Many people have played the facebook game “What’s Your Real Age”. My guess that those who played it wanted to feel they were younger than their biological age. Telomere length seems to be the real way to determine actual “biological age”. These are the real “biological clocks”. Telomeres are repetitive sequences at the ends of chromosomes that shorten with age and also shorten in certain metabolic and disease states. They are sometimes called the protective “caps” on the ends of chromosomes. Because of the manner in which chromosomes are replicated during cellular division, a bit of the telomere is not copied with each subsequent cellular generation resulting in a gradual shortening of the telomere restriction fragment (TRF) length.
Telomeres Shorten With Age
A recent study showed that people who perform more leisure time physical activity have longer telomeres. Another recent study, with an admitted low subject number, demonstrated that eating processed meat such as sliced bologna would also slice down the size of your telomeres. This study, published in the American Journal of Clinical Nutrition did not find other expected dietary associations.
The Cardiovascular Health Study (2007) found inverse correlations (shortened telomeres) between TRF length and fasting glucose level, fasting insulin level, systolic and diastolic blood pressure, carotid intima-media thickness, interleukin-6, high BMI, overweight (in men).
Some studies including one with “voluntary running” in mice showed the production of telomere protective compounds with the “voluntary” running. On a side note, I’ll have to look closer at this study. If we can can get mice to voluntarily participate in a “fitness” program, maybe we can figure out the secret to get more people to do so. Perhaps cheese is the answer.
Aubert and Lansdorp (2008) published an excellent review of the biology of telomeres and aging. They noted that Barbara McClintock, in her 1983 Nobel acceptance speech pointed out the significance of cellular response to stress and dangers. “In the future attention undoubtedly will be centered on the genome, and with greater appreciation of its significance as a highly sensitive organ of the cell, monitoring genomic activities and correcting common errors, sensing the unusual and unexpected events, and responding to them, often by restructuring the genome. We know about the components of genomes that could be made available for such restructuring. We know nothing, however, about how the cell senses danger and instigates responses to it that often are truly remarkable.”
Short Telomeres Trigger Cellular Defences
The shortened telomeres are likely sending more “damage” signals to the cells which lead to a number of biochemical pathways which degrade the contents of the cell. Studies on cellular senescence, apoptosis, and research on genomics is leading us to a better understanding, but we have a long ways to go. The complexity never ends, but it continues to unwind. And you can almost hear the tick tock of the biological clock. Your best means of slowing up the ticking are life habit changes: exercise regularly, maintain healthy body weight, don’t smoke and eat a healthy diet.
What’s my age again? – Blink 182
What's My Age Again?
References:
Lynn F. Cherkas, PhD; Janice L. Hunkin, BSc; Bernet S. Kato, PhD; J. Brent Richards, MD; Jeffrey P. Gardner, PhD; Gabriela L. Surdulescu, MSc; Masayuki Kimura, MD, PhD; Xiaobin Lu, MD; Tim D. Spector, MD, FRCP; Abraham Aviv, MD. Arch Intern Med. 2008;168(2):154-158.
Annette L. Fitzpatrick1, Richard A. Kronmal2, Jeffrey P. Gardner3, Bruce M. Psaty1,4, Nancy S. Jenny5, Russell P. Tracy5,6, Jeremy Walston7, Masyuki Kimura3 and Abraham Aviv . Leukocyte Telomere Length and Cardiovascular Disease in the Cardiovascular Health Study. American Journal of Epidemiology 2007 165(1):14-21; doi:10.1093/aje/kwj346.
J. A Nettleton, A. Diez-Roux, N. S Jenny, A. L Fitzpatrick, and D. R Jacobs Jr. Dietary patterns, food groups, and telomere length in the Multi-Ethnic Study of Atherosclerosis (MESA). Am. J. Clinical Nutrition, November 1, 2008; 88(5): 1405 – 1412
Liza S.M. Wong, Hisko Oeseburg, Rudolf A. de Boer, Wiek H. van Gilst, Dirk J. van Veldhuisen and Pim van der Harst.. Telomere biology in cardiovascular disease: the TERC–/– mouse as a model for heart failure and ageing. Cardiovascular Research 2009 81(2):244-252; doi:10.1093/cvr/cvn337
Aubert, G. and P. M. Lansdorp (2008). “Telomeres and Aging.” Physiol. Rev. 88(2): 557-579.
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