Mammaglobin 1 promotes breast cancer malignancy and confers sensitivity to anticancer drugs

Picot, Nadia; Guerrette, Roxann; Beauregard, Annie-Pier; Jean, Stéphanie; Michaud, P; Harquail, Jason; Benzina, Sami; Robichaud, Gilles A.

doi:10.1002/mc.22358

Cited by 15 publications

(25 citation statements)

References 54 publications

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“…Our findings suggest the possibility of an inversely proportional relation between MVD and MGB in a limited number of breast cancer specimens. The cases in which we identified a strong MGB expression and increased MVD values, may partially support the findings of Picot et al regarding MGB-A implications in promoting cancer cell malignant features [34]. The authors of this study demonstrated that the loss of MGB-A expression determines a decrease of tumor cell proliferation [34].…”

Section: Resultssupporting

confidence: 90%

“…The cases in which we identified a strong MGB expression and increased MVD values, may partially support the findings of Picot et al regarding MGB-A implications in promoting cancer cell malignant features [34]. The authors of this study demonstrated that the loss of MGB-A expression determines a decrease of tumor cell proliferation [34]. However, these results need to be further investigated in order to become applicable in daily clinical practice.…”

Section: Resultssupporting

confidence: 89%

“…MGB-A implications as a prognostic parameter in breast cancer patients remain controversial at the time being. The studies conducted in the field of breast cancer either support its negligible role compared to other biomarkers [30,42] or are in favor of MGB-A implications in cancer cell proliferation and poor patient outcome [34]. Despite the available data, MGB may not be as completely elucidated as it seems at the time being.…”

Section: Resultsmentioning

confidence: 99%

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Microvessel Density and Mammaglobin A Expression as Prognostic Markers in Molecular Types of Breast Cancer

Jitariu¹,

Ceauşu²,

Meche³

et al. 2019

Rev. Chim.

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Increased microvessel density (MVD) values in breast cancer correlate with tumor growth and progression while mammaglobin (MGB) expression in tumor cells is associated with a favorable prognosis. We aim to evaluate and correlate MVD values with MGB expression in molecular types of breast cancer specimens and to determine their utility as prognostic biological markers. A number of 52 breast cancer specimens were included in the study. Specimens were processed for routine histopathological diagnosis followed by the molecular classification by means of estrogen (ER), progesterone (PR) and HER2 immunohistochemical reactions. After performing immunohistochemistry for CD34 and MGB, MVD evaluation was made using the �hot spot� method for each case and MGB was scored between 0 (negative) and +3 (strong positive) depending on the intensity and distribution of the staining. MGB expression in tumor cells and MVD mean values were extremely variable. The greatest MVD mean values were obtained in luminal B followed by HER2, luminal A and triple negative breast cancer (TNBC) (95.33, 69, 62, and 40, respectively). MGB expression in the tumor cells generally ranged from mild to weak and was strong only in a few invasive ductal carcinoma cases. In cases with TNBCs the expression of MGB in tumor cells was weak and focal or negative. This variability was noticed between the molecular types of breast cancers and even within the same molecular type. In a restricted number of cases, MGB positive tumors were associated with low MVD values while the negative cases were characterized by increased MVD mean values. The variable results we obtained regarding the correlation between MVD and MGB in breast cancer specimens may indicate a rather restricted use of MVD/MGB in estimating breast cancer patients� prognosis.

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Section: Resultssupporting

confidence: 90%

Section: Resultssupporting

confidence: 89%

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Microvessel Density and Mammaglobin A Expression as Prognostic Markers in Molecular Types of Breast Cancer

Jitariu¹,

Ceauşu²,

Meche³

et al. 2019

Rev. Chim.

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“…Levels of gene expression were verified by quantitative real-time RT-PCR (RT-qPCR) as previously described [46] using specific PCR primer pairs (Supplementary Table 3). Comparative expression levels were calculated using the ΔΔCt method of Livak and Schmittgen, (2001) [47], using the hypoxanthine ribosyltransferase (HPRT) transcript as a normalizing control.…”

Section: Methodsmentioning

confidence: 99%

Pax-5 is a potent regulator of E-cadherin and breast cancer malignant processes

et al. 2017

Self Cite

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Pax-5, an essential transcription factor for B lymphocyte development, has been linked with the development and progression of lymphoid cancers and carcinoma. In contrast to B-cell cancer lesions, the specific expression signatures and roles of Pax-5 in breast cancer progression are relatively unknown. In the present study, we set out to profile Pax-5 expression in mammary tissues and elucidate the cellular and molecular roles of Pax-5 in breast cancer processes. Using immunohistology on mammary tissue arrays, Pax-5 was detected in a total of 298/306 (97.6%) samples tested. Interestingly, our studies reveal that Pax-5 inhibits aggressive features and confers anti-proliferative effects in breast carcinoma cells in contrast to its oncogenic properties in B cell cancers. More precisely, Pax-5 suppressed breast cancer cell migration, invasion and tumor spheroid formation while concomitantly promoting cell adhesion properties. We also observed that Pax-5 inhibited and reversed breast cancer epithelial to mesenchymal phenotypic transitioning. Mechanistically, we found that the Pax-5 transcription factor binds and induces gene expression of E-cadherin, a pivotal regulator of epithelialisation. Globally, we demonstrate that Pax-5 is predominant expressed factor in mammary epithelial cells. We also present an important role for Pax-5 in the phenotypic transitioning processes and aggressive features associated with breast cancer malignancy and disease progression.

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“…Cell viability assays. Cellular viability was monitored using the CellTiter-Blue assay (Promega, Madison, WI, USA) as previously described (29). After transfection, cells were seeded in 96 well plates (3×10 3 cells/well) where 20 μl of CellTiter-Blue substrate was added up to 100 μl/well and incubated for 1 h at 37˚C.…”

Section: Methodsmentioning

confidence: 99%