Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ki67 expression, S-phase fraction,
p53
immunoreactivity and DNA content were examined in morphologically normal mucosa and squamous dysplasia of both cancerous and non-cancerous human oesophagi in order to understand possible early events in the development of esophageal squamous cell carcinoma. 103 different foci from cancerous esophagi including 17 non-pathological epithelium, 10 mild, 17 moderate and 15 severe dysplasia, 14 intraepithelial carcinomas and 30 invasive squamous cell carcinomas were examined. Also studied were 57 biopsy specimens from cancer-free individuals, including 12 normal epithelia, 15 oesophagitis, and 16 mild, 11 moderate and 3 severe dysplasia. Areas of squamous dysplasia from both cancer-free and cancerous oesophagi were morphologically indistinguishable and both demonstrated increased cellular proliferation compared to normal or non-pathological epithelia. However, squamous dysplasia in cancerous oesophagi demonstrated significantly larger ki67 labelling indices and smaller S-phase fractions than dysplasia in cancer-free patients.
Squamous dysplasia
in cancerous and non-cancerous oesophagi demonstrated an non-diploid DNA histogram in 67.9% and 43.3% respectively. However, dysplasia from cancer-free individuals demonstrated a non-diploid pattern with one or more peaks (Type I non-diploid histogram) and that from oesophageal cancer patients predominantly exhibited non-diploid histograms without any distinctive peaks (Type II non-diploid histogram). Significant differences in the frequency of
p53
positive foci were observed between dysplasia of cancer-free (23.3%) and cancerous (56.8%) oesophagi. IN cancerous oesophagi, dysplasia associated with Type II non-diploid histograms had a significantly larger number of
p53
-positive foci than those with diploid histograms or Type I non-diploid histograms. These results indicated that the biological features of squamous dysplasia were different between cancerous and non-cancerous human oesophagi despite indistinguishable morphological features. In addition, the combination of
p53
immuno-histochemistry and DNA ploidy analysis may contribute to identify possible high-risk squamous dysplasia of the oesophagus.
...
PMID:DNA ploidy, P53 expression, and cellular proliferation in normal epithelium and squamous dysplasia of non-cancerous and cancerous human oesophagi. 861 9
Precursor lesions in the GIT include flat dysplasias, adenomas, dysplasia superimposed on nonneoplastic polyps, endocrine cell dysplasia, ACF, and condyloma accuminatum. Interobserver variability can be a problem in reporting dysplasia, and ancillary techniques including flow cytometry, image analysis, proliferation markers, and examination for
p53
expression can help in this task.
Squamous dysplasia
seen in the esophagus and anus is graded on either a two-tiered or three-tiered system largely based on the extent of mucosal involvement. Glandular dysplasia is morphologically similar whether seen as an adenomatous polyp or within the setting of Barrett's esophagus, atrophic gastritis, or idiopathic inflammatory bowel disease. The distinction between LGD and HGD in glandular mucosa is based on the severity of cytologic and architectural distortion. Type I dysplasia is the classic adenomatous pattern seen most commonly and recognized by the presence of elongate hyperchromatic stratified nuclei. Type II, the nonadenomatous variant, contains vesicular nuclei and alteration in nuclear size and shape. Nonantral endocrine dysplasia in the stomach is seen in the setting of corporal predominant atrophic chronic gastritis and Zollinger-Ellison syndrome with Multiple Endocrine Neoplasia syndrome type I. Condyloma accuminatum is a HPV-related lesion most commonly seen in men practicing anal intercourse. Superimposed squamous dysplasia can be seen with HGD most frequently in the HIV-positive population. Recognition of the different classification systems of dysplasia, the most frequent settings in which these lesions are found, and their natural history is important for all practicing gastroenterologists and pathologists.
...
PMID:Histologic precursors of gastrointestinal tract malignancy. 1213 10
Pulmonary epithelium is known to undergo a preneoplastic process prior to the development of lung carcinoma.
Squamous dysplasia
and atypical adenomatous hyperplasia have been identified and classified as preinvasive lesions of squamous cell carcinoma and peripheral pulmonary adenocarcinoma, respectively. However, these commonly recognized preinvasive lesions do not completely explain the development of all histological types of lung carcinoma. By examining 114 resection lung specimens, we concluded that there are four histological patterns of bronchial epithelial dysplasia based on morphological features (basal cell dysplasia, columnar cell dysplasia, bronchial epithelial dysplasia with transitional differentiation, and squamous dysplasia). The histological patterns were further characterized by immunohistochemistry. Basal cell dysplasia was focally positive for cytokeratin (CK) 17 and 10/13; columnar cell dysplasia was generally positive for CK7, 8, and 18; bronchial epithelial dysplasia with transitional differentiation had a heterogeneous immunoprofile, while squamous dysplasia was positive for CK10/13 and focally positive for CK17. Various degrees of abnormal expression of
p53
and Ki-67 were found in the different types of bronchial epithelial dysplasia. The cases were divided into three groups based on degree and extent of bronchial epithelial dysplasia. By Crosstabs McNemar test, the Mann-Whitney U-test (for two independent groups), the Kruskal-Wallis one-way nonparametric ANOVA (for >2 independent groups) and Spearman correlation analysis, the degree and extent of bronchial epithelial dysplasia was shown to be positively correlated with the incidence of bronchogenic carcinoma and multifocal primary lung carcinoma (P<0.05). These findings indicated the following: (1) bronchial epithelium can develop various patterns of dysplasia with abnormal/ambiguous cell differentiation and abnormal expressions of
p53
and Ki-67. Thus, these bronchial epithelial dysplastic lesions may represent a preneoplastic process. (2) The degree of bronchial epithelial dysplasia may significantly predispose individuals to bronchogenic carcinoma and multifocal primary lung carcinoma.
...
PMID:Histological types and significance of bronchial epithelial dysplasia. 1641 91
