Double-stranded sperm DNA damage is a cause of delay in embryo development and can impair implantation rates

Casanovas, A; Ribas-Maynou, Jordi; Lara-Cerrillo, Sandra; Jiménez-Macedo, A.R.; Hortal, Olga; Benet, Jordi; Carrera, Joan; García-Peiró, Agustín

doi:10.1016/j.fertnstert.2018.11.035

Cited by 107 publications

(94 citation statements)

References 72 publications

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“…Both SSBs and DSBs present in sperm DNA can affect the overall fertility and reproductive outcomes. DSBs negatively affect embryo kinetics and implantation rates, and have been associated with recurrent miscarriages in couples without a female factor [116,117]. In contrast, SSBs do not significantly impact embryo development or implantation rates [117].…”

Section: Sperm Dna Fragmentation: Single-versus Double-strand Breaksmentioning

confidence: 99%

Sperm DNA Fragmentation: A New Guideline for Clinicians

Agarwal

Majzoub

Baskaran

et al. 2020

World J Mens Health

187

144

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Sperm DNA integrity is crucial for fertilization and development of healthy offspring. The spermatozoon undergoes extensive molecular remodeling of its nucleus during later phases of spermatogenesis, which imparts compaction and protects the genetic content. Testicular (defective maturation and abortive apoptosis) and post-testicular (oxidative stress) mechanisms are implicated in the etiology of sperm DNA fragmentation (SDF), which affects both natural and assisted reproduction. Several clinical and environmental factors are known to negatively impact sperm DNA integrity. An increasing number of reports emphasizes the direct relationship between sperm DNA damage and male infertility. Currently, several assays are available to assess sperm DNA damage, however, routine assessment of SDF in clinical practice is not recommended by professional organizations. This article provides an overview of SDF types, origin and comparative analysis of various SDF assays while primarily focusing on the clinical indications of SDF testing. Importantly, we report four clinical cases where SDF testing had played a significant role in improving fertility outcome. In light of these clinical case reports and recent scientific evidence, this review provides expert recommendations on SDF testing and examines the advantages and drawbacks of the clinical utility of SDF testing using Strength-Weaknesses-Opportunities-Threats (SWOT) analysis.

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Section: Sperm Dna Fragmentation: Single-versus Double-strand Breaksmentioning

confidence: 99%

Sperm DNA Fragmentation: A New Guideline for Clinicians

Agarwal

Majzoub

Baskaran

et al. 2020

World J Mens Health

187

144

View full text Add to dashboard Cite

show abstract

“…While we have traditionally viewed male reproductive competence in terms of fertilization capacity, it is now clear that the definition of "competence" should extend beyond conception to encompass the establishment of a normal viable pregnancy as well as the health and well-being of the offspring. It is therefore important to acknowledge that oxidative damage to human spermatozoa does not just influence their capacity for fertilization but also has a major impact on the developmental potential of the embryo (194,195). Importantly, when spermatozoa are subjected to increasing levels of oxidative stress, the induction of significant DNA damage precedes the loss of fertilizing potential (196).…”

Section: Oxidative Stress and Embryo Developmentmentioning

confidence: 99%

The Role of Genetics and Oxidative Stress in the Etiology of Male Infertility—A Unifying Hypothesis?

Aitken

Baker

2020

Front. Endocrinol.

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Despite the high prevalence of male infertility, very little is known about its etiology. In recent years however, advances in gene sequencing technology have enabled us to identify a large number of rare single point mutations responsible for impeding all aspects of male reproduction from its embryonic origins, through the endocrine regulation of spermatogenesis to germ cell differentiation and sperm function. Such monogenic mutations aside, the most common genetic causes of male infertility are aneuploidies such as Klinefelter syndrome and Y-chromosome mutations which together account for around 20-25% of all cases of non-obstructive azoospermia. Oxidative stress has also emerged as a major cause of male fertility with at least 40% of patients exhibiting some evidence of redox attack, resulting in high levels of lipid peroxidation and oxidative DNA damage in the form of 8-hydroxy-2'-deoxyguanosine (8OHdG). The latter is highly mutagenic and may contribute to de novo mutations in our species, 75% of which are known to occur in the male germ line. An examination of 8OHdG lesions in the human sperm genome has revealed ∼9,000 genomic regions vulnerable to oxidative attack in spermatozoa. While these oxidized bases are generally spread widely across the genome, a particular region on chromosome 15 appears to be a hot spot for oxidative attack. This locus maps to a genetic location which has linkages to male infertility, cancer, imprinting disorders and a variety of behavioral conditions (autism, bipolar disease, spontaneous schizophrenia) which have been linked to the age of the father at the moment of conception. We present a hypothesis whereby a number of environmental, lifestyle and clinical factors conspire to induce oxidative DNA damage in the male germ line which then triggers the formation de novo mutations which can have a major impact on the health of the offspring including their subsequent fertility.

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“…DNA fragmentation, initially developed to overcome some of the shortcomings of the traditional semen analysis, is an increasingly utilized test in the andrologists' armamentarium. Increased sperm DNA fragmentation has been shown to be associated with decreased fertility through inhibition of fertilization, embryo development, and implantation, and may lead to increased rates of miscarriage (23)(24)(25).…”

Section: Con 3 Craig Niederberger MDmentioning

confidence: 99%