2 research outputs found
The correlation of keratin expression with in-vitro epithelial cell line differentiation
MPhil 2009 QMThe mechanism of transcriptional regulation which allows oral mucosal-specific
expression of the human keratin 13 (K13) gene remains unknown. The pattern of
expression of keratin genes in the oral mucosa shows sequential synthesis of specific
basal and suprabasal keratins. K15 and K13 are respectively basal and suprabasal
markers of buccal epithelial tissue. K15 and K13 expression are known to alter in
oral squamous cell carcinoma. When differentiation occurs basal cells migrate to the
suprabasal layer and K15 synthesis stops and the synthesis of suprabasal markers like
K13 begins. The aims of the study are to determine whether the K13 promoter can
confer 1) oral mucosal cell-specific differentiation in in-vitro culture, 2) understand
the mechanism by which different positive or negative regulators impose basal cellspecific
promoter expression and how this differs from suprabasal promoter
expression and 3) whether K15 and K13 expression can be correlated with in-vitro
cell differentiation stage. To provide insight into the basal and suprabasal expression
of K15 and K13, their 5′-upstream sequence regions were linked to EGFP. The
results show that the expression of K15 and K13 can be correlated with in-vitro cell
differentiation stages in malignant epithelial cell lines. The full length K13 promoter
construct drove negligible GFP expression in the human foreskin fibroblast cell line
and had a greater expression in the oral SCC25 cell line than the epidermal-derived
RTS3b cell line. Therefore, the K13 promoter sequence appears to contain
suppressor elements conferring oral cell-specificity. The expression patterns of
truncated K13 promoter fragments after transient transfection into permissive, non
permissive and non-epithelial cell lines, suggest binding of a negative regulatory
element to the full length K13-3089bp promoter. K13 expression is induced by
pharmacological alteration of chromatin structure in non-permissive skin-derived
RTS3b cells. The MEK 1/ 2 pathway seems not necessary for the expression of K13,
but PI3K/Akt pathway is important for expression of K13 in oral mucosa. In
conclusion, the results suggest that keratin gene promoter expression can be
correlated with in-vitro cell differentiation stages and these restricted differences in
keratin expression might be co-ordinated by the synergistic action of transcription
factors
Identification of Type 1 Diabetes-Associated DNA Methylation Variable Positions That Precede Disease Diagnosis
Monozygotic (MZ) twin pair discordance for childhood-onset Type 1 Diabetes (T1D) is similar to 50%, implicating roles for genetic and non-genetic factors in the aetiology of this complex autoimmune disease. Although significant progress has been made in elucidating the genetics of T1D in recent years, the non-genetic component has remained poorly defined. We hypothesized that epigenetic variation could underlie some of the non-genetic component of T1D aetiology and, thus, performed an epigenome-wide association study (EWAS) for this disease. We generated genome-wide DNA methylation profiles of purified CD14(+) monocytes (an immune effector cell type relevant to T1D pathogenesis) from 15 T1D-discordant MZ twin pairs. This identified 132 different CpG sites at which the direction of the intra-MZ pair DNA methylation difference significantly correlated with the diabetic state, i.e. T1D-associated methylation variable positions (T1D-MVPs). We confirmed these T1D-MVPs display statistically significant intra-MZ pair DNA methylation differences in the expected direction in an independent set of T1D-discordant MZ pairs (P = 0.035). Then, to establish the temporal origins of the T1D-MVPs, we generated two further genome-wide datasets and established that, when compared with controls, T1D-MVPs are enriched in singletons both before (P = 0.001) and at (P = 0.015) disease diagnosis, and also in singletons positive for diabetes-associated autoantibodies but disease-free even after 12 years follow-up (P = 0.0023). Combined, these results suggest that T1D-MVPs arise very early in the etiological process that leads to overt T1D. Our EWAS of T1D represents an important contribution toward understanding the etiological role of epigenetic variation in type 1 diabetes, and it is also the first systematic analysis of the temporal origins of disease-associated epigenetic variation for any human complex disease