BACKGROUND: Excess iron levels can induce oxidative stress and could therefore affect telomere attrition. However, little is known about the impact of body iron status on telomere length. OBJECTIVE: Our aim was to examine the association between serum ferritin concentrations, an indicator of body iron status, and leukocyte telomere length in US adults. DESIGN: We conducted a nationwide, population-based, cross-sectional study. PARTICIPANTS/ SETTING: We used data from the National Health and Nutrition Examination Survey (NHANES) 1999-2002. We included 7,336 adults aged 20 years or older who had available data on serum ferritin levels and telomere length. High ferritin levels were defined as a serum ferritin level >200 ng/mL (449.4 pmol/L) in women and >300 ng/mL (674.1 pmol/L) in men. Low ferritin levels were defined as a serum ferritin level <30 ng/mL (67.4 pmol/L). MAIN OUTCOME MEASURES: Leukocyte telomere length was assayed using the quantitative polymerase chain reaction method. STATISTICAL ANALYSES: Linear regression with survey weights was performed to estimate the association between serum ferritin levels and telomere length. RESULTS: The prevalence of adults with high and low serum ferritin levels was 10.9% and 17.6%, respectively. High ferritin levels were inversely associated with telomere length compared to normal ferritin levels. After adjustment for demographic, socioeconomic and lifestyle factors, body mass index, C-reactive protein, and leukocyte cell type composition, the β coefficient for log-transformed telomere length was -0.020 (standard error [SE]=0.009; P=0.047). The association was stronger in adults aged 65 years or older (β coefficient -0.081, SE=0.017; P<0.001) than in adults 20 to 44 years old (β coefficient -0.023, SE=0.019; P=0.24) or adults aged 45 to 64 years old (β coefficient 0.024, SE=0.015; P=0.10) (P for interaction 0.003). Low ferritin levels were not significantly associated with telomere length compared with normal ferritin levels. CONCLUSIONS: In a US nationally representative population, high body iron status was associated with shorter telomeres, especially in adults aged 65 years or older.
BACKGROUND: Excess iron levels can induce oxidative stress and could therefore affect telomere attrition. However, little is known about the impact of body iron status on telomere length. OBJECTIVE: Our aim was to examine the association between serum ferritin concentrations, an indicator of body iron status, and leukocyte telomere length in US adults. DESIGN: We conducted a nationwide, population-based, cross-sectional study. PARTICIPANTS/ SETTING: We used data from the National Health and Nutrition Examination Survey (NHANES) 1999-2002. We included 7,336 adults aged 20 years or older who had available data on serum ferritin levels and telomere length. High ferritin levels were defined as a serum ferritin level >200 ng/mL (449.4 pmol/L) in women and >300 ng/mL (674.1 pmol/L) in men. Low ferritin levels were defined as a serum ferritin level <30 ng/mL (67.4 pmol/L). MAIN OUTCOME MEASURES: Leukocyte telomere length was assayed using the quantitative polymerase chain reaction method. STATISTICAL ANALYSES: Linear regression with survey weights was performed to estimate the association between serum ferritin levels and telomere length. RESULTS: The prevalence of adults with high and low serum ferritin levels was 10.9% and 17.6%, respectively. High ferritin levels were inversely associated with telomere length compared to normal ferritin levels. After adjustment for demographic, socioeconomic and lifestyle factors, body mass index, C-reactive protein, and leukocyte cell type composition, the β coefficient for log-transformed telomere length was -0.020 (standard error [SE]=0.009; P=0.047). The association was stronger in adults aged 65 years or older (β coefficient -0.081, SE=0.017; P<0.001) than in adults 20 to 44 years old (β coefficient -0.023, SE=0.019; P=0.24) or adults aged 45 to 64 years old (β coefficient 0.024, SE=0.015; P=0.10) (P for interaction 0.003). Low ferritin levels were not significantly associated with telomere length compared with normal ferritin levels. CONCLUSIONS: In a US nationally representative population, high body iron status was associated with shorter telomeres, especially in adults aged 65 years or older.
Authors: Paul C Adams; David M Reboussin; James C Barton; Christine E McLaren; John H Eckfeldt; Gordon D McLaren; Fitzroy W Dawkins; Ronald T Acton; Emily L Harris; Victor R Gordeuk; Catherine Leiendecker-Foster; Mark Speechley; Beverly M Snively; Joan L Holup; Elizabeth Thomson; Phyliss Sholinsky Journal: N Engl J Med Date: 2005-04-28 Impact factor: 91.245
Authors: Shannon L Steele; Anthony Y Y Hsieh; Izabella Gadawski; Hou Kroeun; Susan I Barr; Angela M Devlin; Hélène C F Côté; Crystal D Karakochuk Journal: Nutrients Date: 2021-05-31 Impact factor: 5.717