Mary M Chaudhry scite author profile

Mary M Chaudhry

2Publications

3Citation Statements Received

74Citation Statements Given

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Midwestern University

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Glucose-limiting conditions induce an invasive population of MDA-MB-231 breast cancer cells with increased connexin 43 expression and membrane localization

Jones

Miceli

Chaudhry

et al. 2021

J. Cell Commun. Signal.

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Gap junctional intercellular communication (GJIC) is a homeostatic process mediated by membrane channels composed of a protein family known as connexins. Alterations to channel activity can modulate suppression or facilitation of cancer progression. These varying roles are influenced by the cancer cell genetic profile and the context-dependent mechanisms of a dynamic extracellular environment that encompasses fluctuations to nutrient availability. To better explore the effects of altered cellular metabolism on GJIC in breast cancer, we generated a derivative of the triple-negative breast cancer cell line MDA-MB-231 optimized for growth in low-glucose. Reduced availability of glucose is commonly encountered during tumor development and leads to metabolic reprogramming in cancer cells. MDA-MB-231 low-glucose adapted cells exhibited a larger size with improved cell–cell contact and upregulation of cadherin-11. Additionally, increased protein levels of connexin 43 and greater plasma membrane localization were observed with a corresponding improvement in GJIC activity compared to the parental cell line. Since GJIC has been shown to affect cellular invasion in multiple cancer cell types, we evaluated the invasive qualities of these cells using multiple three-dimensional Matrigel growth models. Results of these experiments demonstrated a significantly more invasive phenotype. Moreover, a decrease in invasion was noted when GJIC was inhibited. Our results indicate a potential response of triple-negative breast cancer cells to reduced glucose availability that results in changes to GJIC and invasiveness. Delineation of this relationship may help elucidate mechanisms by which altered cancer cell metabolism affects GJIC and how cancer cells respond to nutrient availability in this regard.

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Abstract 5997: Increased connexin 43 expression and gap junction communication correlates with invasion following reduced glucose metabolism in breast cancer cells

Jones¹,

Miceli²,

Chaudhry³

et al. 2020

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Dysregulation of gap junction intercellular communication (GJIC) is a common feature during cancer progression. GJIC is a means of direct cell-cell communication mediated by regulated membrane channels composed of connexin proteins. This communication is frequently lost between primary tumor cells but may be upregulated at secondary metastatic sites with stromal cells. Control of this process by cancer cells has been shown to facilitate aggressive qualities both in vitro and in vivo. During the process of metastasis, cells encounter numerous metabolic challenges that must be overcome, particularly during growth of primary tumors. In this study, we set out to evaluate if changes to cancer cell metabolism affect GJIC in breast cancer cells. To address this question, we generated a metabolic variant of the MDA-MB-231 cell line conditioned to grow in glucose-limiting conditions. These cells were grown in FBS supplemented RPMI with <0.130mM glucose compared to 2mM in control conditions for more than 4 weeks. Substantial cell death over this time revealed a small population of cells capable of surviving in glucose reduced conditions. Growth of these cells normalized following a period of quiescence and exhibited stable viability and proliferative capacity. Following STR validation, these cells were designated MDA-MB-231LG for their ability to grow in low glucose media. MDA-MB-231LG exhibited a larger and more rounded morphologic appearance with formation of strong cell-cell contacts as demonstrated by scanning electron microscopy in contrast to parental cells which showed a higher degree of membrane overlap. Further comparison of the two cell lines through western blot and immunofluorescence analysis of connexin 43, a major connexin expressed in breast tissue, revealed higher levels in MDA-MB-231LG and increased membrane localization. Using a double label dye transfer technique, the gap junction permeable fluorescent dye calcein showed increased movement from CM-DiI labeled donor cells into neighboring cells in MDA-MB-231LG indicating functional gap junction coupling while MDA-MB-231 had little to no dye movement. To evaluate phenotypic qualities, both cell lines were grown in Matrigel and MDA-MB-231LG displayed increased stellate morphology. Use of a Matrigel invasion chamber assay confirmed the increased invasive qualities with significantly more MDA-MB-231LG invading through the lower portion of the membrane compared to MDA-MB-231 parental cells. Our data demonstrate a clear upregulation of gap junction activity following metabolic adaptation to reduced glucose availability. It also suggests a possible connection between GJIC and invasive qualities in breast cancer cells and may represent an inducible phenotype that occurs in primary tumors when tumor growth limits blood vessel penetration and nutrient availability. Citation Format: Jennifer C. Jones, Amanda M. Miceli, Mary M. Chaudhry, Mallika A. Jai, Romel N. Pancho, Alan Lazzar, Bradley S. Taylor, Vishnupriya Bodempudi, Prarthana P. Jain, Sheeri Hanjra, Alexander E. Urban, Brian Zanotti, Ellen K. Kohlmeir, Thomas M. Bodenstine. Increased connexin 43 expression and gap junction communication correlates with invasion following reduced glucose metabolism in breast cancer cells [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 5997.

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Mary M Chaudhry

Glucose-limiting conditions induce an invasive population of MDA-MB-231 breast cancer cells with increased connexin 43 expression and membrane localization

Abstract 5997: Increased connexin 43 expression and gap junction communication correlates with invasion following reduced glucose metabolism in breast cancer cells

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