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Full-Text Articles in Medicine and Health Sciences
Printing The Pathway Forward In Bone Metastatic Cancer Research: Applications Of 3d Engineered Models And Bioprinted Scaffolds To Recapitulate The Bone-Tumor Niche., Anne M. Hughes, Alexus D. Kolb, Alison B. Shupp, Kristy M. Shine, Karen M. Bussard
Printing The Pathway Forward In Bone Metastatic Cancer Research: Applications Of 3d Engineered Models And Bioprinted Scaffolds To Recapitulate The Bone-Tumor Niche., Anne M. Hughes, Alexus D. Kolb, Alison B. Shupp, Kristy M. Shine, Karen M. Bussard
Department of Cancer Biology Faculty Papers
Breast cancer commonly metastasizes to bone, resulting in osteolytic lesions and poor patient quality of life. The bone extracellular matrix (ECM) plays a critical role in cancer cell metastasis by means of the physical and biochemical cues it provides to support cellular crosstalk. Current two-dimensional in-vitro models lack the spatial and biochemical complexities of the native ECM and do not fully recapitulate crosstalk that occurs between the tumor and endogenous stromal cells. Engineered models such as bone-on-a-chip, extramedullary bone, and bioreactors are presently used to model cellular crosstalk and bone-tumor cell interactions, but fall short of providing a bone-biomimetic microenvironment. …
'Educated' Osteoblasts Reduce Osteoclastogenesis In A Bone-Tumor Mimetic Microenvironment., Alexus D. Kolb, Jinlu Dai, Evan T. Keller, Karen M. Bussard
'Educated' Osteoblasts Reduce Osteoclastogenesis In A Bone-Tumor Mimetic Microenvironment., Alexus D. Kolb, Jinlu Dai, Evan T. Keller, Karen M. Bussard
Department of Cancer Biology Faculty Papers
Breast cancer (BC) metastases to bone disrupt the balance between osteoblasts and osteoclasts, leading to excessive bone resorption. We identified a novel subpopulation of osteoblasts with tumor-inhibitory properties, called educated osteoblasts (EOs). Here we sought to examine the effect of EOs on osteoclastogenesis during tumor progression. We hypothesized that EOs affect osteoclast development in the bone-tumor niche, leading to suppressed pre-osteoclast fusion and bone resorption. Conditioned media (CM) was analyzed for protein expression of osteoclast factors receptor activator of nuclear factor kappa-β ligand (RANKL), osteoprotegerin (OPG), and tumor necrosis factor alpha (TNFα) via ELISA. EOs were co-cultured with pre-osteoclasts on …
Endogenous Cyclin D1 Promotes The Rate Of Onset And Magnitude Of Mitogenic Signaling Via Akt1 Ser473 Phosphorylation., Ke Chen, Xuanmao Jiao, Agnese Di Rocco, Duanwen Shen, Shaohua Xu, Adam Ertel, Zuoren Yu, Gabriele Di Sante, Min Wang, Zhiping Li, Timothy G Pestell, Mathew C Casimiro, Emmanuel Skordalakes, Samuel Achilefu, Richard G Pestell
Endogenous Cyclin D1 Promotes The Rate Of Onset And Magnitude Of Mitogenic Signaling Via Akt1 Ser473 Phosphorylation., Ke Chen, Xuanmao Jiao, Agnese Di Rocco, Duanwen Shen, Shaohua Xu, Adam Ertel, Zuoren Yu, Gabriele Di Sante, Min Wang, Zhiping Li, Timothy G Pestell, Mathew C Casimiro, Emmanuel Skordalakes, Samuel Achilefu, Richard G Pestell
Department of Cancer Biology Faculty Papers
Cyclin D1 encodes the regulatory subunit of a holoenzyme that phosphorylates RB and functions as a collaborative nuclear oncogene. The serine threonine kinase Akt plays a pivotal role in the control of cellular metabolism, survival, and mitogenic signaling. Herein, Akt1-mediated phosphorylation of downstream substrates in the mammary gland is reduced by cyclin D1 genetic deletion and is induced by mammary-gland-targeted cyclin D1 overexpression. Cyclin D1 is associated with Akt1 and augments the rate of onset and maximal cellular Akt1 activity induced by mitogens. Cyclin D1 is identified in a cytoplasmic-membrane-associated pool, and cytoplasmic-membrane-localized cyclin D1-but not nuclear-localized cyclin D1-recapitulates Akt1 …
The Bone Extracellular Matrix As An Ideal Milieu For Cancer Cell Metastases., Alexus D. Kolb, Karen M. Bussard
The Bone Extracellular Matrix As An Ideal Milieu For Cancer Cell Metastases., Alexus D. Kolb, Karen M. Bussard
Department of Cancer Biology Faculty Papers
Bone is a preferential site for cancer metastases, including multiple myeloma, prostate, and breast cancers.The composition of bone, especially the extracellular matrix (ECM), make it an attractive site for cancer cell colonization and survival. The bone ECM is composed of living cells embedded within a matrix composed of both organic and inorganic components. Among the organic components, type I collagen provides the tensile strength of bone. Inorganic components, including hydroxyapatite crystals, are an integral component of bone and provide bone with its rigidity. Under normal circumstances, two of the main cell types in bone, the osteoblasts and osteoclasts, help to …
Cyclin D1-Mediated Microrna Expression Signature Predicts Breast Cancer Outcome, Guangxue Wang, Michael Gormley, Jing Qiao, Qian Zhao, Min Wang, Gabriele Disante, Shengqiong Deng, Lin Dong, Timothy G. Pestell, Xiaoming Ju, Mathew C. Casimiro, Sankar Addya, Adam Ertel, Ayden Tozeren, Qinchuan Li, Zuoren Yu, Richard G. Pestell
Cyclin D1-Mediated Microrna Expression Signature Predicts Breast Cancer Outcome, Guangxue Wang, Michael Gormley, Jing Qiao, Qian Zhao, Min Wang, Gabriele Disante, Shengqiong Deng, Lin Dong, Timothy G. Pestell, Xiaoming Ju, Mathew C. Casimiro, Sankar Addya, Adam Ertel, Ayden Tozeren, Qinchuan Li, Zuoren Yu, Richard G. Pestell
Department of Cancer Biology Faculty Papers
Background: Genetic classification of breast cancer based on the coding mRNA suggests the evolution of distinct subtypes. Whether the non-coding genome is altered concordantly with the coding genome and the mechanism by which the cell cycle directly controls the non-coding genome is poorly understood.
Methods: Herein, the miRNA signature maintained by endogenous cyclin D1 in human breast cancer cells was defined. In order to determine the clinical significance of the cyclin D1-mediated miRNA signature, we defined a miRNA expression superset from 459 breast cancer samples. We compared the coding and non-coding genome of breast cancer subtypes.
Results: Hierarchical clustering of …
Stromal Cyclin D1 Promotes Heterotypic Immune Signaling And Breast Cancer Growth, Timothy G. Pestell, Xuanmao Jiao, Mukesh Kumar, Amy R. Peck, Marco Prisco, Shengqiong Deng, Zhiping Li, Adam Ertel, Matthew C. Casimiro, Xiaoming Ju, Agnese Di Rocco, Gabriele Di Sante, Sanjay Katiyar, Alison Shupp, Michael P. Lisanti, Pooja Jain, Kongming Wu, Hallgeir Rui, Douglas Craig Hooper, Zuoren Yu, Aaron R. Goldman, David W. Speicher, Lisa Laury-Kleintop, Richard G. Pestell
Stromal Cyclin D1 Promotes Heterotypic Immune Signaling And Breast Cancer Growth, Timothy G. Pestell, Xuanmao Jiao, Mukesh Kumar, Amy R. Peck, Marco Prisco, Shengqiong Deng, Zhiping Li, Adam Ertel, Matthew C. Casimiro, Xiaoming Ju, Agnese Di Rocco, Gabriele Di Sante, Sanjay Katiyar, Alison Shupp, Michael P. Lisanti, Pooja Jain, Kongming Wu, Hallgeir Rui, Douglas Craig Hooper, Zuoren Yu, Aaron R. Goldman, David W. Speicher, Lisa Laury-Kleintop, Richard G. Pestell
Department of Cancer Biology Faculty Papers
The cyclin D1 gene encodes the regulatory subunit of a holoenzyme that drives cell autonomous cell cycle progression and proliferation. Herein we show cyclin D1 abundance is increased > 30-fold in the stromal fibroblasts of patients with invasive breast cancer, associated with poor outcome. Cyclin D1 transformed hTERT human fibroblast to a cancer-associated fibroblast phenotype. Stromal fibroblast expression of cyclin D1 (cyclin D1Stroma) in vivo, enhanced breast epithelial cancer tumor growth, restrained apoptosis, and increased autophagy. Cyclin D1Stroma had profound effects on the breast tumor microenvironment increasing the recruitment of F4/80+ and CD11b+ macrophages and increasing …
Dach1 Suppresses Breast Cancer As A Negative Regulator Of Cd44., Hanxiao Xu, Shengnan Yu, Xun Yuan, Jing Xiong, Dong Kuang, Richard Pestell, Kongming Wu
Dach1 Suppresses Breast Cancer As A Negative Regulator Of Cd44., Hanxiao Xu, Shengnan Yu, Xun Yuan, Jing Xiong, Dong Kuang, Richard Pestell, Kongming Wu
Department of Cancer Biology Faculty Papers
Dachshund homolog 1 (DACH1), a key cell fate determination factor, contributes to tumorigenesis, invasion, metastasis of human breast neoplasm. However, the exact molecular mechanisms for the anti-tumor roles of DACH1 in breast carcinoma are still lack of extensive understanding. Herein, we utilized immunohistochemistry (IHC) staining and public microarray data analysis showing that DACH1 was higher in normal breast, low-grade and luminal-type cancer in comparison with breast carcinoma, high-grade and basal-like tumors respectively. Additionally, both correlation analysis of public databases of human breast carcinoma and IHC analysis of mice xenograft tumors demonstrated that DACH1 inversely related to cancer stem cells (CSCs) …