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Nutritional Genomics and Infertility: Systems Biology-Based Narrative Review Publisher



Tajadod S ; Nami S ; Hassanpour Ardekanizadeh N ; Pourmalek Lahiji N ; Aghakhaninejad Z ; Shamsigoushki A ; Nouri A ; Ataei Kachooei M ; Shekari S ; Mohammadi S ; Rezaei MS ; Azizi Tabesh G ; Bahmani P ; Hajiesmaeil M Show All Authors
Authors
  1. Tajadod S
  2. Nami S
  3. Hassanpour Ardekanizadeh N
  4. Pourmalek Lahiji N
  5. Aghakhaninejad Z
  6. Shamsigoushki A
  7. Nouri A
  8. Ataei Kachooei M
  9. Shekari S
  10. Mohammadi S
  11. Rezaei MS
  12. Azizi Tabesh G
  13. Bahmani P
  14. Hajiesmaeil M
  15. Poorhosseini SM
  16. Doaei S
  17. Gholamalizadeh M

Source: Nutrire Published:2026


Abstract

Background: Infertility is a crucial challenge for global health that encompasses economic, psychological, and medical aspects. Besides anatomical contributors to infertility, specific dietary components may influence reproductive outcomes in both men and women through diverse molecular and epigenetic mechanisms. Objectives: This study aimed to evaluate the role of macronutrients, vitamins, and minerals in male and female infertility using a system biology approach. Methods: To address the complex interplay between infertility and nutritional factors, we focused on published studies that explore molecular and systems biology pathways, including those involving nutrigenetics, epigenetics, metabolomics, and gene expression profiling. These studies span both human and animal models and were selected based on their relevance to reproductive outcomes and mechanistic insights. Results: Several nutrients appear to influence infertility through distinct molecular mechanisms. Polyunsaturated fatty acids (PUFAs) may exert beneficial effects by modulating the expression of fertility-related genes, while saturated fatty acids (SFAs) are associated with impaired oocyte quality and reproductive dysfunction via altered gene expression and DNA damage. Among micronutrients, increased intake of folate and vitamin D has been linked to improved gamete quality and folliculogenesis in women with infertility. Dietary glutamine and selenium may enhance fertility through their antioxidant properties. Iron demonstrates dual effects, potentially supporting or impairing fertility depending on its role in epigenetic regulation. Conclusion: Dietary intake may influence the risk of infertility through pathways related to nutrigenetics, nutrigenomics, and nutri-epigenomics. While current evidence suggests promising nutrient–gene interactions, most findings are derived from small-scale or preclinical studies, highlighting the need for robust human trials. © The Author(s), under exclusive licence to Springer Nature Switzerland AG 2026.
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