In our study we have seen no significant decline in T cell numbers with age, discounting this as an influential factor, and we have further discounted the effects of gender differences. Proliferation could contribute towards the differences seen in the 10th decade, although the derivation of the samples from several countries of origin should ameliorate the effects of infection, which may be geographically limited. However, age is also associated with greater proliferation within naive populations [42,43].
While this could also contribute to decline between the 9th EPZ015666 nmr and 10th decades it would seem unlikely to account for all of it, as the decline from a value of 2·35 × 106 to 1·5 × 105 would require all the T cells in the body undergoing more than four divisions. The decline could also be due to the loss of the sjTREC from the nucleus due to degradation of the DNA. However, if this occurs we would expect that it should occur at the same rate throughout life. While we cannot resolve whether the decline in thymic output over the entire lifespan
is Pexidartinib mouse either exponential, biphasic or multiphasic, we have observed a dramatic and precipitous decline in TREC levels starting in the 9th decade. Comparison of the correlation coefficients obtained between the ages of 60–80, 80–90 and those greater than 90 years clearly shows a pronounced change in the rate of decline (Table 2). Despite the apparent discordance with the mean sjTREC levels in Table 1, which indicates an abrupt decline in the 10th decade, both results support the underlying argument that a significant decrease in sjTREC levels is evident by the 10th decade. The possible influences of limited data between the ages of 85–89 years, sample size and mean effects means the precise timing at which the rate declines cannot be calculated. However, it is suggestive that these findings are not attributable
to outliers within the sample population. We consider that this may be due mainly to thymic output undergoing a severe decline in the mid-80s to the early 90s years. Such an explanation would also fit with the results from a recent study, which showed that 21 of 25 centenarians had undetectable sjTREC levels Dichloromethane dehalogenase [44]. None of the authors has any potential financial conflict of interest related to this manuscript. This project was funded by the EU (Zincage contract no. FOOD-CT-2003-506850). The authors would like to thank all the Zincage partners for providing samples and support throughout this project, in particular Dr George Dedousis from Greece, Professor Lothar Rink from Germany, Professors Tamas Fulop and George Herbein from Canada and France, Dr Jolanta Jajte from Poland and Professors Daniela Monti and Eugenio Mocchegiani from Italy. We would also like to extend our gratitude to all the healthy elderly volunteers from the different countries for agreeing to participate in this study.