Personalized in vitro cancer models to predict therapeutic response: Challenges and a framework for improvement

Morgan, Molly; Johnson, Brian P.; Livingston, Megan; Schuler, Linda A.; Alarid, Elaine T.; Sung, Kyung Eun; Beebe, David J.

doi:10.1016/j.pharmthera.2016.05.007

Cited by 67 publications

(68 citation statements)

References 215 publications

(279 reference statements)

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“…A major obstacle to studying the mechanisms of drug resistance is that traditional in vitro models poorly recapitulate in vivo biology. Several authors have argued that increasing the physiologic relevance of in vitro platforms may improve the ability to predict drug responses (1,43,44). In support of this, we found that a 2D coculture system did not segregate the anastrazole responses of patients who are lean or obese as did our organotypic culture platform.…”

Section: Discussionsupporting

confidence: 75%

“…Approximately two thirds of all breast cancer cases are estrogen receptor (ER) a positive. ER is thought to regulate the progression of ER-positive breast cancer by controlling the growth and death of breast cancer cells through estrogen-regulated signaling (1). In postmenopausal women, treatment of ER-positive breast cancer typically involves directly targeting ERmediated signaling with ER antagonists such as tamoxifen, or indirectly limiting local estrogen by suppressing the conversion of testosterone (T) to E 2 with the use of aromatase inhibitors such as anastrazole (2).…”

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confidence: 99%

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Mammary adipose stromal cells derived from obese women reduce sensitivity to the aromatase inhibitor anastrazole in an organotypic breast model

et al. 2019

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Aromatase inhibitors are the preferred treatment for certain women with estrogen receptor (ER)‐positive breast cancer, but evidence suggests that women with obesity experience aromatase inhibitor resistance at higher rates. To compare how stromal cells derived from women who are lean or obese influence response to the aromatase inhibitor (anastrazole), we incorporated patient‐derived stroma in a previously characterized MCF7‐derived in vitro duct model. Coculture with adipose stromal cells enabled the metabolism of testosterone (T) to E2, which induced estrogen response element activity, epithelial proliferation, and hyperplasia in MCF7 cells. The effects of T were inhibited by the ER antagonist tamoxifen and aromatase inhibitor anastrazole and were increased by the aromatase inducer dexamethasone. Primary mammary adipose stromal cells derived from women with obesity displayed increased aromatase mRNA compared with lean controls. MCF7‐derived ducts cocultured with obese stromal cells exhibited higher maximal aromatization‐induced ER transactivation and reduced anastrazole sensitivity, a difference not seen in 2‐dimensional coculture. Finally, tamoxifen was more effective than anastrazole at reducing aromatization‐induced ER transactivation and proliferation. These findings suggest that patient‐specific responses to hormone therapies can be modeled and studied organotypically in vitro and add to evidence advocating obesity as a parameter to consider when identifying treatments for patients with ER‐positive breast cancer.—Morgan, M. M., Arendt, L. M., Alarid, E. T., Beebe, D. J., Johnson, B. P. Mammary adipose stromal cells derived from obese women reduce sensitivity to the aromatase inhibitor anastrazole in an organotypic breast model. FASEB J. 33, 8623–8633 (2019). http://www.fasebj.org

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Section: Discussionsupporting

confidence: 75%

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confidence: 99%

Mammary adipose stromal cells derived from obese women reduce sensitivity to the aromatase inhibitor anastrazole in an organotypic breast model

et al. 2019

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“…Indeed there is increasing evidence that inflammation and metabolic abnormalities within the cancer microenvironment are not simply a passive reaction to cancer cells, but can also drive neoplastic transformation (23,24). This knowledge is beginning to be translated into clinical applications in the development of personalized chemotherapeutic regimens based on in vitro testing incorporating elements of the patient's tumor microenvironment (25). This new understanding is also shaping primary prevention strategies that promote a cancer-resistant extracellular environment, such as aspirin for colon cancer and metformin for breast cancer (26,27).…”

Section: Importance Of Connective Tissue In Cancer Biologymentioning

confidence: 99%

Connecting (T)issues: How Research in Fascia Biology Can Impact Integrative Oncology

et al. 2016

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Complementary and integrative treatments, such as massage, acupuncture, and yoga, are used by increasing numbers of cancer patients to manage symptoms and improve their quality of life. In addition, such treatments may have other important and currently overlooked benefits by reducing tissue stiffness and improving mobility. Recent advances in cancer biology are underscoring the importance of connective tissue in the local tumor environment. Inflammation and fibrosis are well-recognized contributors to cancer, and connective tissue stiffness is emerging as a driving factor in tumor growth. Physical-based therapies have been shown to reduce connective tissue inflammation and fibrosis and thus may have direct beneficial effects on cancer spreading and metastasis. Meanwhile, there is currently little knowledge on potential risks of applying mechanical forces in the vicinity of tumors. Thus, both basic and clinical research are needed to understand the full impact of integrative oncology on cancer biology as well as whole person health. Cancer Res; 76(21); 6159-62. Ó2016 AACR.

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“…One approach to developing new tools to guide individualized treatment selection utilizes chemotherapy sensitivity and resistance assays (CSRAs) which use viable tissue from a tumor to provide predictive information about response to treatment (Burstein et al, 2011;Morgan et al, 2016). These techniques have the bene t of being inexpensive, quick and compatible with high-throughput screening to help guide treatment decision making (Morgan et al, 2016). Initially, assays were developed using cells from tumors in two dimensional (2D) tissue culture (Joo et al, 2009;Ochs et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

Patient-derived Tumor Spheroid Cultures as a Promising Tool to Assist Personalized Therapeutic Decisions

Hofmann

Cohen-Harazi

Maizels

et al. 2020

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BackgroundBreast cancer is the most common cause of cancerrelated death in women. Treatment of breast cancer has many limitations including a lack of accurate biomarkers to predict success of chemotherapy, intrinsic resistance of a significant group of patients to the gold standard of therapy and the limited applicability of targeted therapy. Therefore, new tools are needed to provide doctors with guidance in choosing the most effective treatment plan for a particular patient and thus to increase the survival rate for breast cancer patients.MethodsHere, we present a successful method to grow in vitro spheroids from primary breast cancer tissue. Samples were received in accordance with relevant ethical guidelines and regulations. After tissue dissociation, in vitro spheroids were generated in a scaffold-free 96-well plate format. Spheroid composition was investigated by immunohistochemistry (IHC) of epithelial (Pan Cytokeratin (panCK)), stromal (Vimentin) and breast cancer-specific markers (ER, PR, Her2, GATA, Mammaglobin). Growth and cell viability of the spheroids was assessed upon treatment with multiple anti-cancer compounds. Student´s t-test and two-way ANOVA test were used for statistical analysis.ResultsWe were able to successfully grow spheroids from 27 out of 31samples from surgical resections of breast cancer tissuefrom previously untreated patients. Recapitulation of the histopathology of the tissue of origin was confirmed. Furthermore, a drug panel of standard first line chemotherapy drugs used to treat breast cancer was applied to assess the viability of the patient-derived spheroids and revealed variation in the response of the spheroids to different drug treatments. ConclusionsWe investigated the feasibility and the utility of an in vitro, patient-derived spheroid model for breast cancer therapy, and we conclude that spheroids serve as a highly efficient platform to explore cancer therapeutics and personalized treatment efficacy.These results have significant implications for the application of this model in clinical personalized medicine.

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Personalized in vitro cancer models to predict therapeutic response: Challenges and a framework for improvement

Cited by 67 publications

References 215 publications

Mammary adipose stromal cells derived from obese women reduce sensitivity to the aromatase inhibitor anastrazole in an organotypic breast model

Mammary adipose stromal cells derived from obese women reduce sensitivity to the aromatase inhibitor anastrazole in an organotypic breast model

Connecting (T)issues: How Research in Fascia Biology Can Impact Integrative Oncology

Patient-derived Tumor Spheroid Cultures as a Promising Tool to Assist Personalized Therapeutic Decisions

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