Breast cancer-associated metastasis is significantly increased in a model of autoimmune arthritis

Roy, Lopamudra Das; Pathangey, Latha B.; Tinder, Teresa L.; Schettini, Jorge; Gruber, Helen E.; Mukherjee, Pinku

doi:10.1186/bcr2345

Cited by 71 publications

(77 citation statements)

References 52 publications

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“…Systemic inflammation has been associated with an increased risk of breast cancer development (Gadalla et al, 2009) and metastasis (Das Roy et al, 2009). In addition, local inflammation leading to chronic mastitis in the mammary gland occurred at a higher frequency and earlier time point of tumour development in the ATX and LPA receptor transgenic mice .…”

Section: Breast Cancer Progression May Involve Lpa-induced Cytokine Pmentioning

confidence: 99%

Lysophosphatidic acid production and action: critical new players in breast cancer initiation and progression

2010

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Lysophosphatidic acid (LPA) is a potent lipid mediator that acts on a series of specific G protein-coupled receptors, leading to diverse biological actions. Lysophosphatidic acid induces cell proliferation, survival and migration, which are critically required for tumour formation and metastasis. This bioactive lipid is produced by the ectoenzyme lysophospholipase D or autotaxin (ATX), earlier known as an autocrine motility factor. The ATX -LPA signalling axis has emerged as an important player in many types of cancer. Indeed, aberrant expression of ATX and LPA receptors occurs during the development and progression of breast cancer. Importantly, expression of either ATX or LPA receptors in the mammary gland of transgenic mice is sufficient to induce the development of a high frequency of invasive and metastatic mammary cancers. The focus of research now turns to understanding the mechanisms by which ATX and LPA promote mammary tumourigenesis and metastasis. Targeting the ATX -LPA signalling axis for drug development may further improve outcomes in patients with breast cancer. Breast cancer is heterogeneous in the development and progression with patients that have histologically indistinguishable tumours showing disparate outcomes. Breast cancer is the 'poster child' for personalised therapy with assessment of biomarkers, including oestrogen receptor (ER), progesterone receptor and human epidermal growth factor receptor 2 directing patients to specific targeted therapies. Although it is impossible to fully ascertain the relative function of earlier detection and improved therapy, mortality rates for breast cancer have shown remarkable improvement. Despite the marked improvements in outcomes, 192 370 new cases of breast cancer are predicted last year in the United States, with an expected death rate of B20% (Jemal et al, 2009). In terms of poor outcomes, therapy resistance and metastasis both remain as critical challenges. Therefore, additional therapeutic targets are required to improve outcomes. As the autotaxin (ATX)-lysophosphatidic acid (LPA) signalling axis is one of the important survival factors and contributes to invasion and metastasis (Mills and Moolenaar, 2003), it warrants investigation both in terms of its function in the initiation and progression of breast cancer and as a novel therapeutic target.

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Section: Breast Cancer Progression May Involve Lpa-induced Cytokine Pmentioning

confidence: 99%

Lysophosphatidic acid production and action: critical new players in breast cancer initiation and progression

2010

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“…[14][15][16] A previous study has shown that the incidence of breast cancer associated lung metastasis is significantly higher in mice with arthritis. 17 Moreover, celecoxib, an anti-inflammation drug, significantly reduces metastasis to lungs. 18,19 These findings indicate the correlation between inflammatory microenviroment and the homing of circulating tumor cells.…”

Section: Introductionmentioning

confidence: 99%

Systemic inflammation promotes lung metastasis via E-selectin upregulation in mouse breast cancer model

Jiang

et al. 2014

Cancer Biology & Therapy

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“…Si bien Cx ha sido previamente reportado su acción frente a metástasis pulmonar (Gendy et al, 2011;Barlow et al, 2012;Zhang et al, 2014) y hueso (Das Roy et al, 2009), y frente a apoptosis y crecimiento tumoral en el mismo modelo (Rosas et al, 2014); no hay información de su efecto frente a metástasis pulmonar cuando es asociado a micropartículas de PLGA.…”

Section: Discussionunclassified

Celecoxib/PLGA Suprime Angiogénesis y Metástasis Pulmonar de un Cáncer Mamario Murino Experimental

et al. 2016

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ROA, I.; CANTIN, M.; MUÑOZ, M.; ROSAS, C. & LEMUS, D.Celecoxib/PLGA suprime angiogénesis y metástasis pulmonar de un cáncer mamario murino experimental. Int. J. Morphol., 34(1):335-341, 2016. RESUMEN:La angiogénesis y metástasis son eventos esenciales en el proceso de invasión tumoral. Su relación íntima los hace buenos blancos en la terapia antitumoral. El objetivo fue analizar el patrón de metástasis pulmonar y angiogénesis, luego de la aplicación del antiangiogénico Celecoxib microencapsulado en ácido poli(láctico-co-glicólico) en ratones. Se utilizó un modelo de tumor experimental, inducido por células TA3-MTX-R, en 18 ratones, separados en 3 grupos de 6 animales, los cuales fueron tratados con dos presentaciones de Celecoxib en administración intramuscular (Grupo Control; Grupo Cx 1000 ppm y Grupo Cx 1000 ppm+PLGA). Los ratones fueron sacrificados y procesados histológicamente para ser teñidos con H&E y Tricrómico de Arteta. El estudio reveló que el pulmón muestra una marcada heterogeneidad, y un patrón de metástasis perivascular; además, Celecoxib asociado a ácido poli(láctico-co-glicólico) redujo la invasión tumoral y angiogénesis en el pulmón. Los resultados son similares a descripciones parciales realizadas previamente y son comparables a otras líneas tumorales, siendo celecoxib/ácido poli(láctico-co-glicólico) un candidato potencial en la terapia antitumoral.

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Breast cancer-associated metastasis is significantly increased in a model of autoimmune arthritis

Cited by 71 publications

References 52 publications

Lysophosphatidic acid production and action: critical new players in breast cancer initiation and progression

Lysophosphatidic acid production and action: critical new players in breast cancer initiation and progression

Systemic inflammation promotes lung metastasis via E-selectin upregulation in mouse breast cancer model

Celecoxib/PLGA Suprime Angiogénesis y Metástasis Pulmonar de un Cáncer Mamario Murino Experimental

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