Assessment of correlation between asthenozoospermia and mitochondrial DNA mutations in Egyptian infertile men

Elrahman, Mohamed M. Abd; Makawy, Aida I. El; Hassanane, M. S.; Alam, Sally S.; Hassan, Neveen A.; Amer, Medhat

doi:10.1186/s43141-020-00111-0

Cited by 12 publications

(13 citation statements)

References 62 publications

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“…The rs2001031 (A8860G) and rs2000975 (A8701) were reported by a current study in which they were found to make a change in the amino acid sequence from threonine to Alanine and they were signi cantly associated with asthenozoospermia. In this study, we have reported the same SNPs but statistically, they were not calculated as signi cant variations although they both cause a missense variation in the coding portion (Abd Elrahman et al, 2021).…”

Section: Discussionmentioning

confidence: 71%

“…Reactive oxygen species (ROS) are byproducts of the mitochondrial respiratory chain, the mutation rate generated by ROS is 10-100 times greater than nuclear DNA because the mitochondrial DNA is located in the mitochondrial matrix (Shamsi et al, 2008). The mammalian sperm consists of about 22 to 75 mitochondria located in the midpiece of the sperm, ensuring proper function of the agella and normal sperm motility for an e cient fertilization process (Abd Elrahman et al, 2021). Therefore, any genetic alteration of this limited number of mitochondria can be related to the improper function of the sperm.…”

Section: Introductionmentioning

confidence: 99%

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A lack of a definite correlation between male infertility and single nucleotide polymorphisms in sperm mitochondrial genes MT-CO3, MT-ATP6 and MT-ATP8

Zoubi

Hammadeh

Dahadhah

et al. 2022

Preprint

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An inability of a man to conceive in a potentially fertile woman is defined as male infertility. It is reported that 30–40% of males in their reproductive years have abnormalities in sperm production, either qualitatively or quantitatively, or both. However, genetic factors result in up to 15% of male infertility cases. The present study aimed to analyze the possible correlations between infertility and polymorphisms in sperm mitochondrial CO3, ATP6 and ATP8 genes in subfertile men. For 67 subfertile and 44 fertile male samples, Sanger sequencing of selected mitochondrial DNA genes was done. A total of twelve SNPs in the MT-CO3 gene: rs2248727, rs7520428, rs3134801, rs9743, rs28358272, rs2853824, rs2856985, rs2854139, rs41347846, rs28380140, rs3902407, and 28411821, fourteen SNPs in the MT-ATP6: rs2001031, rs2000975, rs2298011, rs7520428, rs9645429, rs112660509, rs6650105, rs6594033, rs6594034, rs6594035, rs3020563, rs28358887, rs2096044, and rs9283154, and ten SNPs in the MT-ATP8: rs9285835, rs9285836, rs9283154, rs8179289, rs121434446, rs1116906, rs2153588, rs1116905, rs1116907, and rs3020563 were detected in the case and control groups at different nucleotide positions. Only the rs7520428 in the MT-CO3 and MT-ATP6 showed a statistically significant difference between subfertile and fertile groups in the genotype’s and allele’s frequency test (P < 0.0001 for both). The results of our study suggest that male infertility is linked with rs7520428 SNP in MT-CO3 and MT-ATP6. The studied polymorphic variations in the MT-ATP8 gene, on the contrary, did not reveal any significant association with male infertility

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Section: Discussionmentioning

confidence: 71%

Section: Introductionmentioning

confidence: 99%

A lack of a definite correlation between male infertility and single nucleotide polymorphisms in sperm mitochondrial genes MT-CO3, MT-ATP6 and MT-ATP8

Zoubi

Hammadeh

Dahadhah

et al. 2022

Preprint

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“…A recent study revealed five non-synonymous SNPs in nicotinamide adenine dinucleotide hydrogen (NADH) dehydrogenase 1 gene (ND1) located at nucleotides T3398C, T3821C, G4048A, T4169TT, and T4216C. Since secondary structure prediction of T3398C and T3821C proteins revealed a negative change in protein function, these alterations could result in sperm motility decline and male infertility [ 32 ].…”

Section: Discussionmentioning

confidence: 99%

Association between the single nucleotide variants of the mitochondrial cytochrome B gene (MT-CYB) and the male infertility

et al. 2022

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Background Idiopathic male infertility can be attributed to genetic predispositions that affect sperm performance and function. Genetic alterations in the mitochondrial DNA (mtDNA) have been linked to certain types of male infertility and abnormal sperm function. Mutations in the mitochondrial cytochrome B (MT-CYB) gene might lead to some deficiencies in mitochondrial function. Thus, in the current study, we aimed to investigate the effect of mutations in the MT-CYB gene on sperm motility and male infertility. Methods and results Semen specimens were collected from 111 men where 67 men were subfertile and 44 were fertile. QIAamp DNA Mini Kit and REPLI-g Mitochondrial DNA Kit from QIAGEN were used to isolate and amplify the mitochondrial DNA. Followed by PCR and Sanger sequencing for the target sequence in the MT-CYP gene. Sequencing of the MT-CYB gene revealed a total of thirteen single nucleotide polymorphisms (SNPs). Eight SNPs were non-synonymous variant (missense variant) including: rs2853508, rs28357685, rs41518645, rs2853507, rs28357376, rs35070048, rs2853506, and rs28660155. While five SNPs were Synonymous variant: rs527236194, rs28357373, rs28357369, rs41504845, and rs2854124. Among these SNPs, three variants showed a significant difference in the frequency of the genotypes between subfertile and fertile groups: rs527236194 (T15784C) (P = 0.0005), rs28357373 (T15629C) (P = 0.0439), and rs41504845 (C15833T) (P = 0.0038). Moreover, two SNPs showed a significant association between allelic frequencies of rs527236194 (T15784C) (P = 0.0014) and rs41504845 (C15833T) (P = 0.0147) and male subfertility. Conclusion The current study showed a significant association between the MT-CYB gene polymorphisms and the development of male infertility. In particular, rs527236194, rs28357373 and rs41504845 variants were found to be the most related to the subfertility group. Further studies on larger and other populations are required to reveal the exact role of this gene in the development of male infertility. In addition, functional studies will be helpful to elucidate the molecular impact of the MT-CYP polymorphisms on mitochondrial function.

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“…Genetic factors involved in male infertility manifest as chromosomal disorders, mitochondrial DNA (mtDNA) mutations, monogenic disorders, multifactorial disorders, and endocrine disorders of genetic origin. Male infertility is often related to chromosome abnormalities or other genetic factors (Holyoake et al 2002;Nakada et al 2006; Elrahman et al 2021;Thomas et al 2021). DNAH6 (Dynein Axonemal Heavy Chain 6) is a protein-coding gene, part of the microtubule-associated motor protein and is a testis-speci c-expressed protein, located in the neck region of the spermatozoa, required for the function of cilia function in spermatozoa (Li et al 2017).…”

Section: Introductionmentioning

confidence: 99%

In-silico molecular characterization of DNAH6 and ATPase6 (Mitochondrial DNA) genes in asthenozoospermia patients in the northern region of India

Kumar

Jeena

Tempe

et al. 2023

Preprint

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Background Male infertility due to spermatogenesis defects affects millions of men worldwide. However, the genetic etiology of the vast majority remains unclear. The present study was undertaken to assess the association of DNAH6 and ATPase6 genes in asthenozoospermia patients in the northern region of India.Methods A total of 60 semen samples were collected for the study, of which 30 were from the case group and 30 were from the control group. The semen samples for the case group (asthenozoospermia) and control groups were collected from IVF and Reproductive Biology Centre, Maulana Azad Medical College, New Delhi. Sperm count and motility were classified as per World Health Organization (WHO 2010) protocol. A total genomic DNA was extracted as per the stranded TRIZOL method with little modification.Results In-vitro molecular characterizations of DNAH6 and ATPase6 genes in both groups were checked by Polymerase Chain Reaction (PCR). The 675bp and 375bp amplicons were amplified using PCR for ATPase6 and DNAH6 genes. Our study results showed a significant (P ≤ 0.05) null deletion of DNAH6 and ATPase6 genes in asthenozoospermia patients as compared to the control. We found the significant null deletion of DNAH6 in case 45.0%, and the control group was 11.7%. However, in the case of APTase6, it was 26.7% and 10.0%, respectively.Conclusions Our study concluded that the presence of DHAH6 and ATPase6 genes had a significant impact on male infertility.

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Assessment of correlation between asthenozoospermia and mitochondrial DNA mutations in Egyptian infertile men

Cited by 12 publications

References 62 publications

A lack of a definite correlation between male infertility and single nucleotide polymorphisms in sperm mitochondrial genes MT-CO3, MT-ATP6 and MT-ATP8

A lack of a definite correlation between male infertility and single nucleotide polymorphisms in sperm mitochondrial genes MT-CO3, MT-ATP6 and MT-ATP8

Association between the single nucleotide variants of the mitochondrial cytochrome B gene (MT-CYB) and the male infertility

In-silico molecular characterization of DNAH6 and ATPase6 (Mitochondrial DNA) genes in asthenozoospermia patients in the northern region of India

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