Cyclin D1 and prognosis in human breast cancer

Gillett, Cheryl; Smith, Paul; Gregory, Walter M.; Richards, Michael; Millis, Rosemary R.; Peters, Gordon; Barnes, Diana M.

doi:10.1002/(sici)1097-0215(19960422)69:2<92::aid-ijc4>3.0.co;2-q

Cited by 297 publications

(222 citation statements)

References 13 publications

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“…Like two other studies (22,23), but unlike a third one (20), we found no association between cyclin D1 status and DNA ploidy. We were not able to study the association between positive estrogen receptor status and cyclin D1 overexpression, as has been documented by a number of other investigators (6,18,21,22).…”

Section: Discussionmentioning

confidence: 95%

“…Most previous reports also failed to demonstrate a correlation between cyclin D1 overexpression and size of the lesion, and no study has yet shown an association with axillary lymph node involvement (6, 18 -23). Likewise, the majority of published series failed to report a correlation with tumor grade (18 -22), although two groups reported a lower cyclin D1 positivity rate in high grade breast cancers (6,23). It is conceivable that the possible association with low grade may in part explain the favorable prognostic significance of cyclin D1 overexpression in breast cancer reported by some (6).…”

Section: Discussionmentioning

confidence: 99%

“…Likewise, the majority of published series failed to report a correlation with tumor grade (18 -22), although two groups reported a lower cyclin D1 positivity rate in high grade breast cancers (6,23). It is conceivable that the possible association with low grade may in part explain the favorable prognostic significance of cyclin D1 overexpression in breast cancer reported by some (6). However, the majority of published studies have found no survival difference between cyclin D1 negative and positive tumors.…”

Section: Discussionmentioning

confidence: 99%

“…In the present follow-up study, we wanted to test the hypothesis that in those tumors that had retained both pRB and p16, the G1 cell cycle checkpoint might be abrogated by abnormal expression of two other important genes, specifically cyclin D1 and p53. Cyclin D1 has been reported to be overexpressed in some 25 to 75% of breast cancers, and this may be associated with better survival (6). Accumulation of p53, which occurs in 10 to 60% of breast cancers, is usually taken as a surrogate marker of a mutation in the gene.…”

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confidence: 99%

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Abnormal Expression of Cell Cycle Regulatory Proteins in Ductal and Lobular Carcinomas of the Breast

Geradts

Ingram

2000

Modern Pathology

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In a previous study, we demonstrated that the G1 cell cycle checkpoint in carcinomas of the breast is frequently abrogated by loss of p16, the product of the CDKN2/INK4A gene, and, to a lesser extent, by loss of pRB, the product of the retinoblastoma gene. The purpose of the present study was to determine whether other mechanisms of cell cycle deregulation exist in breast cancers which have retained RB and p16 function. Paraffin sections of 81 invasive breast carcinomas (49 ductal, 26 lobular, 6 mixed) were reacted with monoclonal antibodies against cyclin D1 and p53, using optimized immunohistochemical staining protocols. The staining results were correlated with the expression of p16 and pRB, and with a variety of pathological parameters and DNA ploidy. Twenty-five tumors (31%) accumulated (presumably mutant) p53 and 28 (35%) overexpressed cyclin D1; 7 carcinomas (not including any pure lobular cancers) abnormally expressed both proteins. p53 accumulation correlated with nuclear, mitotic, and overall grade, but not with tumor size, lymph node involvement, or DNA ploidy. Overexpression of cyclin D1 was not associated with any of the patho-biological variables. There was an inverse correlation between loss of p16 and high levels of p53, but not cyclin D1. The G1 cell cycle checkpoint, which is controlled by RB, cyclin D1, and p16, was abrogated in 65% of carcinomas, and only p53 was abnormal in an additional 17%. The number of abnormally expressed genes correlated with mitotic activity and overall tumor grade, but not with tumor histology, size, or nodal status, suggesting that cell cycle deregulation is an early event in breast tumorigenesis. Only 18% of the carcinomas showed a normal level of expression of the four genes tested, and p16 appeared to be the most common target of cell cycle deregulation. These data point to the importance of cell cycle regulatory protein abnormalities in human breast cancer.KEY WORDS: Breast cancer, Cell cycle, Cyclin D1, Immunohistochemistry, p16, p53, Pathology. Mod Pathol 2000;13(9):945-953It is generally accepted that several pathways need to be abrogated in the genesis of a malignant neoplasm. There is an increasing body of evidence that deregulation of one or more of the cell cycle checkpoints is among the most common abnormalities in human neoplasia. We have been particularly interested in the genes controlling the late G1 restriction point. Possibly the most critical component of the latter is pRB, the product of the retinoblastoma gene. Hyperphosphorylation, and hence inactivation of pRB is catalyzed by cyclin dependent kinases (CDKs), most notably CDK4 and 6. The CDKs are activated by binding to their respective cyclins, including cyclin D1 (1). They are inhibited by CDK inhibitors including p15 INK4B and p16 INK4A (specific for CDK4/6) and p21 WAF1 . The latter, in turn, is partially under the transcriptional control of p53 (2). We recently demonstrated that abnormal expression of the genes controlling the G1 restriction point is a very common occurrence in carcinomas ...

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Section: Discussionmentioning

confidence: 95%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Abnormal Expression of Cell Cycle Regulatory Proteins in Ductal and Lobular Carcinomas of the Breast

Geradts

Ingram

2000

Modern Pathology

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“…It contrasts with cyclin Dl, the other important G, cyclin, whose overexpression is known to correlate with the presence of oestrogen receptor (Gillet et al, 1996). A relationship was also found between p53 and cyclin E but this may be indirect as virtually all the carcinomas with p53 protein and cyclin E were poorly differentiated.…”

Section: Evaluation Carcinomasmentioning

confidence: 95%

Lack of cyclin E immunoreactivity in non-malignant breast and association with proliferation in breast cancer

Scott

Walker²

1997

Br J Cancer

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Summary Cyclin E is a G, cyclin that is essential for the transition from G, to S phase in the cell cycle. Alterations to cyclin E expression or regulation could be important in tumorigenesis. Previous immunohistochemical and immunoblotting studies have investigated the expression of cyclin E in breast carcinomas. In this study, cyclin E has been investigated in a range of non-malignant and malignant breasj using immunohistochemistry. Normal and benign tissue from pre-and post-menopausal women (39 cases), non-involved tissue from cancercontaining breasts (47 cases), ductal carcinoma in situ (22 cases) and invasive breast carcinomas (109 cases) have been examined. There was no reactivity in any of the non-malignant breast. Only one ductal carcinoma in situ contained more than 5% reactive cells. A total of 28% of invasive carcinomas had > 5% of reactive cells (range 0-88% positive cells, mean 12.59%, median 1.0%). A significant association was found with poorer differentiation (P < 0.001), high MIBl index (P < 0.001), lack of oestrogen receptor (0.05 > P > 0.025) and the presence of p53 protein (0.05 > P > 0.025). Virtually all cases with cyclin E and p53 were poorly differentiated. The presence of cyclin E is therefore only found in breast malignancies and is associated with more aggressive features, including high proliferation.Keywords: breast cancer; normal breast; cyclin E; immunohistochemistry The cell cycle is the ordered set of processes by which one cell grows and divides into two daughter cells (Murray and Hunt, 1993). This process is the basis for the continuity of life and underlies the complexity of growth, renewal and repair active in all multicellular organisms. Over the last two decades, our knowledge of the complex machinery which regulates the cell cycle has dramatically increased; in particular, the links between oncogenesis and the cell cycle components.Transition through the different phases of the cell cycle is achieved by the formation and inhibition of enzymatically active protein complexes composed of cyclins and their regulatory subunits, the cyclin-dependent kinases (CDKs) (Hunter and Pines, 1994). Among the GI cyclins, cyclin E appears to be essential for the G1/S transition as inhibition of the function of cyclin E and its related cyclin-dependent kinase, cdk2, prevents mammalian cells from entering S phase (Pagano et al, 1993;Tsai et al, 1993;Ohtsubo et al, 1995). The cyclin E protein level peaks in late GI (Dulic et al, 1992;Koff et al, 1992), which correlates with the phosphorylation of pRb, the product of the retinoblastoma tumour suppressor gene. pRb plays a critical role in the cell cycle as its phosphorylation leads to the liberation of certain bound transcription factors essential for DNA synthesis (Nevins, 1992;La Thangue, 1994). The importance of cyclin E in the cell cycle suggests that it is a potential target in tumorigenesis.In the search for newer markers which can provide information about breast cancer behaviour, attention has recently focused on the role of cyclin E. P...

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Cyclin D1 in mammary carcinoma

Barnes

1997

J. Pathol.

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The control of the cell‐cycle‐associated protein cyclin D1 and its variable behaviour in normal and transformed cells is described and contrasted with its activity in vivo. The role of cyclin D1 as a prognostic and predictive marker is examined in clinical breast cancer. High levels of the protein are seen in well differentiated, oestrogen receptor positive tumours, which respond well to tamoxifen treatment for metastatic disease. © 1997 John Wiley & Sons, Ltd.

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Cyclin D1 and prognosis in human breast cancer

Cited by 297 publications

References 13 publications

Abnormal Expression of Cell Cycle Regulatory Proteins in Ductal and Lobular Carcinomas of the Breast

Abnormal Expression of Cell Cycle Regulatory Proteins in Ductal and Lobular Carcinomas of the Breast

Lack of cyclin E immunoreactivity in non-malignant breast and association with proliferation in breast cancer

Cyclin D1 in mammary carcinoma

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