Nutrients, Vol. 18, Pages 156: Ubiquinol in Fertility and Reproduction: A Conditionally Essential Nutrient for Critical Early-Life Stages
Nutrients doi: 10.3390/nu18010156
Authors:
Emma J. Derbyshire
Sergej M. Ostojic
Ahmed T. Alahmar
Background/Objectives: Infertility is a multifactorial condition with an etiopathology that remains largely unclear. Although substantial evidence implicates oxidative stress (OS) as a key contributor to both male and female infertility, targeted strategies for OS-mediated reproductive dysfunction are still not well defined and require further investigation. Ubiquinol is the reduced form of Coenzyme Q10 involved in mitochondrial bioenergetics. It can be synthesized by humans endogenously or provided by dietary sources—typically egg yolks, oily fish, organ meats, and in smaller amounts in nuts and seeds and leafy green vegetables. The present article reviews possible mechanisms through which Ubiquinol plays a role in the regulation of fertility and reproduction, discussing why it could be positioned as a conditionally essential nutrient. Several questions and areas for further inquiry are also proposed. Methods: The present position paper narratively summarizes evidence related to Ubiquinol fertility and reproduction, focusing on the literature from PubMed, Science Direct, and Semantic Scholar. Results: Research advancements suggest that when physiological demands rise during certain life stages, e.g., the reproductive years, the amount of Ubiquinol produced internally may not be enough to meet heightened needs, particularly with advanced maternal/paternal age. This places a heavier reliance on obtaining Ubiquinol from the diet, thus presenting itself as a conditionally essential nutrient during certain life stages. Conclusions: Overall, Ubiquinol appears to enhance mitochondrial energy production and antioxidant defense in gametes, a process that appears to aid sperm function, oocyte quality, and early embryo development. Collectively, these data indicate a key physiological role for Ubiquinol in male and female fertility, especially given its age-related decline.
Background/Objectives: Infertility is a multifactorial condition with an etiopathology that remains largely unclear. Although substantial evidence implicates oxidative stress (OS) as a key contributor to both male and female infertility, targeted strategies for OS-mediated reproductive dysfunction are still not well defined and require further investigation. Ubiquinol is the reduced form of Coenzyme Q10 involved in mitochondrial bioenergetics. It can be synthesized by humans endogenously or provided by dietary sources—typically egg yolks, oily fish, organ meats, and in smaller amounts in nuts and seeds and leafy green vegetables. The present article reviews possible mechanisms through which Ubiquinol plays a role in the regulation of fertility and reproduction, discussing why it could be positioned as a conditionally essential nutrient. Several questions and areas for further inquiry are also proposed. Methods: The present position paper narratively summarizes evidence related to Ubiquinol fertility and reproduction, focusing on the literature from PubMed, Science Direct, and Semantic Scholar. Results: Research advancements suggest that when physiological demands rise during certain life stages, e.g., the reproductive years, the amount of Ubiquinol produced internally may not be enough to meet heightened needs, particularly with advanced maternal/paternal age. This places a heavier reliance on obtaining Ubiquinol from the diet, thus presenting itself as a conditionally essential nutrient during certain life stages. Conclusions: Overall, Ubiquinol appears to enhance mitochondrial energy production and antioxidant defense in gametes, a process that appears to aid sperm function, oocyte quality, and early embryo development. Collectively, these data indicate a key physiological role for Ubiquinol in male and female fertility, especially given its age-related decline. Read More