Oocyte Aging: A Multifactorial Phenomenon in A Unique Cell

Kordowitzki, Paweł; Graczyk, Szymon; Haghani, Amin; Klutstein, Michael

doi:10.14336/ad.2023.0527

Cited by 4 publications

(3 citation statements)

References 143 publications

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“…Unfortunately, the issue for ageing women is not failed fertilization but a loss of developmental potential on the part of their eggs as a consequence of ∼40 years exposure to environmental and lifestyle factors that compromise the capacity of this single cell to be fertilized and develop into a new individual. This functional decline in the oocyte's developmental potential involves a variety of mechanisms including oxidative stress and aneuploidy that cannot be reversed by ART—even though many couples mistakenly believe it can ( 108 – 112 ).…”

Section: Assisted Conception and The Economic Cost Of Procreationmentioning

confidence: 99%

What is driving the global decline of human fertility? Need for a multidisciplinary approach to the underlying mechanisms

Aitken

2024

Front. Reprod. Health

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An intense period of human population expansion over the past 250 years is about to cease. Total fertility rates are falling dramatically all over the world such that highly industrialized nations, including China and the tiger economies of SE Asia, will see their populations decline significantly in the coming decades. The socioeconomic, geopolitical and environmental ramifications of this change are considerable and invite a multidisciplinary consideration of the underlying mechanisms. In the short-term, socioeconomic factors, particularly urbanization and delayed childbearing are powerful drivers of reduced fertility. In parallel, lifestyle factors such as obesity and the presence of numerous reproductive toxicants in the environment, including air-borne pollutants, nanoplastics and electromagnetic radiation, are seriously compromising reproductive health. In the longer term, it is hypothesized that the reduction in family size that accompanies the demographic transition will decrease selection pressure on high fertility genes leading to a progressive loss of human fecundity. Paradoxically, the uptake of assisted reproductive technologies at scale, may also contribute to such fecundity loss by encouraging the retention of poor fertility genotypes within the population. Since the decline in fertility rate that accompanies the demographic transition appears to be ubiquitous, the public health implications for our species are potentially devastating.

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Section: Assisted Conception and The Economic Cost Of Procreationmentioning

confidence: 99%

What is driving the global decline of human fertility? Need for a multidisciplinary approach to the underlying mechanisms

Aitken

2024

Front. Reprod. Health

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“…Additionally, RNA epitranscriptomes significantly impact oocyte quality [207][208][209][210][211][212][213]. The epigenome of oocytes changes with age, potentially contributing to the decline in oocyte quality associated with aging [206,[214][215][216][217][218]. Epigenetics can also reshape cellular metabolism by participating in metabolic reprogramming through the regulation of metabolic enzymes and upstream regulator expression and function.…”

Section: Epigenetic Inheritance Of Energy Metabolism In Aging Oocytesmentioning

confidence: 99%

Ovarian aging: energy metabolism of oocytes

Bao,

Yin,

Liu

2024

J Ovarian Res

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In women who are getting older, the quantity and quality of their follicles or oocytes and decline. This is characterized by decreased ovarian reserve function (DOR), fewer remaining oocytes, and lower quality oocytes. As more women choose to delay childbirth, the decline in fertility associated with age has become a significant concern for modern women. The decline in oocyte quality is a key indicator of ovarian aging. Many studies suggest that age-related changes in oocyte energy metabolism may impact oocyte quality. Changes in oocyte energy metabolism affect adenosine 5'-triphosphate (ATP) production, but how related products and proteins influence oocyte quality remains largely unknown. This review focuses on oocyte metabolism in age-related ovarian aging and its potential impact on oocyte quality, as well as therapeutic strategies that may partially influence oocyte metabolism. This research aims to enhance our understanding of age-related changes in oocyte energy metabolism, and the identification of biomarkers and treatment methods.

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“…Delayed childbearing is a particular problem for our species because women rapidly lose their fertility after the age of 36. This decline in fertility is largely due to a loss of developmental potential on the part of the oocyte due to high levels of oxidative stress and the onset of aneuploidy in a majority of eggs ( Mikwar et al 2020 , Jaswa et al 2021 , Aitken et al 2022 , Kordowitzki et al 2024 ). Unfortunately, such age-dependent infertility cannot be rescued by the ART industry and, as a result, live birth rates following assisted conception show the same decline with maternal age as we see with natural conceptions ( Padilla & Garcia 1989 ).…”

Section: The Rise and Fall Of Global Fertilitymentioning

confidence: 99%

Population decline: where demography, social science, and biology intersect

Aitken

2024

Reproduction

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Since the early 1960’s the world has witnessed the spectacular collapse of human fertility. As a result of this phenomenon several countries are already seeing their population numbers fall and more will follow in the coming decades. The causes of this fertility decline involve a complex interplay of socioeconomic, environmental, and biological factors that have converged to constrain fertility in posterity’s wake. Since large numbers of offspring are no longer needed to compensate for high infant mortality in contemporary society, couples have opted to have small families in a quality-over-quantity investment in their progeny’s future. Simultaneously, increases in female education, the enhanced participation of women in the paid workforce, and a resultant delay in childbearing has placed limits on achievable family size. Progressive urbanization, the improved availability of contraceptives and the socioeconomic pressures experienced by young adults in ageing societies, are also contributing to fertility’s demise. These factors together with the individualism that pervades modern society and the increasing social acceptability of voluntary childlessness, have firmly established a low fertility ethos in most post-transition countries. Since none of these forces are about to relent, it looks as if extremely low fertility might be with us for some time to come. This may have long-term consequences. The lack of selection pressure on high fertility genotypes, the ability of ART to retain poor fertility genotypes within the population and sustained exposure to reproductive toxicants in modern industrialized environments, may all contrive to leave a permanent mark on the fecundity of our species.

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Oocyte Aging: A Multifactorial Phenomenon in A Unique Cell

Cited by 4 publications

References 143 publications

What is driving the global decline of human fertility? Need for a multidisciplinary approach to the underlying mechanisms

What is driving the global decline of human fertility? Need for a multidisciplinary approach to the underlying mechanisms

Ovarian aging: energy metabolism of oocytes

Population decline: where demography, social science, and biology intersect

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