The p63 gene encodes at least six different proteins with homology to the tumour suppressor protein p53 and the related p53 family member p73. So far, there have been limited data concerning the expression patterns of individual p63 proteins, due to a lack of reagents that distinguish between the different isoforms. Three antibodies have been produced specifically directed against the two N-terminal isoforms (TAp63 and DeltaNp63) and the C-terminal region of the p63alpha proteins. TAp63 proteins are located suprabasally in stratified epithelia compared with the N-terminal truncated forms, which are more abundantly expressed in the basal cell layer, indicating a switch in expression of p63 isoforms during normal cellular differentiation. Analysis of squamous cell carcinomas shows DeltaNp63alpha to be the most widely expressed isoform, compatible with a role for this protein in promoting neoplastic cell growth in these tissues. DeltaNp63 protein expression is also restricted to basal cells in breast and prostate, whilst TAp63 isoforms are more widely expressed in these tissues as well as in tumours at these sites. TAp63, but not DeltaNp63 or p63alpha, is detected in normal colon and in colon carcinoma. TAp63 proteins are also expressed in the nuclei of a sub-population of lymphoid cells and in most malignant lymphomas, whereas DeltaNp63 proteins are not expressed. Taken together, a hitherto unrecognized regulation of p63 isoform expression in vivo has been uncovered, with different p63 proteins expressed during differentiation and in different cell types. The data indicate roles for specific p63 isoforms not only in maintaining epithelial stem cell populations, but also in cellular differentiation and neoplasia.
Background
It is widely believed that females have longer telomeres than males, although results from studies have been contradictory.
Methods
We carried out a systematic review and meta-analyses to test the hypothesis that in humans, females have longer telomeres than males and that this association becomes stronger with increasing age. Searches were conducted in EMBASE and MEDLINE (by November 2009) and additional datasets were obtained from study investigators. Eligible observational studies measured telomeres for both females and males of any age, had a minimum sample size of 100 and included participants not part of a diseased group. We calculated summary estimates using random-effects meta-analyses. Heterogeneity between studies was investigated using sub-group analysis and meta-regression.
Results
Meta-analyses from 36 cohorts (36,230 participants) showed that on average females had longer telomeres than males (standardised difference in telomere length between females and males 0.090, 95% CI 0.015, 0.166; age-adjusted). There was little evidence that these associations varied by age group (p = 1.00) or cell type (p = 0.29). However, the size of this difference did vary by measurement methods, with only Southern blot but neither real-time PCR nor Flow-FISH showing a significant difference. This difference was not associated with random measurement error.
Conclusions
Telomere length is longer in females than males, although this difference was not universally found in studies that did not use Southern blot methods. Further research on explanations for the methodological differences is required.
BackgroundTelomeres play a key role in the maintenance of chromosome integrity and stability, and telomere shortening is involved in initiation and progression of malignancies. A series of epidemiological studies have examined the association between shortened telomeres and risk of cancers, but the findings remain conflicting.MethodsA dataset composed of 11,255 cases and 13,101 controls from 21 publications was included in a meta-analysis to evaluate the association between overall cancer risk or cancer-specific risk and the relative telomere length. Heterogeneity among studies and their publication bias were further assessed by the χ2-based Q statistic test and Egger's test, respectively.ResultsThe results showed that shorter telomeres were significantly associated with cancer risk (OR = 1.35, 95% CI = 1.14–1.60), compared with longer telomeres. In the stratified analysis by tumor type, the association remained significant in subgroups of bladder cancer (OR = 1.84, 95% CI = 1.38–2.44), lung cancer (OR = 2.39, 95% CI = 1.18–4.88), smoking-related cancers (OR = 2.25, 95% CI = 1.83–2.78), cancers in the digestive system (OR = 1.69, 95% CI = 1.53–1.87) and the urogenital system (OR = 1.73, 95% CI = 1.12–2.67). Furthermore, the results also indicated that the association between the relative telomere length and overall cancer risk was statistically significant in studies of Caucasian subjects, Asian subjects, retrospective designs, hospital-based controls and smaller sample sizes. Funnel plot and Egger's test suggested that there was no publication bias in the current meta-analysis (P = 0.532).ConclusionsThe results of this meta-analysis suggest that the presence of shortened telomeres may be a marker for susceptibility to human cancer, but single larger, well-design prospective studies are warranted to confirm these findings.
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