The regulatory and pleiotropic role of vitamin D

  • S. Tsekhmistrenko Bila Tserkva National Agrarian University
  • V. Bityutskyy Bila Tserkva National Agrarian University
  • O. Tsekhmistrenko Bila Tserkva National Agrarian University
  • Т. Тokarchuk Podillia State University
  • L. Savchuk Podillia State University
  • V. Harkavenko Vinnytsia National Agrarian University
  • L. P. Horalskyi Zhytomyr Ivan Franko State University
  • S. Oliynyk Ewha Womans University
DOI: https://doi.org/10.15421/0226035
Keywords: signaling pathways, immune regulation, antioxidant system, cellular homeostasis, pleiotropic effect.

Abstract

Vitamin D is a multifunctional secosteroid compound that plays a key role in maintaining systemic homeostasis in humans and animals. Its active form, 1 ,25 -dihydroxyvitamin D 3 ( calcitriol ), acts as an endocrine and autocrine modulator, influencing the expression of hundreds of genes that regulate metabolism, immune response, cell proliferation, and antiox i dant protection. In recent years, a significant amount of evidence has been accumulated indicating the pleiotropic nature of vitamin D: it is involved not only in phosphorus-calcium metabolism, but also in the regulation of the NF- κB , PI3K/ Akt / mTOR , and Wnt /β- catenin signaling cascades, which control cell survival, apoptosis, inflammatory response, and aging processes. It has been proven that adequate levels of 25(OH )D in blood plasma reduce the risk of developing autoimmune, metabolic, cardiovascular, and oncological diseases. Calcitriol inhibits excessive NF- κB activation, reducing the production of pro-inflammatory cytokines IL-6, TNF-α, and IL-17; at the same time, it activates AMPK and PTEN, inhibiting the PI3K/ Akt / mTOR pathway and promoting autophagy . By inhibiting β- catenin , vitamin D blocks the transcri p tion of proto- oncogenes , preventing excessive proliferation. Due to its effect on these signaling systems, vitamin D acts as a universal integrator of cellular responses to stress, oxidative disturbances, and inflammatory stimuli. Particular attention is paid to its effect on the antioxidant and excretory systems, where vitamin D enhances the expression of antioxidant e n zymes, reduces lipoperoxidation , and promotes the normalization of renal tubule function. In addition, epidemiological and clinical studies confirm the inverse relationship between vitamin D deficiency and the incidence of cancer, especially breast, prostate, and colon cancer. Vitamin D should be considered as a systemic regulator that integrates immune-endocrine, antioxidant, and metabolic processes, ensuring the stability of the body's functional systems. Its pleiotropic effect opens up new opportunities for the development of personalized approaches to the prevention and treatment of chronic diseases.

References

Afonso, M. L., Capelas, M. L., Pimenta, N. M., Santos, T., Mäkitie, A., Ganhão-Arranhado, S., … & Ravasco, P. (2025). A systematic review of vitamin D supplementation in oncology: Chance of science or effectiveness? Nutrients, 17(4), 634.

Ahmadieh, H., & Arabi, A. (2023). Association between vitamin D and cardiovascular health: Myth or fact? A narrative review of the evidence. Women’s Health, 19, 17455057231158222.

Al-Hendy, A., Diamond, M. P., Boyer, T. G., & Halder, S. K. (2016). Vitamin D3 inhibits Wnt/β-catenin and mTOR signaling pathways in human uterine fibroid cells. The Journal of Clinical Endocrinology and Metabolism, 101(4), 1542–1551.

Annweiler, C., Beauchet, O., & Blain, H. (2023). Vitamin D and cognitive decline: A systematic review and meta-analysis. Frontiers in Aging Neuroscience, 15, 1173264.

Artusa, P., & White, J. H. (2024). Vitamin D and its analogues in immune system regulation. Pharmacological Reviews, 2024, 100032.

Aslam, M. M., John, P., Bhatti, A., Jahangir, S., & Kamboh, M. I. (2019). Vitamin D as a principal factor in mediating rheumatoid arthritis-derived immune response. BioMed Research International, 2019, 3494937.

Battistini, C., Ballan, R., Herkenhoff, M. E., Saad, S. M. I., & Sun, J. (2020). Vitamin D modulates intestinal microbiota in inflammatory Bowel diseases. International Journal of Molecular Sciences, 22(1), 362.

Bikle, D. D. (2020). Vitamin D: Newer concepts of its metabolism and function at the basic and clinical level. Journal of the Endocrine Society, 4(2), bvz038.

Bischoff-Ferrari, H. A., Orav, E. J., & Dawson-Hughes, B. (2020). Vitamin D supplementation and fracture prevention: Updated meta-analysis. New England Journal of Medicine, 383(1), 173–182.

Bishop, E. L., Ismailova, A., Dimeloe, S., Hewison, M., & White, J. H. (2021). Vitamin D and immune regulation: Antibacterial, antiviral, anti-inflammatory. JBMR Plus, 5(1), e10405.

Bislev, L. S., Langagergaard Rødbro, L., & Rejnmark, L. (2021). Effects of vitamin D on muscle function and balance in older adults: Systematic review and meta-analysis. Osteoporosis International, 32(1), 13–27.

Bityutsky, V. S., Tsekhmistrenko, S. I., Tsekhmistrenko, О. S., Tymoshok, N. O., & Spivak, M. Y. (2020). Regulation of redox processes in biological systems with the participation of the Keap1/Nrf2/ARE signaling pathway, biogenic selenium nanoparticles as Nrf2 activators. Regulatory Mechanisms in Biosystems, 11(4), 483–493.

Bouillon, R., Marcocci, C., Carmeliet, G., Bikle, D., White, J. H., Dawson-Hughes, B., … Bilezikian, J. (2019). Skeletal and extraskeletal actions of vitamin D: Current evidence and outstanding questions. Endocrine Reviews, 40(4), 1109–1151.

Bui, L., Zhu, Z., Hawkins, S., & Cortez-Resendiz, A. (2021). Vitamin D regulation of the immune system and its implications for COVID-19: A mini review. Frontiers in Physiology, 12, 746202.

Burne, T. H., McGrath, J. J., & Eyles, D. W. (2022). Vitamin D deficiency and brain function: A focus on neuroinflammation and oxidative stress. Neurobiology of Disease, 167, 105674.

Calagna, G., Catinella, V., Polito, S., Schiattarella, A., De Franciscis, P., D’Antonio, F., ... & Cucinella, G. (2022). Vitamin D and male reproduction: Updated evidence based on literature review. Nutrients, 14(16), 3278.

Chackochan, A., Kuttan, N., & Thomas, T. (2025). Role of vitamin D in the development and progression of diabetic kidney disease: A review of meta-analyses. World Journal of Clinical Cases, 13(8), 1074–1085.

Charoengngam, N., Shirvani, A., & Holick, M. F. (2019). Vitamin D for skeletal and non-skeletal health: What we should know. Journal of Clinical Orthopaedics and Trauma, 10(6), 1082–1093.

Chen, X., Zhou, M., Yan, H., Chen, J., Wang, Y., & Mo, X. (2022). Association of serum total 25-hydroxy-vitamin D concentration and risk of all-cause, cardiovascular and malignancy-specific mortality in patients with hyperlipidemia in the United States. Frontiers in Nutrition, 9, 971720.

Cheng, S. Y., Liu, J. Y., & Ho, C. C. (2022). Vitamin D, melatonin, and mood disorders: Molecular and clinical evidence. Nutrients, 14(18), 3816.

Chowdhury, R., Khan, H., & Kaur, P. (2023). Vitamin D deficiency and osteomalacia: Current perspectives. Nutrients, 15(4), 821.

Christakos, S., Dhawan, P., & Porta, A. (2021). New insights into the vitamin D-regulated calcium transport system in the intestine. Endocrine Reviews, 42(3), 295–319.

Christakos, S., Dhawan, P., Porta, A., Mady, L. J., & Seth, T. (2011). Vitamin D and intestinal calcium absorption. Molecular and Cellular Endocrinology, 347(1–2), 25–29.

Daryabor, G., & Shiri, H. (2023). A review of the critical role of vitamin D axis on the immune response. Comparative Biochemistry and Physiology Part A, 275, 111422.

Deepika, Kumari, A., Singh, S., Ahmad, M. F., Chaki, D., Poria, V., Kumar, S., Saini, N., Yadav, N., Sangwan, N., BinMowyna, M. N., Alsharari, Z. D., Kambal, N., Min, J. H., & Raposo, A. (2025). Vitamin D: recent advances, associated factors, and its role in combating non-communicable diseases. NPJ Science of Food, 9, 100.

Dentino, P., Mora, J., & Zuo, L. (2025). Vitamin D deficiency and its role in pathologies of oxidative stress: A literature review. Cureus, 17(8), e90042.

Elkhwanky, M. S., Kummu, O., Piltonen, T. T., Laru, J., Morin Papunen, L., Mutikainen, M., ... & Hakkola, J. (2020). Obesity represses CYP2R1, the vitamin D25 hydroxylase, in the liver and extrahepatic tissues. Journal of Bone and Mineral Research Plus, 4(11), e10397.

Farhangnia, P., Noormohammadi, M., & Delbandi, A. A. (2024). Vitamin D and reproductive disorders: A comprehensive review with a focus on endometriosis. Reproductive Health, 21(1), 61.

Fenercioglu, A. K., Yilmaz, O., Gokalp, D., & Kocabas, F. (2024). The anti-inflammatory roles of vitamin D for improving health outcomes. Nutrients, 16(13), 2293.

Fernando, M., Ellery, S. J., Marquina, C., Lim, S., Naderpoor, N., & Mousa, A. (2020). Vitamin D-binding protein in pregnancy and reproductive health. Nutrients, 12(5), 1489.

Fleet, J. C. (2017). The role of vitamin D in the endocrinology controlling calcium homeostasis. Molecular and Cellular Endocrinology, 453, 36–45.

Forman, J. P., Williams, J. S., & Fisher, N. D. (2010). Plasma 25-hydroxyvitamin D and regulation of the renin-angiotensin system in humans. Hypertension, 55(5), 1283–1288.

Fu, L., Zhou, Y., & Zhang, T. (2023). Effects of vitamin D supplementation on cognitive performance in older adults: A randomized controlled trial. Nutrients, 15(3), 655.

Garcion, E., Darcy, F., Gasnier, C., & Nataf, S. (2021). Neuroprotective functions of vitamin D in the central nervous system. Molecular Neurobiology, 58(12), 5937–5954.

Girgis, C. M., & Brennan-Speranza, T. C. (2022). Physiological role of vitamin D in skeletal muscle function: Mechanisms and clinical implications. Endocrine Reviews, 43(5), 678–707.

Giustina, A., Bilezikian, J. P., Adler, R. A., Banfi, G., Bikle, D. D., Binkley, N. C., ... & Virtanen, J. K. (2024). Consensus statement on vitamin D status assessment and supplementation: Whys, whens, and hows. Endocrine Reviews, 45(5), 625–654.

Grzesiak, M., Tchurzyk, M., Socha, M., Sechman, A., & Hrabia, A. (2022). An overview of the current known and unknown roles of vitamin D3 in the female reproductive system: Lessons from farm animals, birds, and fish. International Journal of Molecular Sciences, 23(22), 14137.

Guo, D., Ning, Y., Bai, J., Tan, Y., Zhou, X., & Li, H. (2024). Interaction between vitamin D homeostasis, gut microbiota, and metabolic health: A review. Frontiers in Endocrinology, 15, 1449033.

Haussler, M. R., Whitfield, G. K., & Haussler, C. A. (2022). Vitamin D signaling and bone metabolism revisited. Bone, 155, 116278.

Holick, M. F. (2007). Vitamin D deficiency. New England Journal of Medicine, 357(3), 266–281.

Holick, M. F., Binkley, N., Bischoff-Ferrari, H. A., Gordon, C. M., Hanley, D. A., & Heaney, R. P. (2020). Evaluation, treatment, and prevention of vitamin D deficiency: updated guidelines. Journal of Clinical Endocrinology and Metabolism, 105(3), e469–e485.

Honarvar, N. M., & Zamani, N. (2022). Effect of vitamin D on paraxonase-1, total antioxidant capacity and biochemical indices in adults: A randomized clinical trial. Biological Trace Element Research, 200(1), 185–192.

Hrabia, A., Kamińska, K., Socha, M., & Grzesiak, M. (2023). Vitamin D3 receptors and metabolic enzymes in hen reproductive tissues. International Journal of Molecular Sciences, 24(23), 17074.

Jäpelt, R. B., & Jakobsen, J. (2013). Vitamin D in plants: A review of occurrence, analysis, and biosynthesis. Frontiers in Plant Science, 4, 50324.

Jaroslawska, J., & Carlberg, C. (2023). In vivo regulation of signal transduction pathways by vitamin D stabilizes homeostasis of human immune cells and counteracts molecular stress. International Journal of Molecular Sciences, 24(19), 14632.

Jia, J., Tao, X., Tian, Z., Zhan, Y., & Liu, Y. (2022). Vitamin D receptor deficiency increases systolic blood pressure by activating the renin-angiotensin system and sympathetic activation. Experimental and Therapeutic Medicine, 23(3), 314.

Jiang, M., Zhang, K., Zhang, Z., Zeng, X., Huang, Z., Qin, P., Xie, Z., Cai, X., Ashrafizadeh, M., Tian, Y., & Wei, R. (2025). PI3K/AKT/mTOR axis in cancer: From pathogenesis to treatment. MedComm, 6(8), e70295.

Jørgensen, H. S., & Demirel, S. (2025). The role of nutritional vitamin D in chronic kidney disease: Current clinical practice guidelines. Nephrology Dialysis Transplantation, 40(1), 64–71.

Kamal, H. R., & Allwsh, T. A. (2024). Evaluating the effect of vitamin D3 supplementation on DKK-3 serum for third-stage chronic kidney patients. Pharmacia, 71, e127441.

Khamseh, M. E., Jafari, F., Malek, M., & Aghili, R. (2022). Effects of vitamin D supplementation on insulin resistance and adipokines: A systematic review and meta-analysis. Hormone and Metabolic Research, 54(4), 239–248.

Khan, S. S., Petkovich, M., Holden, R. M., & Adams, M. A. (2022). Megalin and vitamin D metabolism – implications in non-renal tissues and kidney disease. Nutrients, 14(18), 3690.

Khosravi, M., Gholami, F., & Ghasemi, A. (2023). The impact of vitamin D deficiency on hepatic lipid metabolism: A review of molecular mechanisms. Biomedicine and Pharmacotherapy, 162, 114643.

Kose, M., Senkal, N., Tukek, T., Cebeci, T., Atalar, S. C., Altinkaynak, M., Arici, H., Genc, S., Catma, Y., Kocaaga, M., Medetalibeyoglu, A., & Emet, S. (2022). Severe vitamin D deficiency is associated with endothelial inflammation in healthy individuals even in the absence of subclinical atherosclerosis. European Review for Medical and Pharmacological Sciences, 26(19), 7046–7052.

Kumar, R., Annie, L., Gurusubramanian, G., Singh, A., & Roy, V. K. (2025). Vitamin D supplementation stimulates germ cell proliferation in a restraint-stressed mouse. Reproductive Toxicology, 138, 109077.

Kuryłowicz, A., Wicik, Z., & Bednarczuk, T. (2021). Vitamin D and lipid profile: A review of molecular evidence. International Journal of Molecular Sciences, 22(17), 9434.

Lee, S. J., Kim, K. H., & Choi, S. Y. (2023). Involvement of CYP3A4 and MDR1 in altered metabolism and transport regulated by the vitamin D receptor. Journal of Chromatography B, 1214, 123566.

Li, B., Xiong, Y., Guo, D., Deng, G., & Wu, H. (2025). The gut-reproductive axis: Bridging microbiota balances to reproductive health and fetal development. International Immunopharmacology, 144, 113627.

Li, J., Xie, X., & Wang, Y. (2023). Calcitriol prevents neurodegeneration via mitochondrial protection in Parkinson’s disease models. Brain Research Bulletin, 201, 113258.

Li, Y. C., Kong, J., Wei, M., Chen, Z. F., Liu, S. Q., & Cao, L. P. (2002). 1,25-Dihydroxyvitamin D3 is a negative endocrine regulator of the renin-angiotensin system. The Journal of Clinical Investigation, 110(2), 229–238.

Ma, S., Wang, X., Liu, Y., Li, J., & Chen, L. (2024). Cellular metabolism regulates the differentiation and function of T cells. Signal Transduction and Targeted Therapy, 9, 298.

Magagnoli, L., Cassia, M., Galassi, A., Ciceri, P., Massó, E., Gelpi, R., ... & Cozzolino, M. (2025). Vitamin D: Are all compounds equal? Clinical Kidney Journal, 18(S1), i61–i96.

Malihi, Z., Wu, Z., Lawes, C. M., & Scragg, R. (2017). Non-calcemic adverse effects and withdrawals in randomized controlled trials of long-term vitamin D2 and D3 supplementation: Systematic review and meta-analysis. Nutrition Reviews, 75, 1007–1034.

Marcinowska-Suchowierska, E., Kupisz-Urbańska, M., Łukaszkiewicz, J., Płudowski, P., & Jones, G. (2018). Vitamin D toxicity – A clinical perspective. Frontiers in Endocrinology, 9, 550.

Martens, P. J., Gysemans, C., Verstuyf, A., & Mathieu, C. (2020). Vitamin D’s effect on immune function. Nutrients, 12(5), 1248.

Matsunuma, A., & Hattori, S. (2020). Calcitriol and vitamin K-dependent proteins in bone and coagulation pathways. Journal of Steroid Biochemistry and Molecular Biology, 199, 105604.

Mavar, M., Sorić, T., Bagarić, E., Sarić, A., & Matek Sarić, M. (2024). The power of vitamin D: Is the future in precision nutrition through personalized supplementation plans? Nutrients, 16(8), 1176.

Miao, D., & Goltzman, D. (2023). Mechanisms of action of vitamin D in delaying aging and preventing disease by inhibiting oxidative stress. Vitamins and Hormones, 121, 293–318.

Milan, K. L., & Ramkumar, K. M. (2024). Regulatory mechanisms and pathological implications of CYP24A1 in vitamin D metabolism. Pathology-Research and Practice, 264, 155684.

Mitri, J., White, M. F., Pittas, A. G., & Dawson-Hughes, B. (2024). Vitamin D and progression from prediabetes to diabetes: A randomized clinical trial update. Diabetes Care, 47(1), 45–54.

Moslemi, E., Musazadeh, V., Kavyani, Z., Naghsh, N., Shoura, S. M. S., & Dehghan, P. (2022). Efficacy of vitamin D supplementation as an adjunct therapy for improving inflammatory and oxidative stress biomarkers: An umbrella meta-analysis. Pharmacological Research, 186, 106484.

Mousa, A., Naderpoor, N., & de Courten, B. (2022). Vitamin D modulation of T-cell activation and calcium signaling pathways. Frontiers in Immunology, 13, 961124.

Norman, A. W. (2008). From vitamin D to hormone D: fundamentals of the vitamin D endocrine system essential for good health. American Journal of Clinical Nutrition, 88(S2), 491S–499S.

Pascale, A. V., Finelli, R., Giannotti, R., et al. (2018). Vitamin D, parathyroid hormone and cardiovascular risk: The good, the bad and the ugly. Journal of Cardiovascular Medicine, 19(2), 62–66.

Probosari, E., Subagio, H. W., Rachmawati, B., Muis, S. F., Tjandra, K. C., Adiningsih, D., & Winarni, T. I. (2025). The impact of vitamin D supplementation on fasting plasma glucose, insulin sensitivity, and inflammation in type 2 diabetes mellitus: A systematic review and meta-analysis. Nutrients, 17(15), 2489.

Rafiq, S., Jafri, L., & Qureshi, M. A. (2024). Vitamin D and adipokines in obesity: Interplay and clinical significance. Nutrients, 16(4), 712.

Rebelos, E., Tentolouris, N., & Jude, E. (2023). The role of vitamin D in health and disease: A narrative review on the mechanisms linking vitamin D with disease and the effects of supplementation. Drugs, 83(8), 665–685.

Reddy, A. M., Iqbal, M., Chopra, H., Urmi, S., Junapudi, S., Bibi, S., ... & Abdel-Daim, M. M. (2022). Pivotal role of vitamin D in mitochondrial health, cardiac function, and human reproduction. EXCLI Journal, 21, 967.

Safari, H., Hajian, M., Nasr-Esfahani, M. H., Forouzanfar, M., & Drevet, J. R. (2022). Vitamin D and calcium, together and separately, play roles in female reproductive performance. Scientific Reports, 12(1), 10470.

Sanlier, N., & Guney-Coskun, M. (2022). Vitamin D, the immune system, and its relationship with diseases. Egyptian Pediatric Association Gazette, 70(1), 39.

Sartika, K. D., & Gayatri, A. A. A. Y. (2022). Signaling pathway of vitamin D, vitamin D receptor and autophagy in infection: A systematic review. International Journal of Advances in Medicine, 9(10), 1046–1052.

Singh, S., Meena, R. K., Maharshi, V., Sinha, N., Agarwal, N., Payra, S., & Harsha, D. (2025). Vitamin D supplementation trials: Navigating the maze of unpredictable results. Perspectives in Clinical Research, 16(2), 69–74.

Slominski, A. T., Kim, T. K., Janjetovic, Z., Slominski, R. M., Li, W., Jetten, A. M., ... & Tuckey, R. C. (2024). Biological effects of CYP11A1-derived vitamin D and lumisterol metabolites in the skin. Journal of Investigative Dermatology, 144(10), 2145–2161.

Smith, C. L., Zhao, L., & Tan, D. X. (2023). Vitamin D and sleep regulation: From molecular pathways to clinical outcomes. Sleep Medicine Reviews, 68, 101801.

Song, S., Yuan, Y., Wu, X., Zhang, D., Qi, Q., Wang, H., & Feng, L. (2022). Additive effects of obesity and vitamin D insufficiency on all-cause and cause-specific mortality. Frontiers in Nutrition, 9, 999489.

Srivastava, V. K. (2025). Role of vitamin D3 in immune system regulation: A systematic review. Healthcare Bulletin, 13(3), 188–199.

Sun, L., Zhao, Q., & Liu, T. (2024). The effects of vitamin D on insulin resistance through AMPK/PI3K pathways: Mechanistic insights. Frontiers in Nutrition, 11, 1432891.

Sun, Y., Alessandroni, L., Angeloni, S., Del Bianco, E., & Sagratini, G. (2024). From 7-dehydrocholesterol to vitamin D3: Optimization of UV conversion procedures toward the valorization of fish waste matrices. Food Chemistry: X, 22, 101373.

Szymczak-Pajor, I., Miazek, K., Selmi, A., Balcerczyk, A., & Śliwińska, A. (2022). The action of vitamin D in adipose tissue: is there the link between vitamin D deficiency and adipose tissue-related metabolic disorders? International Journal of Molecular Sciences, 23(2), 956.

Thacher, T. D., & Bishop, N. J. (2023). Rickets and osteomalacia revisited: The role of vitamin D across the lifespan. Lancet Diabetes & Endocrinology, 11(4), 267–281.

Thompson, B., Waterhouse, M., English, D. R., McLeod, D. S., Armstrong, B. K., Baxter, C., Duarte Romero, B., Ebeling, P. R., Hartel, G., Kimlin, M. G., Rahman, S. T., van der Pols, J. C., Venn, A. J., Webb, P. M., Whiteman, D. C., & Neale, R. E. (2023). Vitamin D supplementation and major cardiovascular events: D-health randomised controlled trial. BMJ, 381, e075230.

Tkach, S., Pankiv, V., & Pankiv, I. (2022). Modern views on the metabolism and biological effects of vitamin D. International Journal of Endocrinology, 18(2), 109–117.

Tolulope, O. D., Ochuwa, Y. A., Samuel, E. O., Oluwatoyin, A. L., & Folorunsho, A. A. (2025). The effect of vitamin D3 supplementation on Flunitrazepam-induced testicular dysfunction in Wistar rats. Steroids, 2025, 109650.

Tomson, J., Hin, H., Emberson, J., et al. (2017). Effects of vitamin D on blood pressure, arterial stiffness, and cardiac function in older people after 1 year: BEST-D trial. Journal of the American Heart Association, 6(10), e005707.

Tuey, S. M., Ghimire, A., Guzy, S., Prebehalla, L., Roque, A. A., Roda, G., ... & Joy, M. S. (2024). Population pharmacokinetic model of vitamin D3 and metabolites in chronic kidney disease patients with vitamin D insufficiency and deficiency. International Journal of Molecular Sciences, 25(22), 12279.

van Megen, K. M., Chen, Z., Joosten, A. M., Laban, S., Zwaginga, J. J., Natarajan, R., ... & Roep, B. O. (2021). 1, 25-dihydroxyvitamin D3 induces stable and reproducible therapeutic tolerogenic dendritic cells with specific epigenetic modifications. Cytotherapy, 23(3), 242–255.

Vázquez-Lorente, H., Herrera-Quintana, L., Jiménez-Sánchez, L., Fernández-Perea, B., & Plaza-Diaz, J. (2024). Antioxidant functions of vitamin D and CYP11A1-derived vitamin D, Tachysterol, and Lumisterol metabolites: mechanisms, clinical implications, and future directions. Antioxidants, 13(8), 996.

Verdoia, M., Gioscia, R., Nardin, M., Rognoni, A., & De Luca, G. (2022). Low levels of vitamin D and coronary artery disease: Is it time for therapy? Kardiologia Polska, 80(4), 409–416.

Veugelers, P. J., Pham, T.-M., & Ekwaru, J. P. (2015). Optimal vitamin D supplementation dosages that minimize the risk for both low and high serum 25-hydroxyvitamin D concentrations in the general population. Nutrients, 7, 10189–10208.

Visser, M., van Schoor, N. M., & Lips, P. (2021). Vitamin D and muscle function in aging. Journal of Steroid Biochemistry and Molecular Biology, 213, 105953.

Voiculescu, V. M., Nelson Twakor, A., Jerpelea, N., & Pantea Stoian, A. (2025). Vitamin D: Beyond traditional roles – insights into its biochemical pathways and physiological impacts. Nutrients, 17(5), 803.

Voltan, G., Cannito, M., Ferrarese, M., Ceccato, F., & Camozzi, V. (2023). Vitamin D: An overview of gene regulation, ranging from metabolism to genomic effects. Genes, 14(9), 1691.

Wang, Q., Zhu, J., & Xu, J. (2023). Vitamin D suppresses neuroinflammation through NF-κB and Nrf2 signaling. Frontiers in Immunology, 14, 1129783.

Wimalawansa, S. J. (2018). Non-musculoskeletal benefits of vitamin D. Journal of Steroid Biochemistry and Molecular Biology, 175, 60–81.

Wimalawansa, S. J. (2023). Physiological basis for using vitamin D to improve health. Biomedicines, 11(6), 1542.

Wimalawansa, S. J. (2025). Vitamin D's impact on cancer incidence and mortality: A systematic review. Nutrients, 17(14), 2333.

Wu, H., Li, Y., & Zhang, Q. (2021). Vitamin D regulation of fibrinolytic balance and thrombosis risk in metabolic diseases. Thrombosis Research, 205, 112–119.

Zhang, D., Pan, Y., Zhang, X., Wu, J., & Ye, F. (2020). Effect of vitamin D on blood pressure and hypertension in the general population: An updated meta-analysis of randomized controlled trials and cohort studies. Preventing Chronic Disease, 17, e03.

Zhao, H., Li, X., & Liu, R. (2024). Vitamin D promotes neurogenesis via upregulation of BDNF and NGF pathways. Neuroscience Letters, 822, 137646.

Zomorodian, S. A., Shafiee, M., Karimi, Z., Masjedi, F., & Roshanshad, A. (2022). Assessment of the relationship between 25-hydroxyvitamin D and albuminuria in type 2 diabetes mellitus. BMC Endocrine Disorders, 22(1), 171.

Published
2026-02-19
How to Cite
Tsekhmistrenko, S., Bityutskyy, V., Tsekhmistrenko, O., ТokarchukТ., Savchuk, L., Harkavenko, V., Horalskyi, L. P., & Oliynyk, S. (2026). The regulatory and pleiotropic role of vitamin D. Regulatory Mechanisms in Biosystems, 17(2), e26035. https://doi.org/10.15421/0226035
Issue
Vol 17 No 2 (2026): Regulatory Mechanisms in Biosystems
Section
Статті

Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons «Attribution» 4.0 License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.

Most read articles by the same author(s)