Damián E. Berardi scite author profile

Using the M05 mouse mammary tumor model and the MCF-7 cell line, we investigated the effect of tamoxifen treatment on the fraction of breast cancer cells with self-renewing capacity both in vitro and in vivo. We found that pretreatment with 4-OH-tamoxifen leads to an increase in cells with the ability of forming mammospheres that express lower levels of ER-α and increased expression of transcription factors associated with pluripotency. Moreover, exposure on plastic to 4-OH-tamoxifen by itself leads to an upregulation of these transcription factors. M05 tumors grown in mice treated with tamoxifen have a higher percentage of cells with self-renewing capacity and this proportion is conserved when tumors are passaged to nontreated mice. Furthermore, interruption of tamoxifen leads to increased tumor growth compared to tumors grown in mice that were never exposed to the antiestrogen. In addition, these tumors are characterized by a higher number of CD24(l)CD29(h) cells compared to tumors grown in nontreated mice. Treatment in vitro with 4-OH-tamoxifen for 5 days leads to a long lasting increase in the proportion of cells with self-renewing capacity even after 1 month of growth in the absence of the antiestrogen. Finally, we compared the mammosphere forming capacity of hormone dependent and independent passages of the M05 tumor and found that hormone independence is associated to an increase in cells with self-renewing capacity. Our results support previous findings that suggest that endocrine treatment selects for cells with stem cell properties.

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AhR ligand Aminoflavone inhibits α6-integrin expression and breast cancer sphere-initiating capacity

Brantley

Callero

Berardi

et al. 2016

Cancer Letters

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ULK1 promotes mitophagy via phosphorylation and stabilization of BNIP3

Poole

Bock-Hughes

Berardi

et al. 2021

Sci Rep

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UNC51-like kinase-1 (ULK1) is the catalytic component of the autophagy pre-initiation complex that stimulates autophagy via phosphorylation of ATG14, BECLN1 and other autophagy proteins. ULK1 has also been shown to specifically promote mitophagy but the mechanistic basis of how has remained unclear. Here we show that ULK1 phosphorylates the BNIP3 mitochondrial cargo receptor on a critical serine residue (S17) adjacent to its amino terminal LIR motif. ULK1 similarly phosphorylates BNIP3L on S35. Phosphorylation of BNIP3 on S17 by ULK1 promotes interaction with LC3 and mitophagy. ULK1 interaction also promotes BNIP3 protein stability by limiting its turnover at the proteasome. The ability of ULK1 to regulate BNIP3 protein stability depends on an intact “BH3” domain and deletion of its “BH3” domain reduces BNIP3 turnover and increases BNIP3 protein levels independent of ULK1. In summary ULK1 promotes mitophagy by both stabilization of BNIP3 protein and via phosphorylation of S17 to stimulate interaction with LC3.

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Breast cancer stem cells are involved in Trastuzumab resistance through the HER2 modulation in 3D culture

Rodriguez

Berardi

Abrigo

et al. 2017

J of Cellular Biochemistry

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Breast cancer human cells culture as spheroids develop autophagy and apoptosis, which promotes Trastuzumab resistance in HER2 overexpressing cells. Our aim was to study the association of the hostile environment developed in 3D with the breast cancer stem cells population and the HER2 modulation. Human mammary adenocarcinoma cell lines were cultured as spheroids using the hanging drop method. We generated hypoxia conditions by using a hypoxic chamber and CoCl treatment. Breast cancer stem cells were measured with mammosphere assays, the analysis of CD44 + CD24 population by flow cytometry and the pluripotent gene expression by RT-qPCR. HER2 expression was evaluated by flow cytometry and Western blot. MTS assays were conducted to study cell viability. Hostil environment developed in spheroids, defined by hypoxia and autophagy, modulated the response to Trastuzumab. In HER2+ cells with acquired resistance, we observed an increase in the breast cancer stem cell population. In BT474 spheroids, Trastuzumab induced the acquisition of resistance, along with an increase in breast cancer stem cells. Also, in 3D culture conditions we determined a modulation in the HER2 expression. Moreover, breast cancer stem cells showed enhanced HER2 expression. Finally, cells without HER2 gene amplification cultured as spheroids were sensitive to Trastuzumab, diminishing HER2 expression and cancer stem cells. Our findings show that 3D architecture is able to modulate breast cancer stem cell population and HER2 distribution, modifying the cell response to Trastuzumab.

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Autophagy: Friend or Foe in Breast Cancer Development, Progression, and Treatment

Berardi

Campodónico

Bessone

et al. 2011

International Journal of Breast Cancer

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Autophagy is a catabolic process responsible for the degradation and recycling of long-lived proteins and organelles by lysosomes. This degradative pathway sustains cell survival during nutrient deprivation, but in some circumstances, autophagy leads to cell death. Thereby, autophagy can serve as tumor suppressor, as the reduction in autophagic capacity causes malignant transformation and spontaneous tumors. On the other hand, this process also functions as a protective cell-survival mechanism against environmental stress causing resistance to antineoplastic therapies. Although autophagy inhibition, combined with anticancer agents, could be therapeutically beneficial in some cases, autophagy induction by itself could lead to cell death in some apoptosis-resistant cancers, indicating that autophagy induction may also be used as a therapy. This paper summarizes the most important findings described in the literature about autophagy and also discusses the importance of this process in clinical settings.

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Involvement of PKC delta (PKCδ) in the resistance against different doxorubicin analogs

Bessone

Berardi

Campodónico

et al. 2010

Breast Cancer Res Treat

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Doxorubicin is an anti-tumor antibiotic widely used in the management of cancer patients. Its main mechanism of action involves the generation of DNA damage and the inhibition of topoisomerase II, promoting apoptosis. AD 198 is a novel doxorubicin analog devoid of DNA binding and topoisomerase II inhibitory capacities. It has been proposed that AD 198 induces apoptosis by activating protein kinase C delta (PKCδ); a PKC isoform described as growth inhibitory in a large number of cell types. We have previously demonstrated that PKCδ overexpression in NMuMG cells induced the opposite effect, promoting proliferation and cell survival. In this study, we found that PKCδ overexpression confers an enhanced cell death resistance against AD 198 cytotoxic effect and against AD 288, another doxorubicin analog that preserves its mechanism of action. These resistances involve PKCδ-mediated activation of two well-known survival pathways: Akt and NF-κB. While the resistance against AD 198 could be abrogated upon the inhibition of either Akt or NF-κB pathways, only NF-κB inhibition could revert the resistance to AD 288. Altogether, our results indicate that PKCδ increases cell death resistance against different apoptosis inductors, independently of their mechanism of action, through a differential modulation of Akt and NF-κB pathways. Our study contributes to a better understanding of the mechanisms involved in PKCδ-induced resistance and may greatly impact in the rationale design of isozyme-specific PKC modulators as therapeutic agents.

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PKCδ Inhibition Impairs Mammary Cancer Proliferative Capacity But Selects Cancer Stem Cells, Involving Autophagy

et al. 2015

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Protein kinase C (PKC) is a family of serine/threonine kinases that regulate diverse cellular functions including cell death, proliferation, and survival. Recent studies have reported that PKCδ, are involved in apoptosis or autophagy induction. In the present study we focused on how PKCδ regulates proliferation and cancer stem cell (CSC) properties of the hormone-independent mammary cancer cell line LM38-LP, using pharmacological and genetic approaches. We found that pharmacological inhibition of PKCδ, by Rottlerin treatment, impairs in vitro LM38-LP proliferation through cell cycle arrest, inducing the formation of cytoplasmic-vacuoles. Using immunofluorescence we confirmed that Rottlerin treatment induced the apparition of LC3 dots in cell cytoplasm, and increased autophagy flux. On the other side, the same treatment increased CSC growth rate and self-renewal. Furthermore, Rottlerin pre-treatment induced in CSC the development of a "grape-like" morphology when they are growing in 3D cultures (Matrigel), usually associated with a malignant phenotype, as well as an increase in the number of experimental lung metastasis when these cells were inoculated in vivo. The PKCδ knockdown, by RNA interference, induced autophagy and increased CSC number, indicating that these effects are indeed exerted through a PKCδ dependent pathway. Finally, the increase in the number of mammospheres could be reversed by a 3MA treatment, suggesting that autophagy mechanism is necessary for the increased of CSC self-renewal induced by PKCδ inhibition. Here we demonstrated that PKCδ activity exerts a dual role through the autophagy mechanism, decreasing proliferative capacity of mammary tumor cells but also regulating tumor stem cell self-renewal.

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Myoepithelial and luminal breast cancer cells exhibit different responses to all-trans retinoic acid

et al. 2015

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Our results show that the luminal epithelial (LEP) and myoephitelial (MEP) mammary LM38-P subpopulations respond differently to ATRA, i.e., the LEP subpopulation responds with increased cell cycle arrest and apoptosis and the MEP subpopulation responds with increased senescence and adhesion, thereby decreasing its invasive capacity. Finally, we identified a third subpopulation with stem/progenitor cell characteristics within the LM38-LP mammary adenocarcinoma cell line, which appears to be non-responsive to ATRA.

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