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1,327 results on '"Wicha, Max"'

1. Effects of iron modulation on mesenchymal stem cell-induced drug resistance in estrogen receptor-positive breast cancer

Author

Buschhaus, Johanna M, Rajendran, Shrila, Humphries, Brock A, Cutter, Alyssa C, Muñiz, Ayşe J, Ciavattone, Nicholas G, Buschhaus, Alexander M, Cañeque, Tatiana, Nwosu, Zeribe C, Sahoo, Debashis, Bevoor, Avinash S, Shah, Yatrik M, Lyssiotis, Costas A, Ghosh, Pradipta, Wicha, Max S, Rodriguez, Raphaël, and Luker, Gary D

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Stem Cell Research - Nonembryonic - Human, Cancer, Estrogen, Breast Cancer, Women's Health, Stem Cell Research - Nonembryonic - Non-Human, Stem Cell Research, 2.1 Biological and endogenous factors, 5.1 Pharmaceuticals, 5.2 Cellular and gene therapies, Cell Line, Tumor, Drug Resistance, Drug Resistance, Neoplasm, Estrogen Antagonists, Estrogens, Iron, Mesenchymal Stem Cells, Neoplasms, Receptors, Estrogen, Clinical Sciences, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Patients with estrogen receptor-positive (ER+) breast cancer, the most common subtype, remain at risk for lethal metastatic disease years after diagnosis. Recurrence arises partly because tumor cells in bone marrow become resistant to estrogen-targeted therapy. Here, we utilized a co-culture model of bone marrow mesenchymal stem cells (MSCs) and ER+ breast cancer cells to recapitulate interactions of cancer cells in bone marrow niches. ER+ breast cancer cells in direct contact with MSCs acquire cancer stem-like (CSC) phenotypes with increased resistance to standard antiestrogenic drugs. We confirmed that co-culture with MSCs increased labile iron in breast cancer cells, a phenotype associated with CSCs and disease progression. Clinically approved iron chelators and in-house lysosomal iron-targeting compounds restored sensitivity to antiestrogenic therapy. These findings establish iron modulation as a mechanism to reverse MSC-induced drug resistance and suggest iron modulation in combination with estrogen-targeted therapy as a promising, translatable strategy to treat ER+ breast cancer.

Published
2022

2. Progestogen-driven B7-H4 contributes to onco-fetal immune tolerance

Author

Yu, Jiali, Yan, Yijian, Li, Shasha, Xu, Ying, Parolia, Abhijit, Rizvi, Syed, Wang, Weichao, Zhai, Yiwen, Xiao, Rongxin, Li, Xiong, Liao, Peng, Zhou, Jiajia, Okla, Karolina, Lin, Heng, Lin, Xun, Grove, Sara, Wei, Shuang, Vatan, Linda, Hu, Jiantao, Szumilo, Justyna, Kotarski, Jan, Freeman, Zachary T., Skala, Stephanie, Wicha, Max, Cho, Kathleen R., Chinnaiyan, Arul M., Schon, Samantha, Wen, Fei, Kryczek, Ilona, Wang, Shaomeng, Chen, Lieping, and Zou, Weiping

Published
2024
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3. Functional organization of the maternal and paternal human 4D Nucleome

Author

Lindsly, Stephen, Jia, Wenlong, Chen, Haiming, Liu, Sijia, Ronquist, Scott, Chen, Can, Wen, Xingzhao, Stansbury, Cooper, Dotson, Gabrielle A, Ryan, Charles, Rehemtulla, Alnawaz, Omenn, Gilbert S, Wicha, Max, Li, Shuai Cheng, Muir, Lindsey, and Rajapakse, Indika

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Bioinformatics, Genomic analysis, Genomics
Abstract

Every human somatic cell inherits a maternal and a paternal genome, which work together to give rise to cellular phenotypes. However, the allele-specific relationship between gene expression and genome structure through the cell cycle is largely unknown. By integrating haplotype-resolved genome-wide chromosome conformation capture, mature and nascent mRNA, and protein binding data from a B lymphoblastoid cell line, we investigate this relationship both globally and locally. We introduce the maternal and paternal 4D Nucleome, enabling detailed analysis of the mechanisms and dynamics of genome structure and gene function for diploid organisms. Our analyses find significant coordination between allelic expression biases and local genome conformation, and notably absent expression bias in universally essential cell cycle and glycolysis genes. We propose a model in which coordinated biallelic expression reflects prioritized preservation of essential gene sets.

Published
2021

6. EMP2 Is a Novel Regulator of Stemness in Breast Cancer Cells

Author

Dillard, Christen, Kiyohara, Meagan, Mah, Vei, McDermott, Sean P, Bazzoun, Dana, Tsui, Jessica, Chan, Ann M, Haddad, Ghassan, Pellegrini, Matteo, Chang, Yu-Ling, Elshimali, Yahya, Wu, Yanyuan, Vadgama, Jaydutt V, Kim, Sara R, Goodglick, Lee, Law, Samuel M, Patel, Deven D, Dhawan, Puneet, O'Brien, Neil A, Gordon, Lynn K, Braun, Jonathan, Lazar, Gary, Wicha, Max S, and Wadehra, Madhuri

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Women's Health, Stem Cell Research - Nonembryonic - Human, Breast Cancer, Cancer, Stem Cell Research, Biotechnology, Stem Cell Research - Nonembryonic - Non-Human, Genetics, 2.1 Biological and endogenous factors, Animals, Antibodies, Monoclonal, Apoptosis, Biomarkers, Tumor, Breast Neoplasms, Cell Proliferation, Epithelial-Mesenchymal Transition, Female, Gene Expression Regulation, Neoplastic, Humans, Membrane Glycoproteins, Mice, Mice, Inbred BALB C, Mice, Nude, Neoplasm Metastasis, Neoplastic Stem Cells, Tumor Cells, Cultured, Tumor Microenvironment, Xenograft Model Antitumor Assays, Pharmacology and Pharmaceutical Sciences, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Little is known about the role of epithelial membrane protein-2 (EMP2) in breast cancer development or progression. In this study, we tested the hypothesis that EMP2 may regulate the formation or self-renewal of breast cancer stem cells (BCSC) in the tumor microenvironment. In silico analysis of gene expression data demonstrated a correlation of EMP2 expression with known metastasis-related genes and markers of cancer stem cells (CSC) including aldehyde dehydrogenase (ALDH). In breast cancer cell lines, EMP2 overexpression increased and EMP2 knockdown decreased the proportion of stem-like cells as assessed by the expression of the CSC markers CD44+/CD24-, ALDH activity, or by tumor sphere formation. In vivo, upregulation of EMP2 promoted tumor growth, whereas knockdown reduced the ALDHhigh CSC population as well as retarded tumor growth. Mechanistically, EMP2 functionally regulated the response to hypoxia through the upregulation of HIF-1α, a transcription factor previously shown to regulate the self-renewal of ALDHhigh CSCs. Furthermore, in syngeneic mouse models and primary human tumor xenografts, mAbs directed against EMP2 effectively targeted CSCs, reducing the ALDH+ population and blocking their tumor-initiating capacity when implanted into secondary untreated mice. Collectively, our results show that EMP2 increases the proportion of tumor-initiating cells, providing a rationale for the continued development of EMP2-targeting agents.

Published
2020

8. Metabolic collateral lethal target identification reveals MTHFD2 paralogue dependency in ovarian cancer

Author

Achreja, Abhinav, Yu, Tao, Mittal, Anjali, Choppara, Srinadh, Animasahun, Olamide, Nenwani, Minal, Wuchu, Fulei, Meurs, Noah, Mohan, Aradhana, Jeon, Jin Heon, Sarangi, Itisam, Jayaraman, Anusha, Owen, Sarah, Kulkarni, Reva, Cusato, Michele, Weinberg, Frank, Kweon, Hye Kyong, Subramanian, Chitra, Wicha, Max S., Merajver, Sofia D., Nagrath, Sunitha, Cho, Kathleen R., DiFeo, Analisa, Lu, Xiongbin, and Nagrath, Deepak

Published
2022
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12. Ligands of CD6: roles in the pathogenesis and treatment of cancer.

Author

Gurrea-Rubio, Mikel, Lin, Feng, Wicha, Max S., Mao-Draayer, Yang, and Fox, David A.

Subjects
LIGANDS (Biochemistry), CELLULAR control mechanisms, T cells, CELL communication, CANCER cells
Abstract

Cluster of Differentiation 6 (CD6), an established marker of T cells, has multiple and complex functions in regulation of T cell activation and proliferation, and in adhesion of T cells to antigen-presenting cells and epithelial cells in various organs and tissues. Early studies on CD6 demonstrated its role in mediating cell-cell interactions through its first ligand to be identified, CD166/ALCAM. The observation of CD6-dependent functions of T cells that could not be explained by interactions with CD166/ALCAM led to discovery of a second ligand, CD318/CDCP1. An additional cell surface molecule (CD44) is being studied as a potential third ligand of CD6. CD166, CD318, and CD44 are widely expressed by both differentiated cancer cells and cancer stem-like cells, and the level of their expression generally correlates with poor prognosis and increased metastatic potential. Therefore, there has been an increased focus on understanding how CD6 interacts with its ligands in the context of cancer biology and cancer immunotherapy. In this review, we assess the roles of these CD6 ligands in both the pathogenesis and treatment of cancer. [ABSTRACT FROM AUTHOR]

Published
2025
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14. The pleiotropic effects of TNFα in breast cancer subtypes is regulated by TNFAIP3/A20

Author

Lee, Eunmi, Ouzounova, Maria, Piranlioglu, Raziye, Ma, Minh Thu, Guzel, Mustafa, Marasco, Daniela, Chadli, Ahmed, Gestwicki, Jason E, Cowell, John K, Wicha, Max S, Hassan, Khaled A, and Korkaya, Hasan

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Biological Sciences, Genetics, Cancer, Breast Cancer, Human Genome, 2.1 Biological and endogenous factors, Aetiology, Animals, Apoptosis, Breast Neoplasms, Cell Line, Tumor, Epithelial-Mesenchymal Transition, Female, Gene Expression Regulation, Neoplastic, Genetic Pleiotropy, HSP72 Heat-Shock Proteins, Heterografts, Humans, Inflammation, Lung Neoplasms, Mice, Mice, Inbred NOD, Mice, SCID, Neoplasm Invasiveness, Neoplasm Proteins, Neoplastic Stem Cells, Purine Nucleosides, RNA, Neoplasm, Recombinant Fusion Proteins, STAT3 Transcription Factor, Signal Transduction, Triple Negative Breast Neoplasms, Tumor Necrosis Factor alpha-Induced Protein 3, Tumor Necrosis Factor-alpha, Clinical Sciences, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

TNFα is a pleiotropic cytokine which fuels tumor cell growth, invasion, and metastasis in some malignancies, while in others it induces cytotoxic cell death. However, the molecular mechanism by which TNFα exerts its diverse effects on breast cancer subtypes remains elusive. Using in vitro assays and mouse xenografts, we show here that TNFα contributes to the aggressive properties of triple negative breast cancer (TNBC) cell lines via upregulation of TNFAIP3(A20). In a striking contrast, TNFα induces a potent cytotoxic cell death in luminal (ER+) breast cancer cell lines which fail to upregulate A20 expression. Overexpression of A20 not only protects luminal breast cancer cell lines from TNFα-induced cell death via inducing HSP70-mediated anti-apoptotic pathway but also promotes a robust EMT/CSC phenotype by activating the pStat3-mediated inflammatory signaling. Furthermore, A20 overexpression in luminal breast cancer cells induces aggressive metastatic properties in mouse xenografts via generating a permissive inflammatory microenvironment constituted by granulocytic-MDSCs. Collectively, our results reveal a mechanism by which A20 mediates pleiotropic effects of TNFα playing role in aggressive behaviors of TNBC subtype while its deficiency results in TNFα-induced apoptotic cell death in luminal breast cancer subtype.

Published
2019

15. Deciphering multi-way interactions in the human genome

Author

Dotson, Gabrielle A., Chen, Can, Lindsly, Stephen, Cicalo, Anthony, Dilworth, Sam, Ryan, Charles, Jeyarajan, Sivakumar, Meixner, Walter, Stansbury, Cooper, Pickard, Joshua, Beckloff, Nicholas, Surana, Amit, Wicha, Max, Muir, Lindsey A., and Rajapakse, Indika

Published
2022
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21. Multiethnic PDX models predict a possible immune signature associated with TNBC of African ancestry

Author

Jiagge, Evelyn M., Ulintz, Peter J., Wong, Shukmei, McDermott, Sean P., Fossi, Sabrina I., Suhan, Tahra K., Hoenerhoff, Mark J., Bensenhaver, Jessica M., Salem, Barbara, Dziubinski, Michele, Oppong, Joseph K., Aitpillah, Francis, Ishmael, Kyei, Osei-Bonsu, Ernest, Adjei, Ernest, Baffour, Awuah, Aldrich, Jessica, Kurdoglu, Ahmet, Fernando, Kurt, Craig, David W., Trent, Jeff M., Li, Jun, Chitale, Dhananjay, Newman, Lisa A., Carpten, John D., Wicha, Max S., and Merajver, Sofia D.

Published
2021
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26. Abstract A060: Organoid Culture as a Unique Resource for Studying Aggressive Triple Negative Breast Cancer in African American

Author

Kamita, Moses, primary, Fernando, Kurt, additional, Antwi, Sylvester, additional, Amponsah-Manu, Forster, additional, Nsaful, Josephine, additional, Akakpo, Kafui, additional, Bensenhaver, Jessica, additional, Agbedinu, Kwabena, additional, Nortey, Michael, additional, Affram, Nelson, additional, Sheriff, Mohammed, additional, Mills, Cassandra, additional, Mremi, Alex, additional, Aja, Jieoma, additional, Dokurugu, Moses, additional, Ali, Haythem, additional, Walker, Eleanor, additional, Wicha, Max, additional, and Jiagge, Evelyn, additional

Published
2024
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27. Flower lose, a cell fitness marker, predicts COVID‐19 prognosis

Author

Yekelchyk, Michail, Madan, Esha, Wilhelm, Jochen, Short, Kirsty R, Palma, António M, Liao, Linbu, Camacho, Denise, Nkadori, Everlyne, Winters, Michael T, Rice, Emily S, Rolim, Inês, Cruz‐Duarte, Raquel, Pelham, Christopher J, Nagane, Masaki, Gupta, Kartik, Chaudhary, Sahil, Braun, Thomas, Pillappa, Raghavendra, Parker, Mark S, Menter, Thomas, Matter, Matthias, Haslbauer, Jasmin Dionne, Tolnay, Markus, Galior, Kornelia D, Matkwoskyj, Kristina A, McGregor, Stephanie M, Muller, Laura K, Rakha, Emad A, Lopez‐Beltran, Antonio, Drapkin, Ronny, Ackermann, Maximilian, Fisher, Paul B, Grossman, Steven R, Godwin, Andrew K, Kulasinghe, Arutha, Martinez, Ivan, Marsh, Clay B, Tang, Benjamin, Wicha, Max S, Won, Kyoung Jae, Tzankov, Alexandar, Moreno, Eduardo, and Gogna, Rajan

Published
2021
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36. Xenografts faithfully recapitulate breast cancer-specific gene expression patterns of parent primary breast tumors

Author

Petrillo, Laura A, Wolf, Denise M, Kapoun, Ann M, Wang, Nicholas J, Barczak, Andrea, Xiao, Yuanyuan, Korkaya, Hasan, Baehner, Frederick, Lewicki, John, Wicha, Max, Park, John W, Spellman, Paul T, Gray, Joe W, van’t Veer, Laura, and Esserman, Laura J

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Cancer, Breast Cancer, Biotechnology, Genetics, Aldehyde Dehydrogenase 1 Family, Animals, Biomarkers, Tumor, Breast Neoplasms, Female, Gene Expression Profiling, Gene Expression Regulation, Neoplastic, Humans, Isoenzymes, Mice, Mice, SCID, Multigene Family, Receptor, ErbB-2, Retinal Dehydrogenase, Treatment Outcome, Xenograft Model Antitumor Assays, Mouse model, Breast cancer, Xenograft, Receptor subtype, Intrinsic subtype, ALDH1, CDK5/6, PAM50, Receptor, erbB-2, Clinical Sciences, Oncology & Carcinogenesis, Clinical sciences, Oncology and carcinogenesis
Abstract

Though xenografts are used extensively for drug development in breast cancer, how well xenografts reflect the breadth of primary breast tumor subtypes has not been well characterized. Moreover, few studies have compared the gene expression of xenograft tumors to the primary tumors from which they were derived. Here we investigate whether the ability of human breast tumors (n = 20) to create xenografts in immune-deficient mice is associated with breast cancer immunohistochemical (IHC) and intrinsic subtype. We also characterize how precisely the gene expression of xenografts reprises that of parent breast tumors, using hierarchical clustering and other correlation-based techniques applied to Agilent 44K gene expression data from 16 samples including four matched primary tumor-xenograft pairs. Of the breast tumors studied, 25 % (5/20) generated xenografts. Receptor and intrinsic subtype were significant predictors of xenograft success, with all (4/4) triple-negative (TN) tumors and no (0/12) HR+Her2- tumors forming xenografts (P = 0.0005). Tumor cell expression of ALDH1, a stem cell marker, trended toward successful engraftment (P = 0.14), though CDK5/6, a basal marker, did not. Though hierarchical clustering across the 500 most variable genes segregated human breast tumors from xenograft tumors, when clustering was performed over the PAM50 gene set the primary tumor-xenograft pairs clustered together, with all IHC subtypes clustered in distinct groups. Greater similarity between primary tumor-xenograft pairs relative to random pairings was confirmed by calculation of the within-pair between-pair scatter ratio (WPBPSR) distribution (P = 0.0269), though there was a shift in the xenografts toward more aggressive features including higher proliferation scores relative to the primary. Triple-negative breast tumors demonstrate superior ability to create xenografts compared to HR+ tumors, which may reflect higher proliferation or relatively stroma-independent growth of this subtype. Xenograft tumors' gene expression faithfully resembles that of their parent tumors, yet also demonstrates a shift toward more aggressive molecular features.

Published
2012

37. Algorithm for cellular reprogramming

Author

Ronquist, Scott, Patterson, Geoff, Muir, Lindsey A., Lindsly, Stephen, Chen, Haiming, Brown, Markus, Wicha, Max S., Bloch, Anthony, Brockett, Roger, and Rajapakse, Indika

Published
2017

49. Host expression of PD-L1 determines efficacy of PD-L1 pathway blockade-mediated tumor regression

Author

Lin, Heng, Wei, Shuang, Hurt, Elaine M., Green, Michael D., Zhao, Lili, Vatan, Linda, Szeliga, Wojciech, Herbst, Ronald, Harms, Paul W., Fecher, Leslie A., Vats, Pankaj, Chinnaiyan, Arul M., Lao, Christopher D., Lawrence, Theodore S., Wicha, Max, Hamanishi, Junzo, Mandai, Masaki, Kryczek, Ilona, and Zou, Weiping

Subjects
Genetic aspects, Health aspects, Apoptosis -- Health aspects, Cancer regression -- Genetic aspects, Ligands (Biochemistry) -- Health aspects
Abstract

Introduction Therapeutic blockade of programmed death-ligand 1 (PD-L1, B7-H1) or programmed death-1 receptor (PD-1) with mAbs leads to durable tumor control in a minority of patients across many cancer histologies [...], Programmed death-1 receptor (PD-L1, B7-H1) and programmed cell death protein 1 (PD-1) pathway blockade is a promising therapy for treating cancer. However, the mechanistic contribution of host and tumor PD-L1 and PD-1 signaling to the therapeutic efficacy of PD-L1 and PD-1 blockade remains elusive. Here, we evaluated 3 tumor-bearing mouse models that differ in their sensitivity to PD-L1 blockade and demonstrated a loss of therapeutic efficacy of PD-L1 blockade in immunodeficient mice and in PD-L1- and PD-1-deficient mice. In contrast, neither knockout nor overexpression of PD-L1 in tumor cells had an effect on PD-L1 blockade efficacy. Human and murine studies showed high levels of functional PD-L1 expression in dendritic cells and macrophages in the tumor microenvironments and draining lymph nodes. Additionally, expression of PD-L1 on dendritic cells and macrophages in ovarian cancer and melanoma patients correlated with the efficacy of treatment with either anti-PD-1 alone or in combination with anti-CTLA-4. Thus, PD-L1-expressing dendritic cells and macrophages may mechanistically shape and therapeutically predict clinical efficacy of PD-L1/PD-1 blockade.

Published
2018
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