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

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ki-67 is a monoclonal antibody directed against a nuclear antigen present only in proliferating cells in the G1, S, G2, and M phases of the cell cycle. Fifty-one frozen glioma specimens were stained with Ki-67 using the avidin-biotin immunoperoxidase system. For each tumor, six different randomly selected fields were examined. The percentage of Ki-67-positive cells in the total number of cells in the five fields counted with counterstaining has been calculated. The areas of necrosis and the vascular endothelial cells when they were distinguishable were not included in the calculation. The indices determined on this material ranged from 0% to 4.5% (mean, 1.0; SD, 1.5) for 16 low grade astrocytomas; from 0.7% to 7.4% (mean, 3.5; SD, 2.2) for 8 anaplastic astrocytomas; and from 1.7% to 32.2% (mean, 11.1; SD, 8.2) for 27 glioblastomas. The differences among the means of each group are statistically significant. Five patients with malignant gliomas with an index of less than 2.5 had survival times of more than 40 weeks. These results show that the Ki-67 index of proliferating cells in human gliomas correlates with the usual histological classification of these tumors. There is a potential interest in using this technique in routine histopathology because it is simple and more rapid than the classic methods of evaluation of proliferating cells.
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PMID:Identification of proliferating cells in human gliomas using the monoclonal antibody Ki-67. 283 82

The proliferation rate of 40 intracranial neoplasms (30 gliomas, 1 hemangioblastoma, 3 meningiomas, 1 neurinoma and 5 brain metastases) was investigated using the monoclonal antibody Ki-67. In eleven of the gliomas recurrences could be observed, and two of them recurred for second time. In total the Ki-67 labelling indices of 53 specimens were investigated. The Ki-67 nuclear antigen was demonstrated in frozen sections by application of the appropriate monoclonal antibodies according to a modified alkaline phosphatase-antialkaline phosphatase (APAAP) technique. The proliferation rate was evaluated by cell count calculation of the staining index. Ki-67-labelled glioma cells varied from 0.2 percent in one meningioma (WHO-grade I) to 9.1 percent in one glioblastoma. In ten glioma recurrences, higher Ki-67 staining indices could be observed than in their primaries, even when the histological grading did not change substantially. In a cerebellar hemangioblastoma, a trigeminal neurinoma and two endotheliomatous meningiomas the fraction of stained nuclei was less than one percent; however, one recurrent transitional meningioma without any histological sign of malignancy showed a staining index of 2.4 percent. The staining indices of five brain metastases of different malignancies ranged from 1.5 percent in a malignant melanoma to 6.1 percent in bronchial carcinoma. In the majority of the cases examined, the percentage of Ki-67 labelled cells was in accordance with the histologic grade of the neoplasm. In general, there was a direct relationship between the number of stained nuclei and the frequency of mitoses (mitotic index) evaluated in hematoxylin-eosin stained frozen sections. Interestingly, the frequency of mitosis and stained nuclei were higher in tumor recurrences than in the primaries. The results of this study imply that immunohistological labelling of the proliferating cell fraction should become an important additional criterion to predict the biological behaviour of human nervous system neoplasms.
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PMID:Relationship between Ki-67 positive cells, growth rate and histological type of human intracranial tumors. 305 45

In order to determine the principal histologic features in distinguishing the "anaplastic" from the "well differentiated" oligodendroglioma and mixed glioma (oligo-astrocytoma), correlations between the growth fraction, and histologic grade and 6 histologic variables (vascular proliferation, cytologic pleomorphism, calcification, necrosis, cellularity, mitotic index) were studied in 24 patients. The growth fraction was calculated as the percentage of Ki-67-immunostained nuclei in frozen sections using Ki-67 monoclonal antibody. 6 histologic variables were checked with HE stain of paraffin-embedded tissue sections. The growth fraction was in general agreement with the histologic grade, in order of decreasing mean percentage, ranging from 11.1% (anaplastic mixed glioma) to 5.3% (anaplastic oligodendroglioma), 2.8% (isomorphic oligo.) and 1.9% (mixed, grade II). There was a significant association between the growth fraction and 3 histologic variables (vascular proliferation, cytologic pleomorphism, mitotic index) out of 6. Thus, even though there exist some gaps between these parameters in paraffin-embedded tissues and those in frozen sections, the percentage of Ki-67-immunostained nuclei is likely to be very valuable as a supplement information of histological grading and a prognostic indicator.
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PMID:[Cell kinetics of oligodendroglioma and oligo-astrocytoma--Ki-67 PaP study]. 305 41

The bcl-2 protooncogene encodes a 26-kD protein that extends cell survival by blocking apoptosis. This protein has been found to be overexpressed in neoplastic neural cell lines, although its expression in reactive and neoplastic astrocytes in vivo has not been well characterized. The authors hypothesized that bcl-2 oncoprotein expression in gliomas might be positively correlated with the tumor's degree of malignancy. Sixty-three gliomas of various subtypes and histological grades were immunostained by bcl-2 protein and the percentage of positive cells was quantitatively assessed. All tumors contained neoplastic cells that were immunoreactive for the bcl-2 protein (range of cell positivity 1%-53%). It was found that bcl-2 expression did not vary significantly as a function of tumor subtype or grade (p < 0.1, one-way analysis of variance (ANOVA) on ranks) as compared to the cell proliferation marker Ki-67 (MIB-1) in which a very significant correlation with tumor grade was noted (p < 0.0000001, one-way ANOVA on ranks). In fact, the highest percentage of bcl-2 immunoreactive cells was noted in low-grade gliomas, that is, in juvenile pilocytic astrocytomas and oligoastrocytomas. The specificity of bcl-2 overexpression was also assessed in 10 nonneoplastic lesions associated with prominent reactive astrocytosis. In nine of these cases (90%), bcl-2-positive reactive astrocytes were observed, often in large numbers, whereas relatively few Ki-67 immunoreactive cells were noted. The authors conclude that bcl-2 oncoprotein expression as assessed immunohistochemically does not correlate with glial tumor type or grade and its overexpression is not confined only to neoplastic conditions. Instead, the finding of robust bcl-2 expression in low-grade glial tumors and in reactive astrocytes warrants the inference that resistance to apoptosis is a nonspecific finding in astrocytes associated with both reactive and neoplastic conditions.
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PMID:Expression of bcl-2 in reactive and neoplastic astrocytes: lack of correlation with presence or degree of malignancy. 749 Jun 15

To analyze the process of mesenchymal differentiation in vitro, we examined 5 human glioblastomas as biopsy specimens, monolayer cultures and 3-dimensional fragment spheroid cultures for the immunohistochemical expression of extracellular matrix (ECM) components (collagen types I, III-VI, laminin) and integrin receptors (beta 1, beta 2, beta 3 and beta 4 chains). mRNA for type-I and type-IV collagen alpha I chains was quantified using reverse transcription-polymerase chain reaction. In situ, glioma cells expressed beta 1, the common beta chain of most integrin ECM receptors, while ECM components were restricted to vascular elements. Early monolayer cultures showed a marked increase in ECM components (interstitial collagens more than basement membrane components), and coexpression of ECM components and glial fibrillary acidic protein (GFAP) by most cells. beta 2 and beta 3 integrins were upregulated in the primary cultures. In the fifth passages, GFAP-positive cells were decreased and collagen-expressing cells increased. The spheroids exhibited preserved GFAP staining, neoexpression of beta 4 integrin in some tumors, and variable ECM expression by glioma cells which was lower than that in monolayer cultures. ECM deposition usually commenced in central spheroid areas where the Ki-67 proliferation index was low. We conclude that different culture systems are characterized by distinct expression patterns for ECM components and receptors, and that mesenchymal features in cultured gliomas arise due to transdifferentiation of glioma cells.
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PMID:Collagens, integrins and the mesenchymal drift in glioblastomas: a comparison of biopsy specimens, spheroid and early monolayer cultures. 752 12

For automated astrocytoma grading morphometric parameters are determined by means of an image analysis system and a special Ki-67(MIB1)/Feulgen-staining method allowing the quantification of the essential characteristics of malignant gliomas: growth pattern, cellularity, proliferation index and nucleus pleomorphism. Based upon a cluster analytical approach a grading scale resembling the WHO-scheme is established which is suitable for automatic glioma grading purposes (HOM-scale). For automatic glioma grading backpropagation neural networks are employed. The results are compared with those of a classical multivariate discriminant classificatory analysis. The presented approach can also be employed for automatic grading of other tumour entities.
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PMID:[Computer assisted grading of gliomas of the astrocytoma/glioblastoma groups]. 753 14

In an effort to optimize immunocytochemical methods to evaluate cell kinetics in brain tumors, we studied two newly-developed antibodies which react with formalin resistant epitopes of Proliferating Cellular Nuclear Antigen (PCNA) and Ki-67. These results were compared with standard flow cytometric cell cycle data from the same tumor specimens to determine if these methods correlate with each other, and whether retrospective analysis using these antibodies is feasible for cell kinetic analysis of brain tumors. Thirty-one specimens of glial tumors submitted for flow cytometry during 1992 were also reacted with antibodies to PCNA (PC-10) and Ki-67 (MIB-1). Flow cytometry scores for S-phase Fraction were compared with immunocytochemical scores for both antibodies, using an arbitrary rating of 1 (low, < 4%), 2 (intermediate, 4-6%), 3 (high, > 6%), and 1 (< 25% positive), 2 (26-75% positive), 3 (> 75% positive), respectively. MIB-1 results were found to correlate significantly with the S-phase fraction as determined by flow cytometry. The MIB-1 data showed a trend toward underestimating, i.e., lower scores, the proliferative index compared with flow cytometry. There was less of a correlation between PC-10 antibody scores and flow cytometry S-phase fraction, as PC-10 immunostaining typically overestimated the proliferative rate of brain tumors when compared with flow cytometry. There was an exact correlation between PC-10 and MIB-1 in only 4 cases, whereas in the remaining specimens, PC-10 results were always higher than MIB-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Analysis of proliferative grade in glial neoplasms using antibodies to the Ki-67 defined antigen and PCNA in formalin fixed, deparaffinized tissues. 756 3

The monoclonal antibody Ki-67 recognizes a nuclear antigen expressed in the G1, S, G2, and M phase of the cell cycle and has been used extensively as an indicator of cellular proliferation in malignant gliomas, both in the laboratory and clinically. Recently, protein kinase C (PKC) inhibitors have been demonstrated to inhibit malignant glioma growth both in in vitro and in vivo. This study was undertaken to determine whether Ki-67 could function as an indicator of cellular proliferation rate after PKC inhibition in gliomas and to explore cell cycle specificity of such inhibition. Both established and low-passage malignant glioma cell lines have previously been shown to be sensitive to growth inhibition by the PKC inhibitors staurosporine and tamoxifen in vitro (IC50 in the nanomolar and micromolar ranges, respectively), as measured by cell numbers, [3H]thymidine uptake, and flow-cytometric DNA analysis. However, in the same cells that are inhibited by staurosporine and tamoxifen on these assays, and on the 3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl tetrazolium bromide (MTT) assay in the present study, the Ki-67 labeling index paradoxically increased in a dose-related manner with the same treatments, as measured by immunohistochemistry and confirmed by flow cytometry. For example, in established line U-87, a 20.5% decrease in thymidine uptake and a 28.5% decrease in absorbance on the MTT assay produced by tamoxifen at 1 microM was associated with an increase in Ki-67 labeling from 42% to 62%; staurosporine, which produces a 78.8% decrease in thymidine uptake in cell line A-172 at 10 nM, produced an increase in Ki-67 labeling from 19% to 32%. In this regard, Ki-67 labeling of glioblastoma tissue from a patient treated with high-dose tamoxifen yielded results within the range of 10% to 15% (consistent with values seen in untreated glioblastoma), despite tumor regression with treatment. The authors' interpretation of these results is that these PKC inhibitors are halting the cell cycle in the G1 phase or the G1-S transition (beyond G0 but before S-phase), resulting in a paradoxical increase in labeling while arresting growth. Two important implications from these observations are that Ki-67 is not a reliable indicator of cellular proliferation after treatment with PKC inhibitors and that these inhibitors used at the doses given above halt cell growth in a phase-specific manner.
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PMID:Paradoxical elevation of Ki-67 labeling with protein kinase inhibition in malignant gliomas. 786 Dec 25

Astrocytomas are the most common primary gliomas, with the highly anaplastic glioblastoma multiforme being the most frequently occurring astrocytoma. Distinctive histological features permit astrocytomas to be graded into levels of anaplasia, and these histological grades correlate with biological behavior and patient prognosis. However, there is also a strong correlation between patient age, tumor grade, and prognosis. More objective indicators of tumor proliferative potential, such as BUdR or Ki-67 LI, are currently being investigated with the hope that these will be a more accurate means of predicting patient survival. Oligodendrogliomas are a much less common primary glioma, with a generally better survival rate than astrocytomas. However, grading systems for oligodendrogliomas are not well defined. For any type of glioma, subsequent surgery after radiation therapy may be required for treatment of therapeutic effects or for therapy planning at recurrence. The histological changes observed in these post-therapy biopsy specimens or resections may be difficult to distinguish from reactive changes that can simulate recurrent tumor and vice versa.
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PMID:Neuropathology of malignant gliomas. 815 59

The effects of regional heterogeneity on the accuracy of histological grading of gliomas are well known, but little has been reported about its implications for other diagnostic modalities. This study investigated the relationships of regional heterogeneity in tumor proliferative activity, measured by Ki-67 labeling indices (LI), and histological grades for 16 regionally sampled glioma resections. There was a strong correlation between histological grades and Ki-67 LI in individual regions (p < 0.001), and both methods demonstrated comparable heterogeneity. Heterogeneity increased with tumor grade, probably as an expression of the increased genetic instability that accompanies tumor progression. Similarly, regions with comparable proliferative activity tended to cluster, paralleling clonal expansion. Thus, both histological grading and Ki-67 LI are subject to heterogeneity-induced sampling errors that limit their diagnostic accuracy, particularly in small biopsies. However, fewer grading errors occurred when using both methods together than when using either method alone, suggesting that the use of multiple techniques may reduce the adverse effects of regional heterogeneity on diagnostic accuracy. Regional heterogeneity appears to be a ubiquitous feature of gliomas: it also has been reported in karyotype, p53 oncogene mutations, and PDGF and EGFR expression. The effects of regional heterogeneity on new methods for studying gliomas need to be considered.
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PMID:Regional heterogeneity in the proliferative activity of human gliomas as measured by the Ki-67 labeling index. 822 80


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