Your search keyword '"Grimes, Brenda R."' showing total 15 results

1. Human umbilical cord blood plasma can replace fetal bovine serum for in vitro expansion of functional human endothelial colony-forming cells

Author

Huang, Lan, Critser, Paul J., Grimes, Brenda R., and Yoder, Mervin C.

Published

2011

2. Widespread Telomere Instability in Prostatic Lesions

Author

Tu, LiRen, Huda, Nazmul, Grimes, Brenda R., Slee, Roger B., Bates, Alison M., Cheng, Liang, and Gilley, David

Published

2016

3. Adjuvant Abemaciclib Combined with Endocrine Therapy: Efficacy Results in monarchE Cohort 1.

Author

Toi, Masakazu, Boyle, Frances, Im, Young-Hyuck, Reinisch, Mattea, Molthrop, David, Jiang, Zefei, Wei, Ran, Sapunar, Francisco, Grimes, Brenda R, Nabinger, Sarah Cassidy, and Johnston, Stephen R D

Subjects

THERAPEUTIC use of antineoplastic agents, ADJUVANT chemotherapy, HORMONE therapy, CONFIDENCE intervals, CANCER relapse, ANTINEOPLASTIC agents, TREATMENT effectiveness, DESCRIPTIVE statistics, RESEARCH funding, STATISTICAL sampling, ODDS ratio, BREAST tumors, PATIENT safety

Abstract

The monarchE Cohort 1 patient population was enrolled based on high-risk clinicopathological features that can easily be identified as part of routine clinical breast cancer evaluation. Efficacy data from Cohort 1 demonstrate substantial evidence of benefit for adjuvant abemaciclib+ET in patients with HR+, HER2− early breast cancer at high risk of recurrence (ClinicalTrials.gov: NCT03155997 [monarchE]). [ABSTRACT FROM AUTHOR]

Published

2023

4. A portable BRCA1-HAC (human artificial chromosome) module for analysis of BRCA1 tumor suppressor function

Author

Kononenko, Artem V., Bansal, Ruchi, Lee, Nicholas C.O., Grimes, Brenda R., Masumoto, Hiroshi, Earnshaw, William C., Larionov, Vladimir, and Kouprina, Natalay

Published

2014

5. A real-world US study of recurrence risks using combined clinicopathological features in HR-positive, HER2-negative early breast cancer.

Author

Sheffield, Kristin M, Peachey, Jessica R, Method, Michael, Grimes, Brenda R, Brown, Jacqueline, Saverno, Kim, Sugihara, Tomoko, Cui, Zhanglin Lin, and Lee, Kimberley T

Subjects

PROGNOSIS, CANCER relapse, CELL receptors, BREAST tumors, PROPORTIONAL hazards models

Abstract

Aim: To assess invasive disease-free survival (IDFS) and distant relapse-free survival (DRFS) in hormone receptor-positive, HER2-negative early breast cancer with combined clinicopathological criteria from monarchE, a phase III study of abemaciclib. Methods: US electronic health records were used to compare outcomes between high-risk (≥4 lymph nodes, or 1-3 lymph nodes and grade 3, tumor ≥5 cm or Ki-67 ≥20%) versus nonhigh-risk groups using Kaplan-Meier methods and Cox regression models. Results: The high-risk group (n = 557) was at higher risk for IDFS and DRFS events than the nonhigh-risk group (n = 3471). IDFS events (hazard ratio: 3.07; 95% CI: 2.45-3.83) and DRFS events (hazard ratio: 3.15; 95% CI: 2.49-3.97) were significantly higher for the high-risk group. Conclusion: Risk of recurrence was three-times greater in the high-risk group, highlighting the need for better therapies. [ABSTRACT FROM AUTHOR]

Published

2022

6. A testis-specifically expressed gene is embedded within a cluster of maternally expressed genes at 89B in Drosophila melanogaster

Author

Stebbings, Lucy, Grimes, Brenda R., and Bownes, M.

Published

1998

7. Identifying and genotyping transgene integration loci

Author

Liang, Zhong, Breman, Amy Marie, Grimes, Brenda R., and Rosen, Elliot D.

Published

2008

8. Phenotypic plasticity in normal breast derived epithelial cells.

Author

Sauder, Candice A. M., Koziel, Jillian E., MiRan Choi, Fox, Melanie J., Grimes, Brenda R., Badve, Sunil, Blosser, Rachel J., Radovich, Milan, Lam, Christina C., Vaughan, Melville B., Herbert, Brittney-Shea, and Clare, Susan E.

Subjects

MATERIAL plasticity, BREAST, METAPLASIA, SQUAMOUS cell carcinoma, EMBRYOLOGY

Abstract

Background Normal, healthy human breast tissue from a variety of volunteer donors has become available for research thanks to the establishment of the Susan G. Komen for the Cure® Tissue Bank at the IU Simon Cancer Center (KTB). Multiple epithelial (K-HME) and stromal cells (K-HMS) were established from the donated tissue. Explant culture was utilized to isolate the cells from pieces of breast tissue. Selective media and trypsinization were employed to select either epithelial cells or stromal cells. The primary, non-transformed epithelial cells, the focus of this study, were characterized by immunohistochemistry, flow cytometry, and in vitro cell culture. Results All of the primary, non-transformed epithelial cells tested have the ability to differentiate in vitro into a variety of cell types when plated in or on biologic matrices. Cells identified include stratified squamous epithelial, osteoclasts, chondrocytes, adipocytes, neural progenitors/neurons, immature muscle and melanocytes. The cells also express markers of embryonic stem cells. Conclusions The cell culture conditions employed select an epithelial cell that is pluri/multipotent. The plasticity of the epithelial cells developed mimics that seen in metaplastic carcinoma of the breast (MCB), a subtype of triple negative breast cancer; and may provide clues to the origin of this particularly aggressive type of breast cancer. The KTB is a unique biorepository, and the normal breast epithelial cells isolated from donated tissue have significant potential as new research tools. [ABSTRACT FROM AUTHOR]

Published

2014

9. A new assay for measuring chromosome instability (CIN) and identification of drugs that elevate CIN in cancer cells.

Author

Hee-Sheung Lee, Lee, Nicholas C. O., Grimes, Brenda R., Samoshkin, Alexander, Kononenko, Artem V., Bansal, Ruchi, Masumoto, Hiroshi, Earnshaw, William C., Kouprina, Natalay, and Larionov, Vladimir

Subjects

ANEUPLOIDY, CANCER cells, CHROMOSOME abnormalities, CANCER invasiveness, ARTIFICIAL chromosomes, FLOW cytometry

Abstract

Background: Aneuploidy is a feature of most cancer cells that is often accompanied by an elevated rate of chromosome mis-segregation termed chromosome instability (CIN). While CIN can act as a driver of cancer genome evolution and tumor progression, recent findings point to the existence of a threshold level beyond which CIN becomes a barrier to tumor growth and therefore can be exploited therapeutically. Drugs known to increase CIN beyond the therapeutic threshold are currently few in number, and the clinical promise of targeting the CIN phenotype warrants new screening efforts. However, none of the existing methods, including the in vitro micronuclei (MNi) assay, developed to quantify CIN, is entirely satisfactory. Methods: We have developed a new assay for measuring CIN. This quantitative assay for chromosome missegregation is based on the use of a non-essential human artificial chromosome (HAC) carrying a constitutively expressed EGFP transgene. Thus, cells that inherit the HAC display green fluorescence, while cells lacking the HAC do not. This allows the measurement of HAC loss rate by routine flow cytometry. Results: Using the HAC-based chromosome loss assay, we have analyzed several well-known anti-mitotic, spindletargeting compounds, all of which have been reported to induce micronuclei formation and chromosome loss. For each drug, the rate of HAC loss was accurately measured by flow cytometry as a proportion of non-fluorescent cells in the cell population which was verified by FISH analysis. Based on our estimates, despite their similar cytotoxicity, the analyzed drugs affect the rates of HAC mis-segregation during mitotic divisions differently. The highest rate of HAC mis-segregation was observed for the microtubule-stabilizing drugs, taxol and peloruside A. Conclusion: Thus, this new and simple assay allows for a quick and efficient screen of hundreds of drugs to identify those affecting chromosome mis-segregation. It also allows ranking of compounds with the same or similar mechanism of action based on their effect on the rate of chromosome loss. The identification of new compounds that increase chromosome mis-segregation rates should expedite the development of new therapeutic strategies to target the CIN phenotype in cancer cells. [ABSTRACT FROM AUTHOR]

Published

2013

10. A Telomerase Immortalized Human Proximal Tubule Cell Line with a Truncation Mutation (Q4004X) in Polycystin-1.

Author

Herbert, Brittney-Shea, Grimes, Brenda R., Wei Min Xu, Werner, Michael, Ward, Christopher, Rossetti, Sandro, Harris, Peter, Bello-Reuss, Elsa, Ward, Heather H., Miller, Caroline, Gattone II, Vincent H., Phillips, Carrie L., Wandinger-Ness, Angela, and Bacallao, Robert L.

Subjects

*POLYCYSTIC kidney disease, *EPITHELIAL cells, *CELL culture, *CELL lines, *NEPHRONS, *CYSTS (Pathology)

Abstract

Autosomal dominant polycystic kidney disease (ADPKD) is associated with a variety of cellular phenotypes in renal epithelial cells. Cystic epithelia are secretory as opposed to absorptive, have higher proliferation rates in cell culture and have some characteristics of epithelial to mesenchymal transitions [1,2]. In this communication we describe a telomerase immortalized cell line that expresses proximal tubule markers and is derived from renal cysts of an ADPKD kidney. These cells have a single detectable truncating mutation (Q4004X) in polycystin-1. These cells make normal appearing but shorter cilia and fail to assemble polycystin-1 in the cilia, and less uncleaved polycystin-1 in membrane fractions. This cell line has been maintained in continuous passage for over 35 passages without going into senescence. Nephron segment specific markers suggest a proximal tubule origin for these cells and the cell line will be useful to study mechanistic details of cyst formation in proximal tubule cells. [ABSTRACT FROM AUTHOR]

Published

2013

11. Human umbilical cord blood plasma can replace fetal bovine serum for in vitro expansion of functional human endothelial colony-forming cells.

Author

Lan Huang, Critser, Paul J., Grimes, Brenda R., and Yoder, Mervin C.

Subjects

CELL proliferation, BLOOD vessels, CORD blood, CELL culture, CYTOKINES

Abstract

Background aims. A hierarchy of endothelial colony-forming cells (ECFC) with different levels of proliferative potential has been identified in human circulating blood and blood vessels. ECFC has recently become an attractive target for new vascular regenerative therapies; however, in vitro expansion of ECFC typically depends on the presence of fetal bovine serum (FBS) or fetal calf serum (FCS) in the culture medium, which is not appropriate for its therapeutic application. Methods. To identify optimal conditions for in vitro expansion of ECFC, the effects of human endothelial serum-free medium (SFM) supplemented with six pro-angiogenic cytokines and human umbilical cord blood plasma (HCP) were investigated. The in vitro morphology, proliferation, surface antigen expression and in vivo vessel-forming ability were utilized for examining the effects of medium on ECFC. Results. This novel formulation of endothelial cell culture medium allows us, for the first time, to isolate and expand human ECFC efficiently in vitro with a low concentration of HCP (1.5%) and without bovine serum additives. In this serum-reduced medium (SRM), human ECFC colony yields remained quantitatively similar to those cultured in a high concentration (10%) of bovine serum-supplemented medium. SRM-cultured ECFC displayed a robust clonal proliferative ability in vitro and human vessel-forming capacity in vivo. Conclusions. The present study provides a novel method for the expansion of human ECFC in vitro and will help to advance approaches for using the cells in human therapeutic trials. [ABSTRACT FROM AUTHOR]

Published

2011

12. Artificial and engineered chromosomes: developments and prospects for gene therapy.

Author

Grimes, Brenda R. and Monaco, Zoia Larin

Subjects

*ARTIFICIAL chromosomes, *CHROMOSOMES, *GENE therapy, *GENETIC engineering, *DNA, *GENE expression

Abstract

At the gene therapy session of the ICCXV Chromosome Conference (2004), recent advances in the construction of engineered chromosomes and de novo human artificial chromosomes were presented. The long-term aims of these studies are to develop vectors as tools for studying genome and chromosome function and for delivering genes into cells for therapeutic applications. There are two primary advantages of chromosome-based vector systems over most conventional vectors for gene delivery. First, the transferred DNA can be stably maintained without the risks associated with insertion, and second, large DNA segments encompassing genes and their regulatory elements can be introduced, leading to more reliable transgene expression. There is clearly a need for safe and effective gene transfer vectors to correct genetic defects. Among the topics discussed at the gene therapy session and the main focus of this review are requirements for de novo human artificial chromosome formation, assembly of chromatin on de novo human artificial chromosomes, advances in vector construction, and chromosome transfer to cells and animals. [ABSTRACT FROM AUTHOR]

Published

2005

13. α-Satellite DNA and Vector Composition Influence Rates of Human Artificial Chromosome Formation

Author

Grimes, Brenda R., Rhoades, Angela A., and Willard, Huntington F.

Subjects

*HUMAN chromosomes, *GENETIC transformation, *GENE therapy

Abstract

Human artificial chromosomes (HACs) have been proposed as a new class of potential gene transfer and gene therapy vector. HACs can be formed when bacterial cloning vectors containing α-satellite DNA are transfected into cultured human cells. We have compared the HAC-forming potential of different sequences to identify features critical to the efficiency of the process. Chromosome 17 or 21 α-satellite arrays are highly competent HAC-forming substrates in this assay. In contrast, a Y-chromosome-derived α-satellite sequence is inefficient, suggesting that centromere specification is at least partly dependent on DNA sequence. The length of the input array is also an important determinant, as reduction of the chromosome-17-based array from 80 kb to 35 kb reduced the frequency of HAC formation. In addition to the α-satellite component, vector composition also influenced HAC formation rates, size, and copy number. The data presented here have a significant impact on the design of future HAC vectors that have potential to be developed for therapeutic applications and as tools for investigating human chromosome structure and function. [Copyright &y& Elsevier]

Published

2002

14. A new assay for measuring chromosome instability (CIN) and identification of drugs that elevate CIN in cancer cells.

Author

Lee, Hee-Sheung, Lee, Nicholas Co, Grimes, Brenda R, Samoshkin, Alexander, Kononenko, Artem V, Bansal, Ruchi, Masumoto, Hiroshi, Earnshaw, William C, Kouprina, Natalay, Larionov, Vladimir, and Lee, Nicholas C O

Subjects

ANTINEOPLASTIC agents, CELL lines, CHROMOSOME abnormalities, CHROMOSOMES, FLOW cytometry, GENES, GENETIC techniques, PROTEINS, FLUORESCENCE in situ hybridization, PHARMACODYNAMICS

Abstract

Background: Aneuploidy is a feature of most cancer cells that is often accompanied by an elevated rate of chromosome mis-segregation termed chromosome instability (CIN). While CIN can act as a driver of cancer genome evolution and tumor progression, recent findings point to the existence of a threshold level beyond which CIN becomes a barrier to tumor growth and therefore can be exploited therapeutically. Drugs known to increase CIN beyond the therapeutic threshold are currently few in number, and the clinical promise of targeting the CIN phenotype warrants new screening efforts. However, none of the existing methods, including the in vitro micronuclei (MNi) assay, developed to quantify CIN, is entirely satisfactory.Methods: We have developed a new assay for measuring CIN. This quantitative assay for chromosome mis-segregation is based on the use of a non-essential human artificial chromosome (HAC) carrying a constitutively expressed EGFP transgene. Thus, cells that inherit the HAC display green fluorescence, while cells lacking the HAC do not. This allows the measurement of HAC loss rate by routine flow cytometry.Results: Using the HAC-based chromosome loss assay, we have analyzed several well-known anti-mitotic, spindle-targeting compounds, all of which have been reported to induce micronuclei formation and chromosome loss. For each drug, the rate of HAC loss was accurately measured by flow cytometry as a proportion of non-fluorescent cells in the cell population which was verified by FISH analysis. Based on our estimates, despite their similar cytotoxicity, the analyzed drugs affect the rates of HAC mis-segregation during mitotic divisions differently. The highest rate of HAC mis-segregation was observed for the microtubule-stabilizing drugs, taxol and peloruside A.Conclusion: Thus, this new and simple assay allows for a quick and efficient screen of hundreds of drugs to identify those affecting chromosome mis-segregation. It also allows ranking of compounds with the same or similar mechanism of action based on their effect on the rate of chromosome loss. The identification of new compounds that increase chromosome mis-segregation rates should expedite the development of new therapeutic strategies to target the CIN phenotype in cancer cells. [ABSTRACT FROM AUTHOR]

Published

2013

15. Input DNA Ratio Determines Copy Number of The 33 kb Factor IX Gene on De Novo Human Artificial Chromosomes.

Author

Breman, Amy M., Steiner, Camie M., Slee, Roger B., and Grimes, Brenda R.

Subjects

*DNA, *ARTIFICIAL chromosomes, *GENETICS, *GENE therapy, *GENETIC transformation, *THERAPEUTICS, *TRANSGENES

Abstract

Human artificial chromosomes (ACs) are non-integrating vectors that may be useful for gene therapy. They assemble in cultured cells following transfection of human centromeric α -satellite DNA and segregate efficiently alongside the host genome. In the present study, a 33 kilobase (kb) Factor IX (FIX) gene was incorporated into mitotically stable ACs in human HT1080 lung derived cells using co-transfection of a bacterial artificial chromosome (BAC) harboring synthetic α -satellite DNA and a P1 artificial chromosome(PAC) that spans the FIX locus. ACs were detected in ≥90% of chromosome spreads in 8 of 19 lines expanded from drug resistant colonies. FIX transgene copy number on ACs was determined by input DNA transfection ratios. Furthermore, a low level of FIX transcription was detected from ACs with multiple transgenes but not from those incorporating a single transgene, suggesting that reducing transgene number may limit misexpression. Their potential to segregate cross species was measured by transferring ACs into mouse and hamster cell lines using microcell-mediated chromosome transfer. Lines were obtained where ACs segregated efficiently. The stable segregation of ACs in rodent cells suggests that it should be possible to develop animal models to test the capacity of ACs to rescue FIX deficiency.Molecular Therapy (2007); 16 2, 315–323. doi:10.1038/sj.mt.6300361 [ABSTRACT FROM AUTHOR]

Published

2008