Elizabeth A. Peralta scite author profile

Brain metastasis of breast cancer profoundly affects the cognitive and sensory functions as well as morbidity of patients, and the 1 year survival rate among these patients remains less than 20%. However, the pathological mechanism of brain metastasis is as yet poorly understood. In this report, we found that metastatic breast tumour cells in the brain highly expressed IL-1β which then ‘activated’ surrounding astrocytes. This activation significantly augmented the expression of JAG1 in the astrocytes, and the direct interaction of the reactivated astrocytes and cancer stem-like cells (CSCs) significantly stimulated Notch signalling in CSCs. We also found that the activated Notch signalling in CSCs up-regulated HES5 followed by promoting self-renewal of CSCs. Furthermore, we have shown that the blood-brain barrier permeable Notch inhibitor, Compound E, can significantly suppress the brain metastasis in vivo. These results represent a novel paradigm for the understanding of how metastatic breast CSCs re-establish their niche for their self-renewal in a totally different microenvironment, which opens a new avenue to identify a novel and specific target for the brain metastatic disease.

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Contralateral prophylactic mastectomy improves the outcome of selected patients undergoing mastectomy for breast cancer

Peralta

Ellenhorn

Wagman

et al. 2000

The American Journal of Surgery

187

107

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Biology of the estrogen receptor, GPR30, in triple negative breast cancer

Steiman

Peralta

Louis

et al. 2013

The American Journal of Surgery

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Alterations in Gaba Metabolism and Met‐enkephalin Content in Rat Brain Following Repeated Electroconvulsive Shocks

Green

Peralta

Hong

et al. 1978

Journal of Neurochemistry

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The effects of electroconvulsive shock (ECS; 120 V for 1 s through ear‐clip electrodes) or sub‐convulsive shocks (70 V for 1 s) on rat brain GABA and met‐enkephalin concentration and GABA turnover has been examined 24 h after a single treatment (×1) or once daily for 10 days (×10). ECS × 10 increased GABA concentrations in the N. caudatus and N. accumbens and decreased the synthesis rate of GABA by 40% and 50% respectively in these regions. Sub‐convulsive shocks (× 10 × 10) or ECS × 1 had no effect. No consistent changes were seen in the substantia nigra. Met‐enkephalin concentrations increased by 50% in the N. caudatus after ECS × 10 but were unchanged in the cortex and pons/medulla. No other shock regimen had any effect on the concentration of this peptide. The results are discussed in relation to the enhanced monoamine‐induced responses seen only after ECS × 10.

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