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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To determine whether loss or inactivation of the putative tumor-suppressor gene, p16, represents an initiating or a secondary event in the progression of human melanoma, we evaluated the status of this gene in early and advanced-stage melanomas of sporadic origin. The results of this analysis revealed p16 deletions in 4/6 primary and 6/14 metastatic melanoma cell lines but not in 3/3 metastatic melanoma specimens. Surprisingly, p16 deletions were also detected in 8/8 benign compound
nevi
and in 1/3 normal human melanocyte isolates. To investigate whether these deletions in benign and malignant stages of the human melanocytic system were specific for p16, we analysed the same specimens and cell lines for expression of p21, another
cyclin-dependent kinase inhibitor
and potential tumor suppressor. In contrast to p16, expression of p21 was detected in 3/3 melanocytes, in 3/3 benign nevi, and in greater than 50% of malignant melanoma cell lines and specimens. Finally, because of the recently documented inverse relationship between expression of p16 and pRb protein in a variety of tumor cell lines, we analysed some of the p16-positive and negative melanoma cell lines for the presence of pRb protein. The results demonstrated pRb protein in each of these cell lines. Taken together, although this study revealed deletions of the p16 gene in a significant number of sporadic primary and metastatic melanoma cell lines, they were also detected in benign nevus specimens and in some normal human melanocyte isolates. Thus, these findings cast some doubt on the role of this gene as being causal to the onset and progression of human melanoma, in particular, sporadic melanoma.
...
PMID:Differential expression of the cyclin-dependent kinase inhibitors p16 and p21 in the human melanocytic system. 864 98
Decreased expression of p27 (a
cyclin-dependent kinase inhibitor
) is an adverse prognostic marker in a diverse array of human cancers. The purpose of this study was to investigate the expression of p27 and Jab1 (a protein involved in p27 degradation) in melanocytic lesions, and to identify their possible participation in melanoma progression. A tissue microarray was constructed using formalin-fixed, paraffin-embedded archival tissue blocks of 94 melanocytic lesions including 19 benign nevi, 21 dysplastic nevi, 23 melanomas, and 31 metastatic melanomas. The expression of p27 and Jab1 was evaluated by immunohistochemistry. The association between p27, Jab1, and clinicopathological parameters was analyzed using chi2 and Fisher's exact tests. Nonparametric Pearson's rank correlation was applied to evaluate the relationship between p27 and Jab1 expression. p27 was expressed in 15 (88%)
nevi
, 18 (95%) dysplastic nevi, 11 (50%) melanomas, and only in four (13%) of the metastatic melanomas (P<0.001). Jab1 was expressed in 14 (82%) standard
nevi
, 18 (95%) dysplastic nevi, 17 (77%) melanomas, and 16 (53%) of the metastatic melanomas (P<0.01). In metastatic melanomas, there was a negative correlation between p27 and Jab1 expression (r=-0.166). The low levels of p27 in primary and metastatic melanoma cases may explain the high proliferation rate of such lesions. Also, the relative high expression of Jab1 in metastatic melanoma, associated with low levels of p27, suggests that Jab1 may be involved in survival and proliferation of metastatic melanoma cells.
...
PMID:Expression of cell cycle inhibitor p27Kip1 and its inactivator Jab1 in melanocytic lesions. 1515 4
Small amounts of cell-free DNA circulate in both healthy and diseased human blood, while increased concentrations of DNA are present in the serum of cancer patients. Tumor-specific mutations or epigenetic modifications have predominantly been detected in tissue specimens. The purpose of this study was to investigate methylation of five different genes involved in tumor suppression and DNA repair (suppressors of cytokine signaling 1 and 2 (SOCS1, SOCS2)), Ras-association domain family protein 1A (RASSF1a), D-type p16(INK4a)
cyclin-dependent kinase inhibitor
(CDKN), and O6-methylguanine DNA-methyltransferase (MGMT)) in the serum of 100 patients using methylation-specific PCR. In all, 41 melanoma patients (stage I = 18; stage II = 10; stage III/IV = 13), 13 healthy controls without
nevi
, and 10 individuals with more than 15
nevi
of >5 mm in size were investigated. For comparison, sera from patients with other skin tumors (nine basal cell cancers, five Kaposi's sarcoma), different metastasized cancers (five breast cancers, five colon cancers), and several chronic inflammatory diseases (n = 12) were also analyzed. In addition, we examined if methylation was involved in silencing transcription of these genes in 12 melanoma specimens. SOCS1, SOCS2, RASSF1a, CDKN2a, and MGMT were methylated in 75, 43, 64, 75, and 64% of melanoma samples, respectively. Of the 41 melanoma patients, 83% had one hypermethylated gene, while 66, 51, and 41% had two, three, or four hypermethylated genes, respectively. Also, 20% of these patients showed hypermethylation for all genes, while only 17% showed no methylation. Importantly, the methylation profile of the selected genes from melanoma patients was distinct from the other analyzed tumors. Transcription of SOCS1, SOCS2, CDKN2a, and RASSF1a genes was significantly reduced in fresh melanoma samples, while MGMT showed a 12-fold upregulation at the messenger ribonucleic acid level (P < 0.001). Our findings suggest that epigenetic silencing of the studied tumor suppressor genes is a common and probably important mechanism for melanoma formation. This convenient method using a simple blood sample may contribute to classification of melanoma and awaits clinical validation.
...
PMID:Epigenetic inactivation of tumor suppressor genes in serum of patients with cutaneous melanoma. 1637 57
A major focus of melanoma research continues to be the search for genes/proteins that may be suitable targets for molecular therapy of primary and metastatic melanoma. In line with this effort, the objective of the study presented herein was to determine whether interfering with cell cycle progression and in particular, the expression and function of select cyclin-dependent kinases, would impair the biological features of advanced melanoma. We provide data, which document that unlike
nevi
and melanoma in situ, primary and metastatic melanomas express high levels of CDK2, CDK1, and CDK5. Furthermore, we present the results of in vitro and preclinical in vivo studies, which demonstrate that treatment with a small-molecule
cyclin-dependent kinase inhibitor
that selectively blocks the function of CDK2, CDK5, CDK1, and CDK9, leads not only to inhibition of melanoma cell proliferation and apoptosis of melanoma cells, but also impairs the growth of human melanoma xenografts.
...
PMID:Expression analysis and molecular targeting of cyclin-dependent kinases in advanced melanoma. 2146 16
The histologic features that permit the identification of complete
mole
(CM) and partial
mole
(PM) as well as hydropic abortion (HA) may be overlapping. The
cyclin-dependent kinase inhibitor
p57Kip2 protein (p57) has been included among the paternally imprinted genes in humans that commonly used for diagnosis of CM. P27 is one of the cell-cycle controlling molecules that may be involved in the proliferation, differentiation and oncogenesis of trophoblastic cells. The current study tried to test the diagnostic validity of several histopathological parameters together with p57 and p27 immunostaining in differentiation between different gestational trophoblastic diseases. The current study was carried out on 13 cases product of conception, 13 cases PM, 25 cases CM and 8 cases choriocarcinoma. Maximal villous diameter at 1.5 mm cut-off point was found to be the most reliable factor in discrimination between PM and product of conception followed by presence of villous cistern, p57 expression by extravillous cytotrophoblasts at 1.5% cut-off point and p27 expression by villous cytotrophoblasts at 25% cut-off point. P27 expression by stromal cells and total trophoblastic population at 7.5% cut-off point could discriminate between PM and CM. P57 and p27 are co-parallely expressed in non-molar as well as partial molar gestations, but they did not show this coordination in choriocarcinoma. This study demonstrated diagnostic values for several cut-off points for p57 and p27 in discrimination between different categories of gestational trophoblastic diseases. The co-expression of p27 and p57 by extravillous cytotrophoblasts and their positive correlation in non-molar gestations may indicate its suppressive role on the proliferation of these cells to provide them the capacity for differentiation and invasion.
...
PMID:The diagnostic value of p27 in comparison to p57 in differentiation between different gestational trophoblastic diseases. 2343 93
A complete hydatidiform mole (CHM) is androgenetic in origin and characterized by enhanced trophoblastic proliferation and the absence of fetal tissue. In 15 to 20% of cases, CHMs are followed by malignant gestational trophoblastic neoplasms including choriocarcinoma. Aberrant genomic imprinting may be responsible for trophoblast hypertrophy in CHMs, but the detailed mechanisms are still elusive, partly due to the lack of suitable animal or in vitro models. We recently developed a culture system of human trophoblast stem (TS) cells. In this study, we apply this system to CHMs for a better understanding of their molecular pathology. CHM-derived TS cells, designated as TS
mole
cells, are morphologically similar to biparental TS (TS
bip
) cells and express TS-specific markers such as GATA3, KRT7, and TFAP2C. Interestingly, TS
mole
cells have a growth advantage over TS
bip
cells only after they reach confluence. We found that p57
KIP2
, a maternally expressed gene encoding a
cyclin-dependent kinase inhibitor
, is strongly induced by increased cell density in TS
bip
cells, but not in TS
mole
cells. Knockout and overexpression studies suggest that loss of p57
KIP2
expression would be the major cause of the reduced sensitivity to contact inhibition in CHMs. Our findings shed light on the molecular mechanism underlying the pathogenesis of CHMs and could have broad implications in tumorigenesis beyond CHMs because silencing of
p57
KIP2
is frequently observed in a variety of human tumors.
...
PMID:Loss of p57
KIP2
expression confers resistance to contact inhibition in human androgenetic trophoblast stem cells. 3179 81
