Role of telomeres in the relationship between early life adverse  environments and metabolic diseases

HE Yuhua; XIONG Fei

doi:10.11852/zgetbjzz2024-0143

PDF(603 KB)

Chinese Journal of Child Health Care ›› 2024, Vol. 32 ›› Issue (8) : 886-890. DOI: 10.11852/zgetbjzz2024-0143

Review

Role of telomeres in the relationship between early life adverse environments and metabolic diseases

HE Yuhua¹, XIONG Fei^1,2

Author information +

History +

Abstract

Numerous epidemiological and animal experimental studies have shown that in addition to lifestyle and genetic inheritance, exposure to adverse factors in early life may increase the risk of metabolic diseases in adult offspring by affecting fetal telomere length. However, the mechanism by which early exposure to adverse factors increases the risk of metabolic diseases is still unclear. Exploring telomere biological information may provide new avenues for predicting adverse environmental exposure in early life and postnatal health issues.

Key words

telomeres / telomerase / intrauterine factors / metabolic diseases

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

HE Yuhua, XIONG Fei. Role of telomeres in the relationship between early life adverse environments and metabolic diseases[J]. Chinese Journal of Child Health Care. 2024, 32(8): 886-890 https://doi.org/10.11852/zgetbjzz2024-0143

References

[1] Bonnell E, Pasquier E, Wellinger RJ. Telomere replication: Solving multiple end replication problems[J]. Front Cell Dev Biol, 2021, 9: 668171.
[2] Udroiu I, Marinaccio J, Sgura A. Many functions of telomerase components: Certainties, doubts, and inconsistencies[J]. Int J Mol Sci, 2022, 23(23):15189.
[3] Engin AB, Engin A. The connection between cell fate and telomere[J]. Adv Exp Med Biol, 2021, 1275: 71-100.
[4] Delgado DA, Zhang C, Gleason K, et al. The contribution of parent-to-offspring transmission of telomeres to the heritability of telomere length in humans[J]. Hum Genet, 2019, 138(1): 49-60.
[5] Eisenberg DTA, Rej PH, Duazo P, et al. Testing for paternal influences on offspring telomere length in a human cohort in the Philippines[J]. Am J Phys Anthropol, 2020, 171(3): 520-528.
[6] Farrukh S, Baig S, Hussain R, et al. Identification of polymorphic alleles in TERC and TERT gene reprogramming the telomeres of newborn and legacy with parental health[J]. Saudi J Biol Sci, 2024, 31(2): 103897.
[7] Richards LA, Kumari A, Knezevic K, et al. DKC1 is a transcriptional target of GATA1 and drives upregulation of telomerase activity in normal human erythroblasts[J]. Haematologica, 2020, 105(6): 1517-1526.
[8] Chu CM, Yu HH, Kao TL, et al. A missense variant in the nuclear localization signal of DKC1 causes Hoyeraal-Hreidarsson syndrome[J]. NPJ Genom Med, 2022, 7(1): 64.
[9] Harnung Scholten R, Møller P, Jovanovic Andersen Z, et al. Telomere length in newborns is associated with exposure to low levels of air pollution during pregnancy[J]. Environ Int, 2021, 146: 106202.
[10] Kaali S, Jack D, Opoku-Mensah J, et al. Prenatal household air pollution exposure, cord blood mononuclear cell telomere length and age four blood pressure: Evidence from a Ghanaian pregnancy cohort[J]. Toxics, 2021, 9(7):169.
[11] Lin J, Epel E. Stress and telomere shortening: Insights from cellular mechanisms[J]. Ageing Res Rev, 2022, 73: 101507.
[12] Lee AG, Cowell W, Kannan S, et al. Prenatal particulate air pollution and newborn telomere length: Effect modification by maternal antioxidant intakes and infant sex[J]. Environ Res, 2020, 187: 109707.
[13] Ip P, Chung BH, Ho FK, et al. Prenatal tobacco exposure shortens telomere length in children[J]. Nicotine Tob Res, 2017, 19(1): 111-118.
[14] Pham C, Vryer R, O'Hely M, et al. Shortened infant telomere length is associated with attention deficit/hyperactivity disorder symptoms in children at age two years: A birth cohort study[J]. Int J Mol Sci, 2022, 23(9):4601.
[15] Howell MP, Jones CW, Herman CA, et al. Impact of prenatal tobacco smoking on infant telomere length trajectory and ADHD symptoms at 18 months: A longitudinal cohort study[J]. BMC Med, 2022, 20(1): 153.
[16] Camlin NJ, Sobinoff AP, Sutherland JM, et al. Maternal smoke exposure impairs the long-term fertility of female offspring in a murine model[J]. Biol Reprod, 2016, 94(2): 39.
[17] Baskind MJ, Hawkins J, Heyman MB, et al. Obesity at age 6 months is associated with shorter preschool leukocyte telomere length independent of parental telomere length[J]. J Pediatr, 2021, 233: 141-149.
[18] Valera-Gran D, Prieto-Botella D, Hurtado-Pomares M, et al. The impact of foods, nutrients, or dietary patterns on telomere length in childhood and adolescence: A systematic review[J]. Nutrients, 2022, 14(19):3885.
[19] Meshkani SE, Kooshki A, Alahabadi A, et al. Dietary pattern and telomere length in preschool children in a middle-income country[J]. Matern Child Nutr, 2021, 17(3): e13146.
[20] Chen L, Zhu H, Gutin B, et al. Higher chocolate intake is associated with longer telomere length among adolescents[J]. Pediatr Res, 2020, 87(3): 602-627.
[21] Moshfeghinia R, Torabi A, Mostafavi S, et al. Maternal psychological stress during pregnancy and newborn telomere length: A systematic review and meta-analysis[J]. BMC Psychiatry, 2023, 23(1): 947.
[22] Takahashi S, Arima H, Nakano M, et al. Telomere shortening as a stress-related biomarker in children exposed to maternal chronic stress in utero measured 7 years after the Great East Japan Earthquake[J]. Psychiatry Res, 2021, 295: 113565.
[23] Mayer SE, Guan J, Lin J, et al. Intergenerational effects of maternal lifetime stressor exposure on offspring telomere length in Black and White women[J]. Psychol Med, 2023, 53(13): 6171-82.
[24] Prasad A, Lin J, Jelliffe-Pawlowski L, et al. Sub-optimal maternal gestational gain is associated with shorter leukocyte telomere length at birth in a predominantly Latinx cohort of newborns[J]. Matern Health Neonatol Perinatol, 2023, 9(1): 14.
[25] Wei B, Shao Y, Liang J, et al. Maternal overweight but not paternal overweight before pregnancy is associated with shorter newborn telomere length: Evidence from Guangxi Zhuang birth cohort in China[J]. BMC Pregnancy Childbirth, 2021, 21(1): 283.
[26] San-Cristobal R, de Toro-Martín J, Guénard F, et al. Impact of maternal cardiometabolic status after bariatric surgery on the association between telomere length and adiposity in offspring[J]. Sci Rep, 2023, 13(1): 20771.
[27] Goumy C, Veronese L, Stamm R, et al. Reduced telomere length in amniocytes: An early biomarker of abnormal fetal development?[J]. Hum Mol Genet, 2022, 31(16): 2669-2677.
[28] Toutain J, Prochazkova-Carlotti M, Cappellen D, et al. Reduced placental telomere length during pregnancies complicated by intrauterine growth restriction[J]. PLoS One, 2013, 8(1): e54013.
[29] Biron-Shental T, Sukenik-Halevy R, Sharon Y, et al. Telomere shortening in intra uterine growth restriction placentas[J]. Early Hum Dev, 2014, 90(9): 465-469.
[30] Minamoto T, Nakayama K, Ishibashi T, et al. Pregnancy by assisted reproductive technology is associated with shorter telomere length in neonates[J]. Int J Mol Sci, 2020, 21(24).
[31] Wang C, Gu Y, Zhou J, et al. Leukocyte telomere length in children born following blastocyst-stage embryo transfer[J]. Nat Med, 2022, 28(12): 2646-2453.
[32] Anifandis G, Samara M, Simopoulou M, et al. Insights into the role of telomeres in human embryological parameters. Opinions regarding IVF[J]. J Dev Biol, 2021, 9(4). doi: 10.3390/jdb9040049.
[33] Cheng F, Carroll L, Joglekar MV, et al. Diabetes, metabolic disease, and telomere length[J]. Lancet Diabetes Endocrinol, 2021, 9(2): 117-126.
[34] Sampson MJ, Winterbone MS, Hughes JC, et al. Monocyte telomere shortening and oxidative DNA damage in type 2 diabetes[J]. Diabetes Care, 2006, 29(2): 283-289.
[35] Adaikalakoteswari A, Balasubramanyam M, Ravikumar R, et al. Association of telomere shortening with impaired glucose tolerance and diabetic macroangiopathy[J]. Atherosclerosis, 2007, 195(1): 83-89.
[36] Arora I, Raizada N, Aslam M, et al. Phenotypic clusters of type 2 diabetes mellitus among North Indians reveal higher levels of insulin deficiency along with insulin resistance[J]. Diabetes Metab Syndr, 2024, 18(3): 102993.
[37] Ke C, Narayan KMV, Chan JCN, et al. Pathophysiology, phenotypes and management of type 2 diabetes mellitus in Indian and Chinese populations[J]. Nat Rev Endocrinol, 2022, 18(7): 413-432.
[38] Hjort L, Vryer R, Grunnet LG, et al. Telomere length is reduced in 9- to 16-year-old girls exposed to gestational diabetes in utero[J]. Diabetologia, 2018, 61(4): 870-880.
[39] Yan YS, Feng C, Yu DQ, et al. Long-term outcomes and potential mechanisms of offspring exposed to intrauterine hyperglycemia[J]. Front Nutr, 2023, 10: 1067282.
[40] Sweeting A, Wong J, Murphy HR, et al. A Clinical Update on gestational diabetes mellitus[J]. Endocr Rev, 2022, 43(5): 763-793.
[41] Tesovnik T, Kovac J, Hovnik T, et al. Association of glycemic control and cell stress with telomere attrition in type 1 diabetes[J]. JAMA Pediatr, 2018, 172(9): 879-881.
[42] Tamura Y, Izumiyama-Shimomura N, Kimbara Y, et al. β-cell telomere attrition in diabetes: Inverse correlation between HbA1c and telomere length[J]. J Clin Endocrinol Metab, 2014, 99(8): 2771-2777.
[43] Kuhlow D, Florian S, von Figura G, et al. Telomerase deficiency impairs glucose metabolism and insulin secretion[J]. Aging (Albany NY), 2010, 2(10): 650-658.
[44] Cheng G, Wang L, Dai M, et al. Shorter leukocyte telomere length coupled with lower expression of telomerase genes in patients with essential hypertension[J]. Int J Med Sci, 2020, 17(14): 2180-2186.
[45] Honkonen M, Vääräniemi K, Saijonmaa O, et al. Leukocyte telomere length is inversely associated with arterial wave reflection in 566 normotensive and never-treated hypertensive subjects[J]. Aging (Albany NY), 2020, 12(12): 12376-12392.
[46] Gao S, Rohr JK, de Vivo I, et al. Telomere length, health, and mortality in a cohort of older black South African adults[J]. J Gerontol A Biol Sci Med Sci, 2023, 78(11): 1983-1990.
[47] Deng Y, Li Q, Zhou F, et al. Telomere length and the risk of cardiovascular diseases: A Mendelian randomization study[J]. Front Cardiovasc Med, 2022, 9: 1012615.
[48] Tellechea M, Gianotti TF, Alvariñas J, et al. Telomere length in the two extremes of abnormal fetal growth and the programming effect of maternal arterial hypertension[J]. Sci Rep, 2015, 5: 7869.
[49] Laganovic' M, Bendix L, Rubelj I, et al. Reduced telomere length is not associated with early signs of vascular aging in young men born after intrauterine growth restriction: A paradox?[J]. J Hypertens, 2014, 32(8): 1613-1619, discussion 9-20.
[50] Cao Y, Li H, Mu FT, et al. Telomerase activation causes vascular smooth muscle cell proliferation in genetic hypertension[J]. Faseb j, 2002, 16(1): 96-98.
[51] Mouraret N, Houssaïni A, Abid S, et al. Role for telomerase in pulmonary hypertension[J]. Circulation, 2015, 131(8): 742-755.
[52] Yu SN, Chen SQ, Fan GQ, et al. Relative telomere length in peripheral blood cells and hypertension risk among mine workers: A case-control study in Chinese coal miners[J]. Biomed Res Int, 2020, 2020: 5681096.