A Portal Vein Injection Model to Study Liver Metastasis of Breast Cancer

Goddard, Erica T.; Fischer, Jacob; Schedin, Pepper

doi:10.3791/54903

Cited by 38 publications

(40 citation statements)

References 74 publications

(82 reference statements)

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“…This model permits outgrowth of liver lesions without concomitant metastasis in other organs (26). Further, to avoid cachexia, we utilized the less aggressive, isogenic, murine D2A1 mammary tumor cell line.…”

Section: Resultsmentioning

confidence: 99%

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The Rodent Liver Undergoes Weaning-Induced Involution and Supports Breast Cancer Metastasis

et al. 2017

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Postpartum breast cancer patients are at increased risk for metastasis compared to age-matched nulliparous or pregnant patients. Here, we address whether circulating tumor cells have a metastatic advantage in the postpartum host and find the post-lactation rodent liver preferentially supports metastasis. Upon weaning, we observed liver weight loss, hepatocyte apoptosis, ECM remodeling including deposition of collagen and tenascin-C, and myeloid cell influx, data consistent with weaning-induced liver involution and establishment of a pro-metastatic microenvironment. Using intracardiac and intraportal metastasis models, we observed increased liver metastasis in post-weaning Balb/c mice compared to nulliparous controls. Human relevance is suggested by a ~3-fold increase in liver metastasis in postpartum breast cancer patients (n=564) and by liver-specific tropism (n=117). In sum, our data reveal a previously unknown biology of the rodent liver, weaning-induced liver involution, which may provide insight into the increased liver metastasis and poor prognosis of women diagnosed with postpartum breast cancer.

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Section: Resultsmentioning

confidence: 99%

“…Mice were anesthetized, abdominal hair removed, and 5,000 D2A1 isogenic mammary tumor cells/10 µl PBS injected into the portal vein as described (26). Mice were euthanized at 5 weeks post-injection (Nullip, n=18; Inv2, n=17; R, n=8) and visible liver metastasis assessed at necropsy.…”

Section: Methodsmentioning

confidence: 99%

The Rodent Liver Undergoes Weaning-Induced Involution and Supports Breast Cancer Metastasis

et al. 2017

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“…However, only allografts form liver metastasis using this technique, and tumor formation and proliferation in the spleen affects metastatic potential. In the present study, we administered portal vein injections, which proved suitable for evaluating liver metastasis . We used this model to show that engrafted FRAS1 ‐KO cells did not form detectable tumors, whereas tumors were rapidly generated by MKN1 cells.…”

Section: Discussionmentioning

confidence: 99%

“…In the present study, we administered portal vein injections, which proved suitable for evaluating liver metastasis. 50 We used this model to show that engrafted FRAS1-KO cells did not form detectable tumors, whereas tumors were rapidly generated by MKN1 cells. In contrast, the rate of suppression rate of tumor formation was 33% in the subcutaneous xenograft model.…”

Section: Discussionmentioning

confidence: 99%

Fraser extracellular matrix complex subunit 1 promotes liver metastasis of gastric cancer

Umeda

Kanda

Miwa

et al. 2019

Intl Journal of Cancer

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Liver metastasis is often fatal in patients with gastric cancer, therefore, we aimed to identify genes associated with the mechanisms of liver metastasis of gastric cancer (GC) and to investigate their potential to predict recurrence and to serve as targets of therapy. Recurrence pattern‐specific transcriptome analysis was performed to identify liver metastasis‐associated genes. A stable knockout cell line was generated to investigate metabolic pathways that contribute to the malignant phenotype in vitro and vivo. Three hundred GC patients were analyzed to demonstrate an association between gene expression levels and clinicopathological parameters. As a results extracellular matrix complex subunit 1 (FRAS1) was identified as a liver metastasis‐associated gene. Pathway analysis revealed that FRAS1 expression was significantly correlated with the expression of genes encoding TGFB1, MAP1B, AHNAK, BMP2, MUC1, BIRC5, MET, CDH1, RB1 and MKI67. FRAS1 expression was associated with the activation of the EGFR and PI3K signaling pathways. The proliferation ability of FRAS1 knockout cell line (FRAS1‐KO) was inhibited compared to that of the parent cell line through caspase activity increment and cell cycle alteration. FRAS1‐KO cells exhibited increased responsiveness to oxygen stress and diminished stemness, invasiveness, and migration. Mouse models of GC revealed decreases in tumor formation and generation of metastasis by FRAS1‐KO cells. Moreover, the cumulative liver recurrence rate was significantly increased in patients with GC with high FRAS1 expression levels. We concluded that FRAS1 contributes to the malignant phenotype of GC, especially liver metastasis, and may therefore serve as a predictive marker or a target for treating liver metastasis.

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“…This model enables the spontaneous metastasis of the primary tumor through the portal system, thus mimicking the metastatic pattern in human colon cancer and generating liver and lung metastasis (47)(48)(49)(50). miR-200b was restored in CT-26/Luc cells stably expressing either WT or HLH-truncated HIF-1α for metastasis in animal experiments.…”

Section: Identification Of Functional Domains Required For Reciprocalmentioning

confidence: 99%

HIF-1α promotes autophagic proteolysis of Dicer and enhances tumor metastasis

Lai¹,

Li²,

Wang³

et al. 2017

Journal of Clinical Investigation

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A Portal Vein Injection Model to Study Liver Metastasis of Breast Cancer

Cited by 38 publications

References 74 publications

The Rodent Liver Undergoes Weaning-Induced Involution and Supports Breast Cancer Metastasis

The Rodent Liver Undergoes Weaning-Induced Involution and Supports Breast Cancer Metastasis

Fraser extracellular matrix complex subunit 1 promotes liver metastasis of gastric cancer

HIF-1α promotes autophagic proteolysis of Dicer and enhances tumor metastasis

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