TABLE 2.
Epidemiologic studies and RCTs evaluating the effect of dietary micronutrients on telomere length1
| Reference | Design | Population | Method | Factor | Results |
|---|---|---|---|---|---|
| Borras et al. 2012 (42) | Case-control | 62 hemodialysis patients, 55 sex-matched controls. 24 hemodialysis patients received vitamin D supplements for 28.8 mo | SB | Vitamin D | Hemodialysis patients had shorter TL compared with the controls. Significant associations between phosphorous concentrations, active vitamin D treatment, and LTL were observed |
| Mirabello et al. 2009 (24) | Case-control | 612 prostate cancer cases and 1049 age-matched cancer-free controls from the PLCOCST | PCR | Vitamins and minerals | No significant baseline associations were found between the intake of vitamin E, lycopene, β-carotene, vitamin D, selenium, and LTL |
| Xu et al. 2009 (43) | Cross- sectional | 586 participants with breast cancer from the Sisters Study | PCR | Multivitamin supplementation in diet | Multivitamin supplementation was associated with longer TL. Compared with the nonusers, daily users had an average 5.1% longer TL. With adjustment for multivitamin use, the total intake of micronutrients remained significant only for vitamins C and E |
| Marcon et al. 2012 (44) | Cross- sectional | 56 healthy subjects | TRF | Thiamin, riboflavin, niacin, vitamin B-6, folate, vitamins A, C, D, E, and β-carotene | Vitamins A, C, E, folic acid, and β-carotene were positively correlated with LTL. After adjustments, only β-carotene show a significant correlation |
| Cassidy et al. 2010 (12) | Cross- sectional | 2284 female participants from the Nurses’ Health Study | PCR | Vitamin D | No significant associations between vitamin D and TL were reported |
| Lee et al. 2017 (45) | Cross- sectional | 1958 men and women from the Korean Genome Epidemiology Study | PCR | Vitamins A, C, E, thiamin, riboflavin, vitamin B6, niacin, retinol, carotene, folate, calcium, phosphorous, iron, zinc | After adjusting for potential confounders, vitamin C and potassium were significantly positively associated with LTL. Folate showed a trend for positive association |
| Lin et al. 2018 (46) | Cross- sectional | 7324 participants from the NHANES study | PCR | Dietary copper intake | One unit of log-transformed dietary copper intake was significantly associated with longer telomeres |
| Zhu et al. 2012 (47) | RCT (parallel) | 37 African Americans randomly assigned to: 1) experimental group (n = 19, 2000 IU vitamin D/d); 2) control group (n = 18, placebo) for 16 wk | TRAP | Vitamin D supplementation | Significant differences in changes of telomerase activity were observed between groups. A significant increase in the PBMC telomerase activity from baseline to postintervention was noted in the vitamin D-supplemented group |
| Balcerczyk et al. 2014 (48) | RCT (parallel) | Healthy subjects supplemented with either: 1) NucleVital Q10 Complex (n = 66 women) containing various micronutrients and ω-3 PUFA; 2) control group (n = 34 women) for 12 wk | PCR | NucleVital Q10 Complex supplementation | A significant increase in telomerase concentration but not in TL was seen in the supplementation group. However, differences in changes between intervention groups were not checked |
| Sharif et al. 2015 (49) | RCT (parallel) | 90 elderly participants with Zn deficiency were randomly assigned to: 1) Zn supplementation group (n = 45; 20 mg/d Zn tablets); 2) placebo group (n = 45; 100% maltodextrin tablets) for 12 wk | PCR | Zinc supplementation | Telomeres were shorter in the Zn group compared with placebo after intervention; however, this difference was not significant. Significant increase in TL within groups was observed |
1
LTL, leukocyte telomere length; PBMC, peripheral blood mononuclear cell; PLCOCST, Prostate, Lung, Colorectal, and Ovarian Cancer Screening Trial; RCT, randomized clinical trial; SB, Southern blotting; TL, telomere length; TRAP, telomerase repeated amplification protocol; TRF, telomere restriction fragment; Zn, zinc.