertility.

Published

2017

12. A proteomic analysis on human sperm tail: comparison between normozoospermia and asthenozoospermia.

Author

Hashemitabar M, Sabbagh S, Orazizadeh M, Ghadiri A, and Bahmanzadeh M

Subjects

Adult, Biomarkers metabolism, Cell Fractionation, Humans, Male, Proteins chemistry, Proteins isolation & purification, Proteomics, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Sperm Motility, Asthenozoospermia metabolism, Proteins metabolism, Sperm Tail metabolism

Abstract

Purpose: Asthenozoospermia is a common cause of human male infertility characterized by reduced sperm motility. The molecular mechanism that impairs sperm motility is not fully understood. This study proposed to identify novel biomarkers by focusing on sperm tail proteomic analysis of asthenozoospermic patients., Methods: Sperm were isolated from normozoospermic and asthenozoospermic semen samples. Tail fractions were obtained by sonication followed by Percoll gradient. The proteins were extracted by solubilization and subjected to two-dimensional gel electrophoresis (2-DE); then, the spots were analyzed using Image Master 2D Platinum software. The significantly increased/decreased amounts of proteins in the two groups were exploited by matrix-assisted laser desorption-ionization time-of-flight/time-of-flight (MALDI-TOF-TOF) mass spectrometry., Results: Three hundred ninety protein spots were detected in both groups. Twenty-one protein spots that had significantly altered amounts (p < 0.05) were excised and exploited using MALDI-TOF-TOF mass spectrometry. They led to the identification of the following 14 unique proteins: Tubulin beta 2B; glutathione S-transferase Mu 3; keratin, type II cytoskeletal 1; outer dense fiber protein 2; voltage-dependent anion-selective channel protein 2; A-kinase anchor protein 4; cytochrome c oxidase subunit 6B; sperm protein associated with the nucleus on the X chromosome B; phospholipid hydroperoxide glutathione peroxidase-mitochondrial; isoaspartyl peptidase/L-asparaginase; heat shock-related 70 kDa protein 2; stress-70 protein, mitochondrial; glyceraldehyde-3-phosphate dehydrogenase, testis-specific and clusterin., Conclusion: Fourteen proteins present in different amounts in asthenozoospermic sperm tail samples were identified, four of which are reported here for the first time. These proteins might be used as markers for the better diagnosis of sperm dysfunctions, targets for male contraceptive development, and to predict embryo quality.

Published

2015