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Spine‑specific downregulation of LAPTM5 expression promotes the progression and spinal metastasis of estrogen receptor‑positive breast cancer by activating glutamine‑dependent mTOR signaling

Qingbing Meng, Lei Zhou, Haifeng Liang, Annan Hu, Hao Zhou, Jian Zhou, Xiaogang Zhou, Hong Lin, Xilei Li, Libo Jiang, Jian Dong

2022International Journal of Oncology13 citationsDOIOpen Access PDF

Abstract

Estrogen receptor‑positive (ER<sup>+</sup>) breast cancer (BC) is a malignancy that is prone to metastasis to the spine, which is difficult to treat and often results in poor prognosis. However, the mechanism underlying the tumorigenesis and spinal metastasis of ER<sup>+</sup> BC remains unclear. Lysosomal protein transmembrane 5 (LAPTM5) has been reported as a tumor suppressor in several types of cancer, but its role in ER<sup>+</sup> BC has not been described. Here, by analyzing a gene sequencing dataset and ER<sup>+</sup> BC tissues, tumor‑adjacent normal tissues and spinal metastatic tissues from patients and mouse models, we found that LAPTM5 expression is negatively related to the progression and spinal metastasis of ER<sup>+</sup> BC. Subsequently, <em>in vitro</em> experiments demonstrated that downregulation of LAPTM5 expression promoted the proliferation, migration, and chemoresistance of ER<sup>+</sup> BC cells by activating glutamine‑dependent mTOR signaling. A high level of CX3CL1 could inhibit LAPTM5 expression, explaining how ER<sup>+</sup> BC metastasized to the spine. Thus, we found that LAPTM5 functions as a tumor suppressor in ER<sup>+</sup> BC and that the CX3CL/CX3CR1/LAPTM5/glutamine axis mediates the spinal metastasis of ER<sup>+</sup> BC. This axis may be a promising therapeutic target for ER<sup>+</sup> BC.

Topics & Concepts

Estrogen receptorMetastasisCancer researchDownregulation and upregulationBiologyCancerCarcinogenesisBreast cancerOncogenePI3K/AKT/mTOR pathwaySignal transductionCell cycleCell biologyGeneticsGeneBiochemistryUbiquitin and proteasome pathwaysChemokine receptors and signalingProtease and Inhibitor Mechanisms