Your search keyword '"Michele I. Vitolo"' showing total 39 results

1. Microtubule disruption reduces metastasis more effectively than primary tumor growth

Author

Keyata N. Thompson, Julia A. Ju, Eleanor C. Ory, Stephen J. P. Pratt, Rachel M. Lee, Trevor J. Mathias, Katarina T. Chang, Cornell J. Lee, Olga G. Goloubeva, Patrick C. Bailey, Kristi R. Chakrabarti, Christopher M. Jewell, Michele I. Vitolo, and Stuart S. Martin

Subjects

Vinorelbine, Metastasis, Breast cancer, Microtentacles, Reattachment, MDA-MB-231, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Clinical cancer imaging focuses on tumor growth rather than metastatic phenotypes. The microtubule-depolymerizing drug, Vinorelbine, reduced the metastatic phenotypes of microtentacles, reattachment and tumor cell clustering more than tumor cell viability. Treating mice with Vinorelbine for only 24 h had no significant effect on primary tumor survival, but median metastatic tumor survival was extended from 8 to 30 weeks. Microtentacle inhibition by Vinorelbine was also detectable within 1 h, using tumor cells isolated from blood samples. As few as 11 tumor cells were sufficient to yield 90% power to detect this 1 h Vinorelbine drug response, demonstrating feasibility with the small number of tumor cells available from patient biopsies. This study establishes a proof-of-concept that targeted microtubule disruption can selectively inhibit metastasis and reveals that existing FDA-approved therapies could have anti-metastatic actions that are currently overlooked when focusing exclusively on tumor growth.

Published

2022

2. Label-free cell tracking enables collective motion phenotyping in epithelial monolayers

Author

Shuyao Gu, Rachel M. Lee, Zackery Benson, Chenyi Ling, Michele I. Vitolo, Stuart S. Martin, Joe Chalfoun, and Wolfgang Losert

Subjects

Optical imaging, Cell biology, Technical aspects of cell biology, Science

Abstract

Summary: Collective cell migration is an umbrella term for a rich variety of cell behaviors, whose distinct character is important for biological function, notably for cancer metastasis. One essential feature of collective behavior is the motion of cells relative to their immediate neighbors. We introduce an AI-based pipeline to segment and track cell nuclei from phase-contrast images. Nuclei segmentation is based on a U-Net convolutional neural network trained on images with nucleus staining. Tracking, based on the Crocker-Grier algorithm, quantifies nuclei movement and allows for robust downstream analysis of collective motion. Because the AI algorithm required no new training data, our approach promises to be applicable to and yield new insights for vast libraries of existing collective motion images. In a systematic analysis of a cell line panel with oncogenic mutations, we find that the collective rearrangement metric, D2min, which reflects non-affine motion, shows promise as an indicator of metastatic potential.

Published

2022

3. Hydrogen Peroxide Induces α-Tubulin Detyrosination and Acetylation and Impacts Breast Cancer Metastatic Phenotypes

Author

Megan B. Stemberger, Julia A. Ju, Keyata N. Thompson, Trevor J. Mathias, Alexandra E. Jerrett, Katarina T. Chang, Eleanor C. Ory, David A. Annis, Makenzy L. Mull, Darin E. Gilchrist, Michele I. Vitolo, and Stuart S. Martin

Subjects

tumor microenvironment, reactive oxygen species, microtubules, microtentacles, Cytology, QH573-671

Abstract

Levels of hydrogen peroxide are highly elevated in the breast tumor microenvironment compared to normal tissue. Production of hydrogen peroxide is implicated in the mechanism of action of many anticancer therapies. Several lines of evidence suggest hydrogen peroxide mediates breast carcinogenesis and metastasis, though the molecular mechanism remains poorly understood. This study elucidates the effects of exposure to elevated hydrogen peroxide on non-tumorigenic MCF10A mammary epithelial cells, tumorigenic MCF7 cells, and metastatic MDA-MB-231 breast cancer cells. Hydrogen peroxide treatment resulted in a dose- and time-dependent induction of two α-tubulin post-translational modifications—de-tyrosination and acetylation—both of which are markers of poor patient prognosis in breast cancer. Hydrogen peroxide induced the formation of tubulin-based microtentacles in MCF10A and MDA-MB-231 cells, which were enriched in detyrosinated and acetylated α-tubulin. However, the hydrogen peroxide-induced microtentacles did not functionally promote metastatic phenotypes of cellular reattachment and homotypic cell clustering. These data establish for the first time that microtentacle formation can be separated from the functions to promote reattachment and clustering, which indicates that there are functional steps that remain to be identified. Moreover, signals in the primary tumor microenvironment may modulate α-tubulin post-translational modifications and induce microtentacles; however, the functional consequences appear to be context-dependent.

Published

2023

4. Distinct roles of tumor associated mutations in collective cell migration

Author

Rachel M. Lee, Michele I. Vitolo, Wolfgang Losert, and Stuart S. Martin

Subjects

Medicine, Science

Abstract

Abstract Recent evidence suggests that groups of cells are more likely to form clinically dangerous metastatic tumors, emphasizing the importance of understanding mechanisms underlying collective behavior. The emergent collective behavior of migrating cell sheets in vitro has been shown to be disrupted in tumorigenic cells but the connection between this behavior and in vivo tumorigenicity remains unclear. We use particle image velocimetry to measure a multidimensional migration phenotype for genetically defined human breast epithelial cell lines that range in their in vivo behavior from non-tumorigenic to aggressively metastatic. By using cells with controlled mutations, we show that PTEN deletion enhances collective migration, while Ras activation suppresses it, even when combined with PTEN deletion. These opposing effects on collective migration of two mutations that are frequently found in patient tumors could be exploited in the development of novel treatments for metastatic disease. Our methods are based on label-free phase contrast imaging, and thus could easily be applied to patient tumor cells. The short time scales of our approach do not require potentially selective growth, and thus in combination with label-free imaging would allow multidimensional collective migration phenotypes to be utilized in clinical assessments of metastatic potential.

Published

2021

5. Lipid tethering of breast tumor cells reduces cell aggregation during mammosphere formation

Author

Lekhana Bhandary, Patrick C. Bailey, Katarina T. Chang, Karen F. Underwood, Cornell J. Lee, Rebecca A. Whipple, Christopher M. Jewell, Eleanor Ory, Keyata N. Thompson, Julia A. Ju, Trevor M. Mathias, Stephen J. P. Pratt, Michele I. Vitolo, and Stuart S. Martin

Subjects

Medicine, Science

Abstract

Abstract Mammosphere assays are widely used in vitro to identify prospective cancer-initiating stem cells that can propagate clonally to form spheres in free-floating conditions. However, the traditional mammosphere assay inevitably introduces cell aggregation that interferes with the measurement of true mammosphere forming efficiency. We developed a method to reduce tumor cell aggregation and increase the probability that the observed mammospheres formed are clonal in origin. Tethering individual tumor cells to lipid anchors prevents cell drift while maintaining free-floating characteristics. This enables real-time monitoring of single tumor cells as they divide to form mammospheres. Monitoring tethered breast cancer cells provided detailed size information that correlates directly to previously published single cell tracking data. We observed that 71% of the Day 7 spheres in lipid-coated wells were between 50 and 150 μm compared to only 37% in traditional low attachment plates. When an equal mixture of MCF7-GFP and MCF7-mCherry cells were seeded, 65% of the mammospheres in lipid-coated wells demonstrated single color expression whereas only 32% were single-colored in low attachment wells. These results indicate that using lipid tethering for mammosphere growth assays can reduce the confounding factor of cell aggregation and increase the formation of clonal mammospheres.

Published

2021

6. Elevation of Cytoplasmic Calcium Suppresses Microtentacle Formation and Function in Breast Tumor Cells

Author

Katarina T. Chang, Keyata N. Thompson, Stephen J. P. Pratt, Julia A. Ju, Rachel M. Lee, Trevor J. Mathias, Makenzy L. Mull, David A. Annis, Eleanor C. Ory, Megan B. Stemberger, Michele I. Vitolo, and Stuart S. Martin

Subjects

microtentacle (McTN), Ionomycin (Iono), Thapsigargin (Tg), calcium (Ca2+), breast cancer, metastasis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Cytoskeletal remodeling in circulating tumor cells (CTCs) facilitates metastatic spread. Previous oncology studies examine sustained aberrant calcium (Ca2+) signaling and cytoskeletal remodeling scrutinizing long-term phenotypes such as tumorigenesis and metastasis. The significance of acute Ca2+ signaling in tumor cells that occur within seconds to minutes is overlooked. This study investigates rapid cytoplasmic Ca2+ elevation in suspended cells on actin and tubulin cytoskeletal rearrangements and the metastatic microtentacle (McTN) phenotype. The compounds Ionomycin and Thapsigargin acutely increase cytoplasmic Ca2+, suppressing McTNs in the metastatic breast cancer cell lines MDA-MB-231 and MDA-MB-436. Functional decreases in McTN-mediated reattachment and cell clustering during the first 24 h of treatment are not attributed to cytotoxicity. Rapid cytoplasmic Ca2+ elevation was correlated to Ca2+-induced actin cortex contraction and rearrangement via myosin light chain 2 and cofilin activity, while the inhibition of actin polymerization with Latrunculin A reversed Ca2+-mediated McTN suppression. Preclinical and phase 1 and 2 clinical trial data have established Thapsigargin derivatives as cytotoxic anticancer agents. The results from this study suggest an alternative molecular mechanism by which these compounds act, and proof-of-principle Ca2+-modulating compounds can rapidly induce morphological changes in free-floating tumor cells to reduce metastatic phenotypes.

Published

2023

7. Inactivation of Arid1a in the endometrium is associated with endometrioid tumorigenesis through transcriptional reprogramming

Author

Yohan Suryo Rahmanto, Wenjing Shen, Xu Shi, Xi Chen, Yu Yu, Zheng-Cheng Yu, Tsutomu Miyamoto, Meng-Horng Lee, Vivek Singh, Ryoichi Asaka, Geoffrey Shimberg, Michele I. Vitolo, Stuart S. Martin, Denis Wirtz, Ronny Drapkin, Jianhua Xuan, Tian-Li Wang, and Ie-Ming Shih

Subjects

Science

Abstract

ARID1A, which is often mutated in human endometrial cancer, is a component of the SWI/SNF chromatin remodelling complex. Here, the authors show that Arid1a mutations in the mouse endometrium and primary human endometrial epithelial cells cause widespread reprogramming of gene transcription and result in a loss of response to TGFβ.

Published

2020

8. Single-Cell Tracking of Breast Cancer Cells Enables Prediction of Sphere Formation from Early Cell Divisions

Author

Patrick C. Bailey, Rachel M. Lee, Michele I. Vitolo, Stephen J.P. Pratt, Eleanor Ory, Kristi Chakrabarti, Cornell J. Lee, Keyata N. Thompson, and Stuart S. Martin

Subjects

Science

Abstract

Summary: The mammosphere assay has become widely employed to quantify stem-like cells in a population. However, the problem is there is no standard protocol employed by the field. Cell seeding densities of 1,000 to 100,000 cells/mL have been reported. These high densities lead to cellular aggregation. To address this, we have individually tracked 1,127 single MCF-7 and 696 single T47D human breast tumor cells by eye over the course of 14 days. This tracking has given us detailed information for the commonly used endpoints of 5, 7, and 14 days that is unclouded by cellular aggregation. This includes mean sphere sizes, sphere-forming efficiencies, and a well-defined minimum size for both lines. Importantly, we have correlated early cell division with eventual sphere formation. At 24 hr post seeding, we can predict the total spheres on day 14 with 98% accuracy in both lines. This approach removes cell aggregation and potentially shortens a 5- to 14-day assay to a 24 hours. : Biology Experimental Methods; Cancer Subject Areas: Biology Experimental Methods, Cancer

Published

2018

9. Tubulin Carboxypeptidase Activity Promotes Focal Gelatin Degradation in Breast Tumor Cells and Induces Apoptosis in Breast Epithelial Cells That Is Overcome by Oncogenic Signaling

Author

Trevor J. Mathias, Julia A. Ju, Rachel M. Lee, Keyata N. Thompson, Makenzy L. Mull, David A. Annis, Katarina T. Chang, Eleanor C. Ory, Megan B. Stemberger, Takashi Hotta, Ryoma Ohi, Michele I. Vitolo, Marie-Jo Moutin, and Stuart S. Martin

Subjects

tubulin carboxypeptidase, detyrosinated tubulin, apoptosis, breast cancer, breast, cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Post-translational modifications (PTMs) of the microtubule network impart differential functions across normal cell types and their cancerous counterparts. The removal of the C-terminal tyrosine of α-tubulin (deTyr-Tub) as performed by the tubulin carboxypeptidase (TCP) is of particular interest in breast epithelial and breast cancer cells. The recent discovery of the genetic identity of the TCP to be a vasohibin (VASH1/2) coupled with a small vasohibin-binding protein (SVBP) allows for the functional effect of this tubulin PTM to be directly tested for the first time. Our studies revealed the immortalized breast epithelial cell line MCF10A undergoes apoptosis following transfection with TCP constructs, but the addition of oncogenic KRas or Bcl-2/Bcl-xL overexpression prevents subsequent apoptotic induction in the MCF10A background. Functionally, an increase in deTyr-Tub via TCP transfection in MDA-MB-231 and Hs578t breast cancer cells leads to enhanced focal gelatin degradation. Given the elevated deTyr-Tub at invasive tumor fronts and the correlation with poor breast cancer survival, these new discoveries help clarify how the TCP synergizes with oncogene activation, increases focal gelatin degradation, and may correspond to increased tumor cell invasion. These connections could inform more specific microtubule-directed therapies to target deTyr-tubulin.

Published

2022

10. Microtentacle Formation in Ovarian Carcinoma

Author

Jocelyn C. Reader, Cong Fan, Eleanor Claire-Higgins Ory, Julia Ju, Rachel Lee, Michele I. Vitolo, Paige Smith, Sulan Wu, Mc Millan Nicol Ching, Emmanuel B. Asiedu, Christopher M. Jewell, Gautam G. Rao, Amy Fulton, Tonya J. Webb, Peixin Yang, Alessandro D. Santin, Huang-Chiao Huang, Stuart S. Martin, and Dana M. Roque

Subjects

ovarian cancer, microtentacle, serous carcinoma, clear cell carcinoma, microtubules, epothilone, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background: The development of chemoresistance to paclitaxel and carboplatin represents a major therapeutic challenge in ovarian cancer, a disease frequently characterized by malignant ascites and extrapelvic metastasis. Microtentacles (McTNs) are tubulin-based projections observed in detached breast cancer cells. In this study, we investigated whether ovarian cancers exhibit McTNs and characterized McTN biology. Methods: We used an established lipid-tethering mechanism to suspend and image individual cancer cells. We queried a panel of immortalized serous (OSC) and clear cell (OCCC) cell lines as well as freshly procured ascites and human ovarian surface epithelium (HOSE). We assessed by Western blot β-tubulin isotype, α-tubulin post-translational modifications and actin regulatory proteins in attached/detached states. We studied clustering in suspended conditions. Effects of treatment with microtubule depolymerizing and stabilizing drugs were described. Results: Among cell lines, up to 30% of cells expressed McTNs. Four McTN morphologies (absent, symmetric-short, symmetric-long, tufted) were observed in immortalized cultures as well as ascites. McTN number/length varied with histology according to metastatic potential. Most OCCC overexpressed class III ß-tubulin. OCCC/OSC cell lines exhibited a trend towards more microtubule-stabilizing post-translational modifications of α-tubulin relative to HOSE. Microtubule depolymerizing drugs decreased the number/length of McTNs, confirming that McTNs are composed of tubulin. Cells that failed to form McTNs demonstrated differential expression of α-tubulin- and actin-regulating proteins relative to cells that form McTNs. Cluster formation is more susceptible to microtubule targeting agents in cells that form McTNs, suggesting a role for McTNs in aggregation. Conclusions: McTNs likely participate in key aspects of ovarian cancer metastasis. McTNs represent a new therapeutic target for this disease that could refine therapies, including intraperitoneal drug delivery.

Published

2022

11. Long Noncoding RNA DANCR Activates Wnt/β-Catenin Signaling through MiR-216a Inhibition in Non-Small Cell Lung Cancer

Author

Justine E. Yu, Julia A. Ju, Nicholas Musacchio, Trevor J. Mathias, and Michele I. Vitolo

Subjects

Wnt, β-catenin, lncRNA, microRNA, non-small cell lung cancer, Microbiology, QR1-502

Abstract

Long noncoding RNA differentiation antagonizing nonprotein coding RNA (lncRNA-DANCR) is associated with poor prognosis in multiple cancers, and promotes cancer stemness and invasion. However, the exact mechanisms by which DANCR promotes non-small cell lung cancer (NSCLC) remain elusive. In this study, we determined that DANCR knockdown (KD) impeded cell migration and reduced stem-like characteristics in two NSCLC cell lines, A549 and H1755. Wnt signaling was shown to promote NSCLC proliferation, stemness, and invasion; therefore, we hypothesized that DANCR may regulate these activities through induction of the Wnt/β-catenin pathway. DANCR KD reduced β-catenin signaling and protein expression, and decreased the expression of β-catenin gene targets c-Myc and Axin2. One of the well-defined functions of lncRNAs is their ability to bind and inhibit microRNAs. Through in silico analysis, we identified tumor suppressor miR-216a as a potential binding partner to DANCR, and confirmed this binding through coimmunoprecipitation and luciferase-reporter assays. Furthermore, we show that DANCR-induced β-catenin protein expression may be blocked with miR-216a overexpression. Our findings illustrate a role of DANCR in NSCLC migration and stemness, and suggest a novel DANCR/miR-216a signaling axis in the Wnt/β-catenin pathway.

Published

2020

12. Gauging the Impact of Cancer Treatment Modalities on Circulating Tumor Cells (CTCs)

Author

Trevor J. Mathias, Katarina T. Chang, Stuart S. Martin, and Michele I. Vitolo

Subjects

cancer, metastasis, circulating tumor cells, ctcs, dissemination, chemotherapy, radiotherapy, surgery resection, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The metastatic cascade consists of multiple complex steps, but the belief that it is a linear process is diminishing. In order to metastasize, cells must enter the blood vessels or body cavities (depending on the cancer type) via active or passive mechanisms. Once in the bloodstream and/or lymphatics, these cancer cells are now termed circulating tumor cells (CTCs). CTC numbers as well as CTC clusters have been used as a prognostic marker with higher numbers of CTCs and/or CTC clusters correlating with an unfavorable prognosis. However, we have very limited knowledge about CTC biology, including which of these cells are ultimately responsible for overt metastatic growth, but due to the fact that higher numbers of CTCs correlate with a worse prognosis; it would seem appropriate to either limit CTCs and/or their dissemination. Here, we will discuss the different cancer treatments which may inadvertently promote the mobilization of CTCs and potential CTC therapies to decrease metastasis.

Published

2020

13. Effects of PTEN Loss and Activated KRAS Overexpression on Mechanical Properties of Breast Epithelial Cells

Author

Will Linthicum, Minh-Tri Ho Thanh, Michele I. Vitolo, and Qi Wen

Subjects

atomic force microscopy, cancer, cell mechanics, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

It has previously been shown that the simultaneous activation of PI3K (phosphatidylinositol 3-kinase) and Ras/MAPK (mitogen-activated protein kinases) pathways facilitate tumor growth despite only inducing cancer cell dormancy individually. Determining the impacts on cellular mechanics each pathway incites alone and in unison is critical to developing non-toxic cancer therapies for triple-negative breast cancers. PTEN (phosphatase and tensin homolog) knockout and activated KRAS (Kristen rat sarcoma viral oncogene homolog) overexpression in healthy MCF-10A human breast epithelial cells activated the PI3K and Ras/MAPK pathways, respectively. Cell stiffness and fluidity were simultaneously measured using atomic force microscopy. Results suggest that PTEN knockout reduced cell stiffness and increased cell fluidity independent of PI3K activation. Effects of activated KRAS overexpression on cell stiffness depends on rigidity of cell culture substrate. Activated KRAS overexpression also counteracts the effects of PTEN knockout.

Published

2018

14. Metastatic breast cancer cells have reduced calcium and actin response after ATP-P2Y2 signaling

Author

Makenzy L. Mull, Stephen J.P. Pratt, Keyata N. Thompson, David A. Annis, Abanoub A. Gad, Rachel M. Lee, Katarina T. Chang, Megan B. Stemberger, Julia A. Ju, Darin E. Gilchrist, Liron Boyman, Michele I. Vitolo, W. Jonathan Lederer, and Stuart S. Martin

Subjects

Article

Abstract

The tumor microenvironment and wound healing after injury, both contain extremely high concentrations of the extracellular signaling molecule, adenosine triphosphate (ATP) compared to normal tissue. P2Y2 receptor, an ATP-activated purinergic receptor, is typically associated with pulmonary, endothelial, and neurological cell signaling. Here we report its role and importance in breast epithelial cell signaling and how it’s altered in metastatic breast cancer. In response to ATP activation, P2Y2 receptor signaling causes an increase of intracellular Ca2+in non-tumorigenic breast epithelial cells, while their tumorigenic and metastatic counterparts have significantly reduced Ca2+responses. The non-tumorigenic cells respond to increased Ca2+with actin polymerization and localization to cellular junctions, while the metastatic cells remained unaffected. The increase in intracellular Ca2+after ATP stimulation could be blunted using a P2Y2 antagonist, which also prevented actin mobilization in non-tumorigenic breast epithelial cells. Furthermore, the lack of Ca2+concentration changes and actin mobilization in the metastatic breast cancer cells could be due to reduced P2Y2 expression, which correlates with poorer overall survival in breast cancer patients. This study elucidates rapid changes that occur after elevated intracellular Ca2+in breast epithelial cells and how metastatic cancer cells have adapted to evade this cellular response.STATEMENT OF SIGNIFICANCEThis work shows non-tumorigenic breast epithelial cells increase intracellular Ca2+after ATP-P2Y2 signaling and re-localize actin, while metastatic cells lack this response, due to decreased P2Y2 expression, which correlates with poorer survival.

Published

2023

15. Data from Curcumin Targets Breast Cancer Stem–like Cells with Microtentacles That Persist in Mammospheres and Promote Reattachment

Author

Stuart S. Martin, Lekhana Bhandary, Keyata N. Thompson, Jana Slovic, Amanda E. Boggs, Michele I. Vitolo, Rebecca A. Whipple, and Monica S. Charpentier

Abstract

Cancer stem–like cells (CSC) and circulating tumor cells (CTC) have related properties associated with distant metastasis, but the mechanisms through which CSCs promote metastasis are unclear. In this study, we report that breast cancer cell lines with more stem-like properties display higher levels of microtentacles (McTN), a type of tubulin-based protrusion of the plasma cell membrane that forms on detached or suspended cells and aid in cell reattachment. We hypothesized that CSCs with large numbers of McTNs would more efficiently attach to distant tissues, promoting metastatic efficiency. The naturally occurring stem-like subpopulation of the human mammary epithelial (HMLE) cell line presents increased McTNs compared with its isogenic non–stem-like subpopulation. This increase was supported by elevated α-tubulin detyrosination and vimentin protein levels and organization. Increased McTNs in stem-like HMLEs promoted a faster initial reattachment of suspended cells that was inhibited by the tubulin-directed drug, colchicine, confirming a functional role for McTNs in stem cell reattachment. Moreover, live-cell confocal microscopy showed that McTNs persist in breast stem cell mammospheres as flexible, motile protrusions on the surface of the mammosphere. Although exposed to the environment, they also function as extensions between adjacent cells along cell–cell junctions. We found that treatment with the breast CSC-targeting compound curcumin rapidly extinguished McTN in breast CSC, preventing reattachment from suspension. Together, our results support a model in which breast CSCs with cytoskeletal alterations that promote McTNs can mediate attachment and metastasis but might be targeted by curcumin as an antimetastatic strategy. Cancer Res; 74(4); 1250–60. ©2013 AACR.

Published

2023

16. Supplementary Figure 1 from Deletion of PTEN Promotes Tumorigenic Signaling, Resistance to Anoikis, and Altered Response to Chemotherapeutic Agents in Human Mammary Epithelial Cells

Author

Kurtis E. Bachman, David J. Weber, Stuart S. Martin, Ben Ho Park, Todd Waldman, Khola Tahir, Marta Szmacinski, Michele B. Weiss, and Michele I. Vitolo

Abstract

Supplementary Figure 1 from Deletion of PTEN Promotes Tumorigenic Signaling, Resistance to Anoikis, and Altered Response to Chemotherapeutic Agents in Human Mammary Epithelial Cells

Published

2023

17. Supplementary Figure Legends 1-5 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Author

Stuart S. Martin, Jing Yang, Kimberly C. Tuttle, Olga B. Ioffe, Jennifer R. Yoon, Michele I. Vitolo, Eric M. Balzer, Edward H. Cho, Michael A. Matrone, and Rebecca A. Whipple

Abstract

Supplementary Figure Legends 1-5 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Published

2023

18. Supplementary Figure Legends 1-2 from Deletion of PTEN Promotes Tumorigenic Signaling, Resistance to Anoikis, and Altered Response to Chemotherapeutic Agents in Human Mammary Epithelial Cells

Author

Kurtis E. Bachman, David J. Weber, Stuart S. Martin, Ben Ho Park, Todd Waldman, Khola Tahir, Marta Szmacinski, Michele B. Weiss, and Michele I. Vitolo

Abstract

Supplementary Figure Legends 1-2 from Deletion of PTEN Promotes Tumorigenic Signaling, Resistance to Anoikis, and Altered Response to Chemotherapeutic Agents in Human Mammary Epithelial Cells

Published

2023

19. Supplementary Figure 2 from Deletion of PTEN Promotes Tumorigenic Signaling, Resistance to Anoikis, and Altered Response to Chemotherapeutic Agents in Human Mammary Epithelial Cells

Author

Kurtis E. Bachman, David J. Weber, Stuart S. Martin, Ben Ho Park, Todd Waldman, Khola Tahir, Marta Szmacinski, Michele B. Weiss, and Michele I. Vitolo

Abstract

Supplementary Figure 2 from Deletion of PTEN Promotes Tumorigenic Signaling, Resistance to Anoikis, and Altered Response to Chemotherapeutic Agents in Human Mammary Epithelial Cells

Published

2023

20. Supplementary Figure Legends from α-Tubulin Acetylation Elevated in Metastatic and Basal-like Breast Cancer Cells Promotes Microtentacle Formation, Adhesion, and Invasive Migration

Author

Stuart S. Martin, Gordon B. Mills, Yiling Lu, Jana Slovic, Kimberly C. Tuttle, Olga B. Ioffe, Olga G. Goloubeva, Monica S. Charpentier, Rebecca A. Whipple, Michele I. Vitolo, and Amanda E. Boggs

Abstract

Supplementary Figure Legends.

Published

2023

21. Supplementary Figure S2 from α-Tubulin Acetylation Elevated in Metastatic and Basal-like Breast Cancer Cells Promotes Microtentacle Formation, Adhesion, and Invasive Migration

Author

Stuart S. Martin, Gordon B. Mills, Yiling Lu, Jana Slovic, Kimberly C. Tuttle, Olga B. Ioffe, Olga G. Goloubeva, Monica S. Charpentier, Rebecca A. Whipple, Michele I. Vitolo, and Amanda E. Boggs

Abstract

Supplementary Figure S2. K40R α-tubulin does not affect proliferation in MDA-MB-231 or BT-549 cells but decreases McTN frequency under transient transfection conditions.

Published

2023

22. Supplementary Table S1 from α-Tubulin Acetylation Elevated in Metastatic and Basal-like Breast Cancer Cells Promotes Microtentacle Formation, Adhesion, and Invasive Migration

Author

Stuart S. Martin, Gordon B. Mills, Yiling Lu, Jana Slovic, Kimberly C. Tuttle, Olga B. Ioffe, Olga G. Goloubeva, Monica S. Charpentier, Rebecca A. Whipple, Michele I. Vitolo, and Amanda E. Boggs

Abstract

Supplementary Table S1. Patient characteristics for survival analysis.

Published

2023

23. Data from α-Tubulin Acetylation Elevated in Metastatic and Basal-like Breast Cancer Cells Promotes Microtentacle Formation, Adhesion, and Invasive Migration

Author

Stuart S. Martin, Gordon B. Mills, Yiling Lu, Jana Slovic, Kimberly C. Tuttle, Olga B. Ioffe, Olga G. Goloubeva, Monica S. Charpentier, Rebecca A. Whipple, Michele I. Vitolo, and Amanda E. Boggs

Abstract

Metastatic cases of breast cancer pose the primary challenge in clinical management of this disease, demanding the identification of effective therapeutic strategies that remain wanting. In this study, we report that elevated levels of α-tubulin acetylation are a sufficient cause of metastatic potential in breast cancer. In suspended cell culture conditions, metastatic breast cancer cells exhibited high α-tubulin acetylation levels that extended along microtentacle (McTN) protrusions. Mutation of the acetylation site on α-tubulin and enzymatic modulation of this posttranslational modification exerted a significant impact on McTN frequency and the reattachment of suspended tumor cells. Reducing α-tubulin acetylation significantly inhibited migration but did not affect proliferation. In an analysis of more than 140 matched primary and metastatic tumors from patients, we found that acetylation was maintained and in many cases increased in lymph node metastases compared with primary tumors. Proteomic analysis of an independent cohort of more than 390 patient specimens further documented the relationship between increased α-tubulin acetylation and the aggressive behaviors of basal-like breast cancers, with a trend toward increased risk of disease progression and death in patients with high-intensity α-tubulin acetylation in primary tumors. Taken together, our results identify a tight correlation between acetylated α-tubulin levels and aggressive metastatic behavior in breast cancer, with potential implications for the definition of a simple prognostic biomarker in patients with breast cancer. Cancer Res; 75(1); 203–15. ©2014 AACR.

Published

2023

24. Supplementary Figure 2 from Curcumin Targets Breast Cancer Stem–like Cells with Microtentacles That Persist in Mammospheres and Promote Reattachment

Author

Stuart S. Martin, Lekhana Bhandary, Keyata N. Thompson, Jana Slovic, Amanda E. Boggs, Michele I. Vitolo, Rebecca A. Whipple, and Monica S. Charpentier

Abstract

PDF file - 103K, Vehicle-treated BT-549s form significantly more mammospheres than BT-549s treated with 50microM curcumin.

Published

2023

25. Supplementary Figure 5 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Author

Stuart S. Martin, Jing Yang, Kimberly C. Tuttle, Olga B. Ioffe, Jennifer R. Yoon, Michele I. Vitolo, Eric M. Balzer, Edward H. Cho, Michael A. Matrone, and Rebecca A. Whipple

Abstract

Supplementary Figure 5 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Published

2023

26. Supplementary Movie 2 from Curcumin Targets Breast Cancer Stem–like Cells with Microtentacles That Persist in Mammospheres and Promote Reattachment

Author

Stuart S. Martin, Lekhana Bhandary, Keyata N. Thompson, Jana Slovic, Amanda E. Boggs, Michele I. Vitolo, Rebecca A. Whipple, and Monica S. Charpentier

Abstract

AVI file - 5792K, Live cell confocal imaging of HMLE mammosphere stained with CellMask Orange (red) and transduced with GFP-membrane (green) suspended over a glass surface. Three-dimensional computer-rendered image reveals McTNs from the GFP-membrane cell encircling other cells in the mammosphere.

Published

2023

27. Supplementary Figure 3 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Author

Stuart S. Martin, Jing Yang, Kimberly C. Tuttle, Olga B. Ioffe, Jennifer R. Yoon, Michele I. Vitolo, Eric M. Balzer, Edward H. Cho, Michael A. Matrone, and Rebecca A. Whipple

Abstract

Supplementary Figure 3 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Published

2023

28. Supplementary Methods from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Author

Stuart S. Martin, Jing Yang, Kimberly C. Tuttle, Olga B. Ioffe, Jennifer R. Yoon, Michele I. Vitolo, Eric M. Balzer, Edward H. Cho, Michael A. Matrone, and Rebecca A. Whipple

Abstract

Supplementary Methods from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Published

2023

29. Supplementary Figure 1 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Author

Stuart S. Martin, Jing Yang, Kimberly C. Tuttle, Olga B. Ioffe, Jennifer R. Yoon, Michele I. Vitolo, Eric M. Balzer, Edward H. Cho, Michael A. Matrone, and Rebecca A. Whipple

Abstract

Supplementary Figure 1 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Published

2023

30. Supplementary Movie 3 from Curcumin Targets Breast Cancer Stem–like Cells with Microtentacles That Persist in Mammospheres and Promote Reattachment

Author

Stuart S. Martin, Lekhana Bhandary, Keyata N. Thompson, Jana Slovic, Amanda E. Boggs, Michele I. Vitolo, Rebecca A. Whipple, and Monica S. Charpentier

Abstract

AVI file - 4552K, Live cell confocal imaging of HMLE mammosphere stained with CellMask Orange (red) and transduced with GFP-membrane (green) suspended over a glass surface. Cross-sections reveal McTNs from the GFP-membrane cell encircling other cells in the mammosphere.

Published

2023

31. Supplementary Movie 1B from Curcumin Targets Breast Cancer Stem–like Cells with Microtentacles That Persist in Mammospheres and Promote Reattachment

Author

Stuart S. Martin, Lekhana Bhandary, Keyata N. Thompson, Jana Slovic, Amanda E. Boggs, Michele I. Vitolo, Rebecca A. Whipple, and Monica S. Charpentier

Abstract

AVI file - 1306K, Live cell confocal imaging of a HMLE mammosphere stained with CellMask Orange revealing dynamic microtentacles.

Published

2023

32. Supplementary Movie 4 from Curcumin Targets Breast Cancer Stem–like Cells with Microtentacles That Persist in Mammospheres and Promote Reattachment

Author

Stuart S. Martin, Lekhana Bhandary, Keyata N. Thompson, Jana Slovic, Amanda E. Boggs, Michele I. Vitolo, Rebecca A. Whipple, and Monica S. Charpentier

Abstract

MOV file - 1782K, Live cell confocal imaging of BT-549 mammosphere stained with CellMask Orange (red) and transduced with GFP-membrane (green) suspended over a glass surface. Three-dimensional computer-rendered image reveals McTNs from the GFP-membrane cell encircling other cells in the mammosphere.

Published

2023

33. Supplementary Figure 4 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Author

Stuart S. Martin, Jing Yang, Kimberly C. Tuttle, Olga B. Ioffe, Jennifer R. Yoon, Michele I. Vitolo, Eric M. Balzer, Edward H. Cho, Michael A. Matrone, and Rebecca A. Whipple

Abstract

Supplementary Figure 4 from Epithelial-to-Mesenchymal Transition Promotes Tubulin Detyrosination and Microtentacles that Enhance Endothelial Engagement

Published

2023

34. Data from Deletion of PTEN Promotes Tumorigenic Signaling, Resistance to Anoikis, and Altered Response to Chemotherapeutic Agents in Human Mammary Epithelial Cells

Author

Kurtis E. Bachman, David J. Weber, Stuart S. Martin, Ben Ho Park, Todd Waldman, Khola Tahir, Marta Szmacinski, Michele B. Weiss, and Michele I. Vitolo

Abstract

Many cancers, including breast cancer, harbor loss-of-function mutations in the catalytic domain of phosphatase and tensin homologue deleted on chromosome 10 (PTEN) or have reduced PTEN expression through loss of heterozygosity and/or epigenetic silencing mechanisms. However, specific phenotypic effects of PTEN inactivation in human cancer cells remain poorly defined without a direct causal connection between the loss of PTEN function and the development or progression of cancer. To evaluate the biological and clinical relevance of reduced or deleted PTEN expression, a novel in vitro model system was generated using human somatic cell knockout technologies. Targeted homologous recombination allowed for a single and double allelic deletion, which resulted in reduced and deleted PTEN expression, respectively. We determined that heterozygous loss of PTEN in the nontumorigenic human mammary epithelial cell line MCF-10A was sufficient for activation of the phosphoinositide 3-kinase/AKT and mitogen-activated protein kinase pathways, whereas the homozygous absence of PTEN expression led to a further increased activation of both pathways. The deletion of PTEN was able to confer growth factor–independent proliferation, which was confirmed by the resistance of the PTEN−/− MCF-10A cells to small-molecule inhibitors of the epidermal growth factor receptor. However, neither heterozygous nor homozygous loss of PTEN expression was sufficient to promote anchorage-independent growth, but the loss of PTEN did confer apoptotic resistance to cell rounding and matrix detachment. Finally, MCF-10A cells with the reduction or loss of PTEN showed increased susceptibility to the chemotherapeutic drug doxorubicin but not paclitaxel. [Cancer Res 2009;69(21):8275–83]

Published

2023

35. Supplementary Movie 5 from Curcumin Targets Breast Cancer Stem–like Cells with Microtentacles That Persist in Mammospheres and Promote Reattachment

Author

Stuart S. Martin, Lekhana Bhandary, Keyata N. Thompson, Jana Slovic, Amanda E. Boggs, Michele I. Vitolo, Rebecca A. Whipple, and Monica S. Charpentier

Abstract

MOV file - 1194K, Live cell confocal imaging of BT-549 mammosphere stained with CellMask Orange (red) and transduced with GFP-membrane (green) suspended over a glass surface. Cross-sections reveal McTNs from the GFP-membrane cell encircling other cells in the mammosphere.

Published

2023

36. Supplementary Figure 1 from Curcumin Targets Breast Cancer Stem–like Cells with Microtentacles That Persist in Mammospheres and Promote Reattachment

Author

Stuart S. Martin, Lekhana Bhandary, Keyata N. Thompson, Jana Slovic, Amanda E. Boggs, Michele I. Vitolo, Rebecca A. Whipple, and Monica S. Charpentier

Abstract

PDF file - 110K, Cellular viability assay reveals no significant differences in viability between HMLE stem-like and non-stem-like subpopulations upon treatment with colchicine.

Published

2023

37. Overexpressing

Author

Daniel F, Lusche, Emma C, Buchele, Kanoe B, Russell, Benjamin A, Soll, Michele I, Vitolo, Michael R, Klemme, Deborah J, Wessels, and David R, Soll

Subjects

TPTE2 TPIP, tumor suppressor, wound healing, transmembrane phosphatase, Research Paper, cancer cell rescue

Abstract

One possible approach to normalize mutant cells that are metastatic and tumorigenic, is to upregulate a functionally similar homolog of the mutated gene. Here we have explored this hypothesis by generating an overexpressor of TPTE2 (TPIP), a homolog of PTEN, in PTEN−/− mutants, the latter generated by targeted mutagenesis of a human epithelial cell line. Overexpression of TPTE2 normalized phenotypic changes associated with the PTEN mutation. The PTEN−/−-associated changes rescued by overexpressing TPTE2 included 1) accelerated wound healing in the presence or absence of added growth factors (GFs), 2) increased division rates on a 2D substrate in the presence of GFs, 3) adhesion and viability on a 2D substrate in the absence of GFs, 4) viability in a 3D Matrigel model in the absence of GFs and substrate adhesion 5) loss of apoptosis-associated annexin V cell surface binding sites. The results justify further exploration into the possibility that upregulating TPTE2 by a drug may reverse metastatic and tumorigenic phenotypes mediated in part by a mutation in PTEN. This strategy may also be applicable to other tumorigenic mutations in which a homolog to the mutated gene is present and can substitute functionally.

Published

2017

38. In Vivo Matrigel Angiogenesis Assays

Author

Michele I. Vitolo and Tony Passaniti

Subjects

Neovascularization, Matrigel, In vivo, Angiogenesis, Recombinant Cytokines, Chemistry, Low dose, medicine, Cancer research, Cellular level, medicine.symptom, Matrigel plug

Abstract

The in vivo Matrigel angiogenesis assay, or Matrigel plug assay, was developed to examine neovascularization in rodents in response to specific angiogenic factors, independently of the presence of tumor cells (Kibbey et al. 1992, Passaniti et al. 1992, Grant et al. 1993, Capogrossi and Passaniti 1999). Since its inception, a variety of agents have been used to deliver an angiogenic stimulus, including recombinant cytokines, adenoviral vectors, low dose tumor cells, and even telomerase-transfected endothelial cells (Muhlhauser et al. 1995, Klement et al. 2000, Akhtar et al. 2001, Yang et al. 2001). The applications of the assay include (1) the study of the basic mechanisms underlying angiogenesis at the molecular or cellular level and (2) the in vivo evaluation of the activities of angiogenic and angiostatic compounds or cytokines (Capogrossi and Passaniti 1999).

Published

2004

39. Anti-angiogenic activity of inositol hexaphosphate (IP6).

Author

Ivana Vucenik, Antonino Passaniti, Michele I. Vitolo, Kwanchanit Tantivejkul, Paul Eggleton, and AbulKalam M. Shamsuddin

Subjects

CELLS, CYTOKINES, CALCIUM-binding proteins, EXTRACELLULAR space

Abstract

A significant anticancer activity of the naturally occurring carbohydrate inositol hexaphosphate (IP6) has been reported against numerous cancer models. Since tumors require angiogenesis for growth and metastasis, we hypothesize that IP6 reduces tumor growth by inhibiting angiogenesis. Because angiogenesis depends on the interaction between endothelial and tumor cells, we investigated the effect of IP6 on both. IP6 inhibited the proliferation and induced the differentiation of endothelial cells in vitro; the growth of bovine aortic endothelial cells (BAECs) evaluated by MTT proliferation assay was inhibited in a dose-dependent manner (IC50 = 0.74 mM). The combination of IP6 and vasostatin, a calreticulin fragment with anti-angiogenic activity, was synergistically superior in growth inhibition than either compound. IP6 inhibited human umbilical vein endothelial cell (HUVEC) tube formation (in vitro capillary differentiation) on a reconstituted extracellular matrix, Matrigel, and disrupted pre-formed tubes. IP6 significantly reduced basic fibroblast growth factor (bFGF)-induced vessel formation (P < 0.01) in vivo in Matrigel plug assay. Exposure of HepG2, a human hepatoma cell line, to IP6 for 8 h, resulted in a dose-dependent decrease in the mRNA levels of vascular endothelial growth factor (VEGF), as assessed by RTPCR. IP6 treatment of HepG2 cells for 24 h also significantly reduced the VEGF protein levels in conditioned medium, in a concentration-dependent manner (P = 0.012). Thus, IP6 has an inhibitory effect on induced angiogenesis. [ABSTRACT FROM AUTHOR]

Published

2004